Abstract
Tobacco-related morbidity and mortality continue to be a significant public health concern. Unfortunately, current FDA-approved smoking cessation pharmacotherapies have limited efficacy and are associated with high rates of relapse. Therefore, a better understanding of the neurobiological and neurophysiological mechanisms that promote smoking relapse is needed to develop novel smoking cessation medications. Here, we review preclinical studies focused on identifying the neurotransmitter and neuromodulator systems that mediate nicotine relapse, often modeled in laboratory animals using the reinstatement paradigm, as well as the plasticity-dependent neurophysiological mechanisms that facilitate nicotine reinstatement. Particular emphasis is placed on how these neuroadaptations relate to smoking relapse in humans. We also highlight a number of important gaps in our understanding of the neural mechanisms underlying nicotine reinstatement and critical future directions, which may lead toward the development of novel, target pharmacotherapies for smoking cessation.
References
1.
Arrazola
RA
, Singh
T
, Corey
CG
, Husten
CG
, Neff
LJ
, Apelberg
BJ
, et al.; Centers for Disease Control and Prevention (CDC)
. Tobacco use among middle and high school students - United States, 2011-2014
. MMWR Morb Mortal Wkly Rep
. 2015
Apr
;64
(14
):381
–5
.
[PubMed]
1545-861X2.
CDCP
. C.f.D.C.a.P.-. Current Cigarette Smoking Among Adults - United States, 2005-2014
. Morbidity and Mortality Weekly Report
. 2015
;64
(44
):1244
–40
.3.
CDC
. Preventing Tobacco Use Among Youth and Young Adults: A Report of the Surgeon General.
2012
, U.S. Department of Health and Human Services, National Center for Chronic Disease Prevention and Health Promotion, Office on Smoking and Health: Atlanta, GA.4.
Jha
P
, Ramasundarahettige
C
, Landsman
V
, Rostron
B
, Thun
M
, Anderson
RN
, et al. 21st-century hazards of smoking and benefits of cessation in the United States
. N Engl J Med
. 2013
Jan
;368
(4
):341
–50
.
[PubMed]
0028-47935.
Xu
X
, Bishop
EE
, Kennedy
SM
, Simpson
SA
, Pechacek
TF
. Annual healthcare spending attributable to cigarette smoking: an update
. Am J Prev Med
. 2015
Mar
;48
(3
):326
–33
.
[PubMed]
0749-37976.
Taylor
DH
Jr, Hasselblad
V
, Henley
SJ
, Thun
MJ
, Sloan
FA
. Benefits of smoking cessation for longevity
. Am J Public Health
. 2002
Jun
;92
(6
):990
–6
.
[PubMed]
0090-00367.
8.
Garvey
AJ
, Bliss
RE
, Hitchcock
JL
, Heinold
JW
, Rosner
B
. Predictors of smoking relapse among self-quitters: a report from the Normative Aging Study
. Addict Behav
. 1992
;17
(4
):367
–77
.
[PubMed]
0306-46039.
Hughes
JR
. Tobacco withdrawal in self-quitters
. J Consult Clin Psychol
. 1992
Oct
;60
(5
):689
–97
.
[PubMed]
0022-006X10.
Cahill
K
, Stevens
S
, Lancaster
T
. Pharmacological treatments for smoking cessation
. JAMA
. 2014
Jan
;311
(2
):193
–4
.
[PubMed]
0098-748411.
Lerman
C
, LeSage
MG
, Perkins
KA
, O’Malley
SS
, Siegel
SJ
, Benowitz
NL
, et al. Translational research in medication development for nicotine dependence
. Nat Rev Drug Discov
. 2007
Sep
;6
(9
):746
–62
.
[PubMed]
1474-177612.
Le Foll
B
, Pushparaj
A
, Pryslawsky
Y
, Forget
B
, Vemuri
K
, Makriyannis
A
, et al. Translational strategies for therapeutic development in nicotine addiction: rethinking the conventional bench to bedside approach
. Prog Neuropsychopharmacol Biol Psychiatry
. 2014
Jul
;52
:86
–93
.
[PubMed]
0278-584613.
Henningfield
JE
, Heishman
SJ
. The addictive role of nicotine in tobacco use
. Psychopharmacology (Berl)
. 1995
Jan
;117
(1
):11
–3
.
[PubMed]
0033-315814.
Stolerman
IP
, Jarvis
MJ
. The scientific case that nicotine is addictive
. Psychopharmacology (Berl)
. 1995
Jan
;117
(1
):2
–10
.
[PubMed]
0033-315815.
Etter
JF
, Eissenberg
T
. Dependence levels in users of electronic cigarettes, nicotine gums and tobacco cigarettes
. Drug Alcohol Depend
. 2015
Feb
;147
:68
–75
.
[PubMed]
0376-871616.
Boyle
RG
, Jensen
J
, Hatsukami
DK
, Severson
HH
. Measuring dependence in smokeless tobacco users
. Addict Behav
. 1995
Jul-Aug
;20
(4
):443
–50
.
[PubMed]
0306-460317.
Fagerström
K
, Eissenberg
T
. Dependence on tobacco and nicotine products: a case for product-specific assessment
. Nicotine Tob Res
. 2012
Nov
;14
(11
):1382
–90
.
[PubMed]
1462-220318.
Hall
BJ
, Wells
C
, Allenby
C
, Lin
MY
, Hao
I
, Marshall
L
, et al. Differential effects of non-nicotine tobacco constituent compounds on nicotine self-administration in rats
. Pharmacol Biochem Behav
. 2014
May
;120
:103
–8
.
[PubMed]
0091-305719.
Smith
TT
, Schaff
MB
, Rupprecht
LE
, Schassburger
RL
, Buffalari
DM
, Murphy
SE
, et al. Effects of MAO inhibition and a combination of minor alkaloids, β-carbolines, and acetaldehyde on nicotine self-administration in adult male rats
. Drug Alcohol Depend
. 2015
Oct
;155
:243
–52
.
[PubMed]
0376-871620.
Caine
SB
, Collins
GT
, Thomsen
M
, Wright
C
, Lanier
RK
, Mello
NK
. Nicotine-like behavioral effects of the minor tobacco alkaloids nornicotine, anabasine, and anatabine in male rodents
. Exp Clin Psychopharmacol
. 2014
Feb
;22
(1
):9
–22
.
[PubMed]
1064-129721.
Arnold
MM
, Loughlin
SE
, Belluzzi
JD
, Leslie
FM
. Reinforcing and neural activating effects of norharmane, a non-nicotine tobacco constituent, alone and in combination with nicotine
. Neuropharmacology
. 2014
Oct
;85
:293
–304
.
[PubMed]
0028-390822.
Smith
TT
, Rupprecht
LE
, Cwalina
SN
, Onimus
MJ
, Murphy
SE
, Donny
EC
, et al. Effects of Monoamine Oxidase Inhibition on the Reinforcing Properties of Low-Dose Nicotine
. Neuropsychopharmacology
. 2016
Aug
;41
(9
):2335
–43
.
[PubMed]
0893-133X23.
Harris
AC
, Mattson
C
, Lesage
MG
, Keyler
DE
, Pentel
PR
. Comparison of the behavioral effects of cigarette smoke and pure nicotine in rats
. Pharmacol Biochem Behav
. 2010
Aug
;96
(2
):217
–27
.
[PubMed]
0091-305724.
Goodwin
AK
, Hiranita
T
, Paule
MG
. The Reinforcing Effects of Nicotine in Humans and Nonhuman Primates: A Review of Intravenous Self-Administration Evidence and Future Directions for Research
. Nicotine Tob Res
. 2015
Nov
;17
(11
):1297
–310
.
[PubMed]
1462-220325.
O’Dell
LE
, Khroyan
TV
. Rodent models of nicotine reward: what do they tell us about tobacco abuse in humans?
Pharmacol Biochem Behav
. 2009
Feb
;91
(4
):481
–8
.
[PubMed]
0091-305726.
Tuesta
LM
, Fowler
CD
, Kenny
PJ
. Recent advances in understanding nicotinic receptor signaling mechanisms that regulate drug self-administration behavior
. Biochem Pharmacol
. 2011
Oct
;82
(8
):984
–95
.
[PubMed]
0006-295227.
Rose
JE
, Corrigall
WA
. Nicotine self-administration in animals and humans: similarities and differences
. Psychopharmacology (Berl)
. 1997
Mar
;130
(1
):28
–40
.
[PubMed]
0033-315828.
Rupprecht
LE
, Smith
TT
, Schassburger
RL
, Buffalari
DM
, Sved
AF
, Donny
EC
. Behavioral mechanisms underlying nicotine reinforcement
. Curr Top Behav Neurosci
. 2015
;24
:19
–53
.
[PubMed]
1866-337029.
Gourlay
SG
, Benowitz
NL
. Arteriovenous differences in plasma concentration of nicotine and catecholamines and related cardiovascular effects after smoking, nicotine nasal spray, and intravenous nicotine
. Clin Pharmacol Ther
. 1997
Oct
;62
(4
):453
–63
.
[PubMed]
0009-923630.
Shoaib
M
, Stolerman
IP
. Plasma nicotine and cotinine levels following intravenous nicotine self-administration in rats
. Psychopharmacology (Berl)
. 1999
Apr
;143
(3
):318
–21
.
[PubMed]
0033-315831.
Coen
KM
, Adamson
KL
, Corrigall
WA
. Medication-related pharmacological manipulations of nicotine self-administration in the rat maintained on fixed- and progressive-ratio schedules of reinforcement
. Psychopharmacology (Berl)
. 2009
Jan
;201
(4
):557
–68
.
[PubMed]
0033-315832.
Rauhut
AS
, Neugebauer
N
, Dwoskin
LP
, Bardo
MT
. Effect of bupropion on nicotine self-administration in rats
. Psychopharmacology (Berl)
. 2003
Aug
;169
(1
):1
–9
.
[PubMed]
0033-315833.
George
O
, Lloyd
A
, Carroll
FI
, Damaj
MI
, Koob
GF
. Varenicline blocks nicotine intake in rats with extended access to nicotine self-administration
. Psychopharmacology (Berl)
. 2011
Feb
;213
(4
):715
–22
.
[PubMed]
0033-315834.
Shaham
Y
, Shalev
U
, Lu
L
, de Wit
H
, Stewart
J
. The reinstatement model of drug relapse: history, methodology and major findings
. Psychopharmacology (Berl)
. 2003
Jul
;168
(1-2
):3
–20
.
[PubMed]
0033-315835.
de Wit
H
, Stewart
J
. Reinstatement of cocaine-reinforced responding in the rat
. Psychopharmacology (Berl)
. 1981
;75
(2
):134
–43
.
[PubMed]
0033-315836.
Stoker
AK
, Markou
A
. Neurobiological Bases of Cue- and Nicotine-induced Reinstatement of Nicotine Seeking: Implications for the Development of Smoking Cessation Medications
. Curr Top Behav Neurosci
. 2015
;24
:125
–54
.
[PubMed]
1866-337037.
Hopkins
TJ
, Rupprecht
LE
, Hayes
MR
, Blendy
JA
, Schmidt
HD
. Galantamine, an acetylcholinesterase inhibitor and positive allosteric modulator of nicotinic acetylcholine receptors, attenuates nicotine taking and seeking in rats
. Neuropsychopharmacology
. 2012
Sep
;37
(10
):2310
–21
.
[PubMed]
0893-133X38.
Caggiula
AR
, Donny
EC
, White
AR
, Chaudhri
N
, Booth
S
, Gharib
MA
, et al. Cue dependency of nicotine self-administration and smoking
. Pharmacol Biochem Behav
. 2001
Dec
;70
(4
):515
–30
.
[PubMed]
0091-305739.
Epstein
DH
, Preston
KL
, Stewart
J
, Shaham
Y
. Toward a model of drug relapse: an assessment of the validity of the reinstatement procedure
. Psychopharmacology (Berl)
. 2006
Nov
;189
(1
):1
–16
.
[PubMed]
0033-315840.
O’Connor
EC
, Parker
D
, Rollema
H
, Mead
AN
. The alpha4beta2 nicotinic acetylcholine-receptor partial agonist varenicline inhibits both nicotine self-administration following repeated dosing and reinstatement of nicotine seeking in rats
. Psychopharmacology (Berl)
. 2010
Feb
;208
(3
):365
–76
.
[PubMed]
0033-315841.
Le Foll
B
, Chakraborty-Chatterjee
M
, Lev-Ran
S
, Barnes
C
, Pushparaj
A
, Gamaleddin
I
, et al. Varenicline decreases nicotine self-administration and cue-induced reinstatement of nicotine-seeking behaviour in rats when a long pretreatment time is used
. Int J Neuropsychopharmacol
. 2012
Oct
;15
(9
):1265
–74
.
[PubMed]
1461-145742.
Hays
JT
, Ebbert
JO
, Sood
A
. Efficacy and safety of varenicline for smoking cessation
. Am J Med
. 2008
Apr
;121
(4
Suppl 1
):S32
–42
.
[PubMed]
0002-934343.
Mansvelder
HD
, McGehee
DS
. Long-term potentiation of excitatory inputs to brain reward areas by nicotine
. Neuron
. 2000
Aug
;27
(2
):349
–57
.
[PubMed]
0896-627344.
Liu
L
, Zhao-Shea
R
, McIntosh
JM
, Gardner
PD
, Tapper
AR
. Nicotine persistently activates ventral tegmental area dopaminergic neurons via nicotinic acetylcholine receptors containing α4 and α6 subunits
. Mol Pharmacol
. 2012
Apr
;81
(4
):541
–8
.
[PubMed]
0026-895X45.
Saal
D
, Dong
Y
, Bonci
A
, Malenka
RC
. Drugs of abuse and stress trigger a common synaptic adaptation in dopamine neurons
. Neuron
. 2003
Feb
;37
(4
):577
–82
.
[PubMed]
0896-627346.
Zhang
H
, Sulzer
D
. Frequency-dependent modulation of dopamine release by nicotine
. Nat Neurosci
. 2004
Jun
;7
(6
):581
–2
.
[PubMed]
1097-625647.
Rice
ME
, Cragg
SJ
. Nicotine amplifies reward-related dopamine signals in striatum
. Nat Neurosci
. 2004
Jun
;7
(6
):583
–4
.
[PubMed]
1097-625648.
Pierce
RC
, Kumaresan
V
. The mesolimbic dopamine system: the final common pathway for the reinforcing effect of drugs of abuse?
Neurosci Biobehav Rev
. 2006
;30
(2
):215
–38
.
[PubMed]
0149-763449.
Laviolette
SR
, van der Kooy
D
. The neurobiology of nicotine addiction: bridging the gap from molecules to behaviour
. Nat Rev Neurosci
. 2004
Jan
;5
(1
):55
–65
.
[PubMed]
1471-003X50.
Damsma
G
, Day
J
, Fibiger
HC
. Lack of tolerance to nicotine-induced dopamine release in the nucleus accumbens
. Eur J Pharmacol
. 1989
Sep
;168
(3
):363
–8
.
[PubMed]
0014-299951.
Benwell
ME
, Balfour
DJ
, Lucchi
HM
. Influence of tetrodotoxin and calcium on changes in extracellular dopamine levels evoked by systemic nicotine
. Psychopharmacology (Berl)
. 1993
;112
(4
):467
–74
.
[PubMed]
0033-315852.
Nisell
M
, Nomikos
GG
, Svensson
TH
. Systemic nicotine-induced dopamine release in the rat nucleus accumbens is regulated by nicotinic receptors in the ventral tegmental area
. Synapse
. 1994
Jan
;16
(1
):36
–44
.
[PubMed]
0887-447653.
Pontieri
FE
, Tanda
G
, Orzi
F
, Di Chiara
G
. Effects of nicotine on the nucleus accumbens and similarity to those of addictive drugs
. Nature
. 1996
Jul
;382
(6588
):255
–7
.
[PubMed]
0028-083654.
Ferrari
R
, Le Novère
N
, Picciotto
MR
, Changeux
JP
, Zoli
M
. Acute and long-term changes in the mesolimbic dopamine pathway after systemic or local single nicotine injections
. Eur J Neurosci
. 2002
Jun
;15
(11
):1810
–8
.
[PubMed]
0953-816X55.
Mifsud
JC
, Hernandez
L
, Hoebel
BG
. Nicotine infused into the nucleus accumbens increases synaptic dopamine as measured by in vivo microdialysis
. Brain Res
. 1989
Jan
;478
(2
):365
–7
.
[PubMed]
0006-899356.
Rahman
S
, Zhang
J
, Engleman
EA
, Corrigall
WA
. Neuroadaptive changes in the mesoaccumbens dopamine system after chronic nicotine self-administration: a microdialysis study
. Neuroscience
. 2004
;129
(2
):415
–24
.
[PubMed]
0306-452257.
Mameli-Engvall
M
, Evrard
A
, Pons
S
, Maskos
U
, Svensson
TH
, Changeux
JP
, et al. Hierarchical control of dopamine neuron-firing patterns by nicotinic receptors
. Neuron
. 2006
Jun
;50
(6
):911
–21
.
[PubMed]
0896-627358.
Picciotto
MR
, Zoli
M
, Rimondini
R
, Léna
C
, Marubio
LM
, Pich
EM
, et al. Acetylcholine receptors containing the beta2 subunit are involved in the reinforcing properties of nicotine
. Nature
. 1998
Jan
;391
(6663
):173
–7
.
[PubMed]
0028-083659.
Changeux
JP
. Nicotine addiction and nicotinic receptors: lessons from genetically modified mice
. Nat Rev Neurosci
. 2010
Jun
;11
(6
):389
–401
.
[PubMed]
1471-003X60.
Li
X
, et al. Involvement of glutamatergic and GABAergic systems in nicotine dependence: Implications for novel pharmacotherapies for smoking cessation. Neuropharmacology, 2014
. 76 Pt B: p. 554-65.61.
Liechti
ME
, Markou
A
. Role of the glutamatergic system in nicotine dependence : implications for the discovery and development of new pharmacological smoking cessation therapies
. CNS Drugs
. 2008
;22
(9
):705
–24
.
[PubMed]
1172-704762.
Kalivas
PW
. The glutamate homeostasis hypothesis of addiction
. Nat Rev Neurosci
. 2009
Aug
;10
(8
):561
–72
.
[PubMed]
1471-003X63.
Fu
Y
, Matta
SG
, Gao
W
, Brower
VG
, Sharp
BM
. Systemic nicotine stimulates dopamine release in nucleus accumbens: re-evaluation of the role of N-methyl-D-aspartate receptors in the ventral tegmental area
. J Pharmacol Exp Ther
. 2000
Aug
;294
(2
):458
–65
.
[PubMed]
0022-356564.
Civelli
O
, Bunzow
JR
, Grandy
DK
. Molecular diversity of the dopamine receptors
. Annu Rev Pharmacol Toxicol
. 1993
;33
(1
):281
–307
.
[PubMed]
0362-164265.
Missale
C
, Nash
SR
, Robinson
SW
, Jaber
M
, Caron
MG
. Dopamine receptors: from structure to function
. Physiol Rev
. 1998
Jan
;78
(1
):189
–225
.
[PubMed]
0031-933366.
Seeman
P
, Van Tol
HH
. Dopamine receptor pharmacology
. Curr Opin Neurol Neurosurg
. 1993
Aug
;6
(4
):602
–8
.
[PubMed]
0951-738367.
Liu
X
, Jernigen
C
, Gharib
M
, Booth
S
, Caggiula
AR
, Sved
AF
. Effects of dopamine antagonists on drug cue-induced reinstatement of nicotine-seeking behavior in rats
. Behav Pharmacol
. 2010
Mar
;21
(2
):153
–60
.
[PubMed]
0955-881068.
Hutchison
KE
, LaChance
H
, Niaura
R
, Bryan
A
, Smolen
A
. The DRD4 VNTR polymorphism influences reactivity to smoking cues
. J Abnorm Psychol
. 2002
Feb
;111
(1
):134
–43
.
[PubMed]
0021-843X69.
McClernon
FJ
, Hutchison
KE
, Rose
JE
, Kozink
RV
. DRD4 VNTR polymorphism is associated with transient fMRI-BOLD responses to smoking cues
. Psychopharmacology (Berl)
. 2007
Nov
;194
(4
):433
–41
.
[PubMed]
0033-315870.
Munafò
MR
, Johnstone
EC
. Smoking status moderates the association of the dopamine D4 receptor (DRD4) gene VNTR polymorphism with selective processing of smoking-related cues
. Addict Biol
. 2008
Sep
;13
(3-4
):435
–9
.
[PubMed]
1355-621571.
Yan
Y
, Pushparaj
A
, Le Strat
Y
, Gamaleddin
I
, Barnes
C
, Justinova
Z
, et al. Blockade of dopamine d4 receptors attenuates reinstatement of extinguished nicotine-seeking behavior in rats
. Neuropsychopharmacology
. 2012
Feb
;37
(3
):685
–96
.
[PubMed]
0893-133X72.
Andreoli
, M.
, et al., Selective antagonism at dopamine D3 receptors prevents nicotine-triggered relapse to nicotine-seeking behavior.
Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology, 2003
. 28(7): p. 1272-80.73.
Micheli
F
, Bonanomi
G
, Blaney
FE
, Braggio
S
, Capelli
AM
, Checchia
A
, et al. 1,2,4-triazol-3-yl-thiopropyl-tetrahydrobenzazepines: a series of potent and selective dopamine D(3) receptor antagonists
. J Med Chem
. 2007
Oct
;50
(21
):5076
–89
.
[PubMed]
0022-262374.
Khaled
MA
, Farid Araki
K
, Li
B
, Coen
KM
, Marinelli
PW
, Varga
J
, et al. The selective dopamine D3 receptor antagonist SB 277011-A, but not the partial agonist BP 897, blocks cue-induced reinstatement of nicotine-seeking
. Int J Neuropsychopharmacol
. 2010
Mar
;13
(2
):181
–90
.
[PubMed]
1461-145775.
Le Foll
B
, Diaz
J
, Sokoloff
P
. Increased dopamine D3 receptor expression accompanying behavioral sensitization to nicotine in rats
. Synapse
. 2003
Mar
;47
(3
):176
–83
.
[PubMed]
0887-447676.
Diaz
J
, Lévesque
D
, Lammers
CH
, Griffon
N
, Martres
MP
, Schwartz
JC
, et al. Phenotypical characterization of neurons expressing the dopamine D3 receptor in the rat brain
. Neuroscience
. 1995
Apr
;65
(3
):731
–45
.
[PubMed]
0306-452277.
Bouthenet
ML
, Souil
E
, Martres
MP
, Sokoloff
P
, Giros
B
, Schwartz
JC
. Localization of dopamine D3 receptor mRNA in the rat brain using in situ hybridization histochemistry: comparison with dopamine D2 receptor mRNA
. Brain Res
. 1991
Nov
;564
(2
):203
–19
.
[PubMed]
0006-899378.
Sokoloff
P
, Giros
B
, Martres
MP
, Bouthenet
ML
, Schwartz
JC
. Molecular cloning and characterization of a novel dopamine receptor (D3) as a target for neuroleptics
. Nature
. 1990
Sep
;347
(6289
):146
–51
.
[PubMed]
0028-083679.
Scherma
M
, Panlilio
LV
, Fadda
P
, Fattore
L
, Gamaleddin
I
, Le Foll
B
, et al. Inhibition of anandamide hydrolysis by cyclohexyl carbamic acid 3′-carbamoyl-3-yl ester (URB597) reverses abuse-related behavioral and neurochemical effects of nicotine in rats
. J Pharmacol Exp Ther
. 2008
Nov
;327
(2
):482
–90
.
[PubMed]
0022-356580.
Melis
M
, Pillolla
G
, Luchicchi
A
, Muntoni
AL
, Yasar
S
, Goldberg
SR
, et al. Endogenous fatty acid ethanolamides suppress nicotine-induced activation of mesolimbic dopamine neurons through nuclear receptors
. J Neurosci
. 2008
Dec
;28
(51
):13985
–94
.
[PubMed]
0270-647481.
Forget
B
, Coen
KM
, Le Foll
B
. Inhibition of fatty acid amide hydrolase reduces reinstatement of nicotine seeking but not break point for nicotine self-administration—comparison with CB(1) receptor blockade
. Psychopharmacology (Berl)
. 2009
Sep
;205
(4
):613
–24
.
[PubMed]
0033-315882.
Mascia
P
, Pistis
M
, Justinova
Z
, Panlilio
LV
, Luchicchi
A
, Lecca
S
, et al. Blockade of nicotine reward and reinstatement by activation of alpha-type peroxisome proliferator-activated receptors
. Biol Psychiatry
. 2011
Apr
;69
(7
):633
–41
.
[PubMed]
0006-322383.
Panlilio
LV
, Justinova
Z
, Mascia
P
, Pistis
M
, Luchicchi
A
, Lecca
S
, et al. Novel use of a lipid-lowering fibrate medication to prevent nicotine reward and relapse: preclinical findings
. Neuropsychopharmacology
. 2012
Jul
;37
(8
):1838
–47
.
[PubMed]
0893-133X84.
Gipson
CD
, Reissner
KJ
, Kupchik
YM
, Smith
AC
, Stankeviciute
N
, Hensley-Simon
ME
, et al. Reinstatement of nicotine seeking is mediated by glutamatergic plasticity
. Proc Natl Acad Sci USA
. 2013
May
;110
(22
):9124
–9
.
[PubMed]
0027-842485.
Lewerenz
J
, Hewett
SJ
, Huang
Y
, Lambros
M
, Gout
PW
, Kalivas
PW
, et al. The cystine/glutamate antiporter system x(c)(-) in health and disease: from molecular mechanisms to novel therapeutic opportunities
. Antioxid Redox Signal
. 2013
Feb
;18
(5
):522
–55
.
[PubMed]
1523-086486.
Knackstedt
LA
, LaRowe
S
, Mardikian
P
, Malcolm
R
, Upadhyaya
H
, Hedden
S
, et al. The role of cystine-glutamate exchange in nicotine dependence in rats and humans
. Biol Psychiatry
. 2009
May
;65
(10
):841
–5
.
[PubMed]
0006-322387.
Ramirez-Niño
AM
, D’Souza
MS
, Markou
A
. N-acetylcysteine decreased nicotine self-administration and cue-induced reinstatement of nicotine seeking in rats: comparison with the effects of N-acetylcysteine on food responding and food seeking
. Psychopharmacology (Berl)
. 2013
Jan
;225
(2
):473
–82
.
[PubMed]
0033-315888.
Moro
F
, et al. mGluR2/3 mediates short-term control of nicotine-seeking by acute systemic N-acetylcysteine
. Addict Biol
. 2016
.
[PubMed]
1355-621589.
McClure
EA
, Baker
NL
, Gipson
CD
, Carpenter
MJ
, Roper
AP
, Froeliger
BE
, et al. An open-label pilot trial of N-acetylcysteine and varenicline in adult cigarette smokers
. Am J Drug Alcohol Abuse
. 2015
Jan
;41
(1
):52
–6
.
[PubMed]
0095-299090.
D’Souza
MS
, Markou
A
. Differential role of N-methyl-D-aspartate receptor-mediated glutamate transmission in the nucleus accumbens shell and core in nicotine seeking in rats
. Eur J Neurosci
. 2014
Apr
;39
(8
):1314
–22
.
[PubMed]
0953-816X91.
Bespalov
AY
, Dravolina
OA
, Sukhanov
I
, Zakharova
E
, Blokhina
E
, Zvartau
E
, et al. Metabotropic glutamate receptor (mGluR5) antagonist MPEP attenuated cue- and schedule-induced reinstatement of nicotine self-administration behavior in rats
. Neuropharmacology
. 2005
;49
Suppl 1
:167
–78
.
[PubMed]
0028-390892.
Dravolina
OA
, Zakharova
ES
, Shekunova
EV
, Zvartau
EE
, Danysz
W
, Bespalov
AY
. mGlu1 receptor blockade attenuates cue- and nicotine-induced reinstatement of extinguished nicotine self-administration behavior in rats
. Neuropharmacology
. 2007
Feb
;52
(2
):263
–9
.
[PubMed]
0028-390893.
Liechti
ME
, Lhuillier
L
, Kaupmann
K
, Markou
A
. Metabotropic glutamate 2/3 receptors in the ventral tegmental area and the nucleus accumbens shell are involved in behaviors relating to nicotine dependence
. J Neurosci
. 2007
Aug
;27
(34
):9077
–85
.
[PubMed]
0270-647494.
Justinova
Z
, Panlilio
LV
, Secci
ME
, Redhi
GH
, Schindler
CW
, Cross
AJ
, et al. The Novel Metabotropic Glutamate Receptor 2 Positive Allosteric Modulator, AZD8529, Decreases Nicotine Self-Administration and Relapse in Squirrel Monkeys
. Biol Psychiatry
. 2015
Oct
;78
(7
):452
–62
.
[PubMed]
0006-322395.
Li
X
, D’Souza
MS
, Niño
AM
, Doherty
J
, Cross
A
, Markou
A
. Attenuation of nicotine-taking and nicotine-seeking behavior by the mGlu2 receptor positive allosteric modulators AZD8418 and AZD8529 in rats
. Psychopharmacology (Berl)
. 2016
May
;233
(10
):1801
–14
.
[PubMed]
0033-315896.
Acri
, J.B.
, A.J.
Cross
, and P.
Skolnick
, From bench to bedside: mGluR2 positive allosteric modulators as medications to treat substance use disorders. Psychopharmacology (Berl), 2016
.97.
Coe
JW
, Brooks
PR
, Vetelino
MG
, Wirtz
MC
, Arnold
EP
, Huang
J
, et al. Varenicline: an alpha4beta2 nicotinic receptor partial agonist for smoking cessation
. J Med Chem
. 2005
May
;48
(10
):3474
–7
.
[PubMed]
0022-262398.
Wouda
JA
, Riga
D
, De Vries
W
, Stegeman
M
, van Mourik
Y
, Schetters
D
, et al. Varenicline attenuates cue-induced relapse to alcohol, but not nicotine seeking, while reducing inhibitory response control
. Psychopharmacology (Berl)
. 2011
Jul
;216
(2
):267
–77
.
[PubMed]
0033-315899.
Liu
X
. Effects of blockade of α4β2 and α7 nicotinic acetylcholine receptors on cue-induced reinstatement of nicotine-seeking behaviour in rats
. Int J Neuropsychopharmacol
. 2014
Jan
;17
(1
):105
–16
.
[PubMed]
1461-1457100.
Li
S
, Li
Z
, Pei
L
, Le
AD
, Liu
F
. The α7nACh-NMDA receptor complex is involved in cue-induced reinstatement of nicotine seeking
. J Exp Med
. 2012
Nov
;209
(12
):2141
–7
.
[PubMed]
0022-1007101.
Lee
AM
, Arreola
AC
, Kimmey
BA
, Schmidt
HD
. Administration of the nicotinic acetylcholine receptor agonists ABT-089 and ABT-107 attenuates the reinstatement of nicotine-seeking behavior in rats
. Behav Brain Res
. 2014
Nov
;274
:168
–75
.
[PubMed]
0166-4328102.
Cippitelli
A
, Wu
J
, Gaiolini
KA
, Mercatelli
D
, Schoch
J
, Gorman
M
, et al. AT-1001: a high-affinity α3β4 nAChR ligand with novel nicotine-suppressive pharmacology
. Br J Pharmacol
. 2015
Apr
;172
(7
):1834
–45
.
[PubMed]
0007-1188103.
Williams
DK
, Wang
J
, Papke
RL
. Positive allosteric modulators as an approach to nicotinic acetylcholine receptor-targeted therapeutics: advantages and limitations
. Biochem Pharmacol
. 2011
Oct
;82
(8
):915
–30
.
[PubMed]
0006-2952104.
Nelson
ME
, Kuryatov
A
, Choi
CH
, Zhou
Y
, Lindstrom
J
. Alternate stoichiometries of alpha4beta2 nicotinic acetylcholine receptors
. Mol Pharmacol
. 2003
Feb
;63
(2
):332
–41
.
[PubMed]
0026-895X105.
Moroni
M
, Zwart
R
, Sher
E
, Cassels
BK
, Bermudez
I
. alpha4beta2 nicotinic receptors with high and low acetylcholine sensitivity: pharmacology, stoichiometry, and sensitivity to long-term exposure to nicotine
. Mol Pharmacol
. 2006
Aug
;70
(2
):755
–68
.
[PubMed]
0026-895X106.
Anderson
DJ
, Malysz
J
, Grønlien
JH
, El Kouhen
R
, Håkerud
M
, Wetterstrand
C
, et al. Stimulation of dopamine release by nicotinic acetylcholine receptor ligands in rat brain slices correlates with the profile of high, but not low, sensitivity alpha4beta2 subunit combination
. Biochem Pharmacol
. 2009
Oct
;78
(7
):844
–51
.
[PubMed]
0006-2952107.
Harmey
D
, Griffin
PR
, Kenny
PJ
. Development of novel pharmacotherapeutics for tobacco dependence: progress and future directions
. Nicotine Tob Res
. 2012
Nov
;14
(11
):1300
–18
.
[PubMed]
1462-2203108.
Maurer
JJ
, Sandager-Nielsen
K
, Schmidt
HD
. Attenuation of nicotine taking and seeking in rats by the stoichiometry-selective alpha4beta2 nicotinic acetylcholine receptor positive allosteric modulator NS9283
. Psychopharmacology (Berl)
. 2017
Feb
;234
(3
):475
–84
.
[PubMed]
0033-3158109.
Harvey
AL
. The pharmacology of galanthamine and its analogues
. Pharmacol Ther
. 1995
;68
(1
):113
–28
.
[PubMed]
0163-7258110.
Kosasa
T
, Kuriya
Y
, Matsui
K
, Yamanishi
Y
. Inhibitory effects of donepezil hydrochloride (E2020) on cholinesterase activity in brain and peripheral tissues of young and aged rats
. Eur J Pharmacol
. 1999
Dec
;386
(1
):7
–13
.
[PubMed]
0014-2999111.
Kimmey
BA
, Rupprecht
LE
, Hayes
MR
, Schmidt
HD
. Donepezil, an acetylcholinesterase inhibitor, attenuates nicotine self-administration and reinstatement of nicotine seeking in rats
. Addict Biol
. 2014
Jul
;19
(4
):539
–51
.
[PubMed]
1355-6215112.
Ashare
RL
, Kimmey
BA
, Rupprecht
LE
, Bowers
ME
, Hayes
MR
, Schmidt
HD
. Repeated administration of an acetylcholinesterase inhibitor attenuates nicotine taking in rats and smoking behavior in human smokers
. Transl Psychiatry
. 2016
Jan
;6
(1
):e713
.
[PubMed]
2158-3188113.
Wilkinson
DS
, Gould
TJ
. The effects of galantamine on nicotine withdrawal-induced deficits in contextual fear conditioning in C57BL/6 mice
. Behav Brain Res
. 2011
Sep
;223
(1
):53
–7
.
[PubMed]
0166-4328114.
Sofuoglu
M
, Herman
AI
, Li
Y
, Waters
AJ
. Galantamine attenuates some of the subjective effects of intravenous nicotine and improves performance on a Go No-Go task in abstinent cigarette smokers: a preliminary report
. Psychopharmacology (Berl)
. 2012
Dec
;224
(3
):413
–20
.
[PubMed]
0033-3158115.
Loughead
J
, Wileyto
EP
, Ruparel
K
, Falcone
M
, Hopson
R
, Gur
R
, et al. Working memory-related neural activity predicts future smoking relapse
. Neuropsychopharmacology
. 2015
May
;40
(6
):1311
–20
.
[PubMed]
0893-133X116.
Patterson
F
, Jepson
C
, Loughead
J
, Perkins
K
, Strasser
AA
, Siegel
S
, et al. Working memory deficits predict short-term smoking resumption following brief abstinence
. Drug Alcohol Depend
. 2010
Jan
;106
(1
):61
–4
.
[PubMed]
0376-8716117.
Ashare
RL
, Schmidt
HD
. Optimizing treatments for nicotine dependence by increasing cognitive performance during withdrawal
. Expert Opin Drug Discov
. 2014
Jun
;9
(6
):579
–94
.
[PubMed]
1746-0441118.
van Zessen
R
, Phillips
JL
, Budygin
EA
, Stuber
GD
. Activation of VTA GABA neurons disrupts reward consumption
. Neuron
. 2012
Mar
;73
(6
):1184
–94
.
[PubMed]
0896-6273119.
Morales
M
, Margolis
EB
. Ventral tegmental area: cellular heterogeneity, connectivity and behaviour
. Nat Rev Neurosci
. 2017
Feb
;18
(2
):73
–85
.
[PubMed]
1471-003X120.
Paterson
NE
, Froestl
W
, Markou
A
. Repeated administration of the GABAB receptor agonist CGP44532 decreased nicotine self-administration, and acute administration decreased cue-induced reinstatement of nicotine-seeking in rats
. Neuropsychopharmacology
. 2005
Jan
;30
(1
):119
–28
.
[PubMed]
0893-133X121.
Fattore
L
, Spano
MS
, Cossu
G
, Scherma
M
, Fratta
W
, Fadda
P
. Baclofen prevents drug-induced reinstatement of extinguished nicotine-seeking behaviour and nicotine place preference in rodents
. Eur Neuropsychopharmacol
. 2009
Jul
;19
(7
):487
–98
.
[PubMed]
0924-977X122.
Franklin
TR
, Harper
D
, Kampman
K
, Kildea-McCrea
S
, Jens
W
, Lynch
KG
, et al. The GABA B agonist baclofen reduces cigarette consumption in a preliminary double-blind placebo-controlled smoking reduction study
. Drug Alcohol Depend
. 2009
Jul
;103
(1-2
):30
–6
.
[PubMed]
0376-8716123.
Ong
J
, Kerr
DI
. Clinical potential of GABAB receptor modulators
. CNS Drug Rev
. 2005
;11
(3
):317
–34
.
[PubMed]
1080-563X124.
Urwyler
S
, Pozza
MF
, Lingenhoehl
K
, Mosbacher
J
, Lampert
C
, Froestl
W
, et al. N,N′-Dicyclopentyl-2-methylsulfanyl-5-nitro-pyrimidine-4,6-diamine (GS39783) and structurally related compounds: novel allosteric enhancers of gamma-aminobutyric acidB receptor function
. J Pharmacol Exp Ther
. 2003
Oct
;307
(1
):322
–30
.
[PubMed]
0022-3565125.
Vlachou
S
, Guery
S
, Froestl
W
, Banerjee
D
, Benedict
J
, Finn
MG
, et al. Repeated administration of the GABAB receptor positive modulator BHF177 decreased nicotine self-administration, and acute administration decreased cue-induced reinstatement of nicotine seeking in rats
. Psychopharmacology (Berl)
. 2011
May
;215
(1
):117
–28
.
[PubMed]
0033-3158126.
Lubbers
BR
, van Mourik
Y
, Schetters
D
, Smit
AB
, De Vries
TJ
, Spijker
S
. Prefrontal gamma-aminobutyric acid type A receptor insertion controls cue-induced relapse to nicotine seeking
. Biol Psychiatry
. 2014
Nov
;76
(9
):750
–8
.
[PubMed]
0006-3223127.
Wiskerke
J
, Pattij
T
, Schoffelmeer
AN
, De Vries
TJ
. The role of CB1 receptors in psychostimulant addiction
. Addict Biol
. 2008
Jun
;13
(2
):225
–38
.
[PubMed]
1355-6215128.
Panagis
G
, Mackey
B
, Vlachou
S
. Cannabinoid Regulation of Brain Reward Processing with an Emphasis on the Role of CB1 Receptors: A Step Back into the Future
. Front Psychiatry
. 2014
Jul
;5
:92
.
[PubMed]
1664-0640129.
De Vries
TJ
, de Vries
W
, Janssen
MC
, Schoffelmeer
AN
. Suppression of conditioned nicotine and sucrose seeking by the cannabinoid-1 receptor antagonist SR141716A
. Behav Brain Res
. 2005
Jun
;161
(1
):164
–8
.
[PubMed]
0166-4328130.
Diergaarde
L
, de Vries
W
, Raasø
H
, Schoffelmeer
AN
, De Vries
TJ
. Contextual renewal of nicotine seeking in rats and its suppression by the cannabinoid-1 receptor antagonist Rimonabant (SR141716A)
. Neuropharmacology
. 2008
Oct
;55
(5
):712
–6
.
[PubMed]
0028-3908131.
Schindler
CW
, Redhi
GH
, Vemuri
K
, Makriyannis
A
, Le Foll
B
, Bergman
J
, et al. Blockade of Nicotine and Cannabinoid Reinforcement and Relapse by a Cannabinoid CB1-Receptor Neutral Antagonist AM4113 and Inverse Agonist Rimonabant in Squirrel Monkeys
. Neuropsychopharmacology
. 2016
Aug
;41
(9
):2283
–93
.
[PubMed]
0893-133X132.
Shoaib
M
. The cannabinoid antagonist AM251 attenuates nicotine self-administration and nicotine-seeking behaviour in rats
. Neuropharmacology
. 2008
Feb
;54
(2
):438
–44
.
[PubMed]
0028-3908133.
Gamaleddin
I
, Zvonok
A
, Makriyannis
A
, Goldberg
SR
, Le Foll
B
. Effects of a selective cannabinoid CB2 agonist and antagonist on intravenous nicotine self administration and reinstatement of nicotine seeking
. PLoS One
. 2012
;7
(1
):e29900
.
[PubMed]
1932-6203134.
Justinova
Z
, Panlilio
LV
, Moreno-Sanz
G
, Redhi
GH
, Auber
A
, Secci
ME
, et al. Effects of Fatty Acid Amide Hydrolase (FAAH) Inhibitors in Non-Human Primate Models of Nicotine Reward and Relapse
. Neuropsychopharmacology
. 2015
Aug
;40
(9
):2185
–97
.
[PubMed]
0893-133X135.
Justinova
Z
, Mangieri
RA
, Bortolato
M
, Chefer
SI
, Mukhin
AG
, Clapper
JR
, et al. Fatty acid amide hydrolase inhibition heightens anandamide signaling without producing reinforcing effects in primates
. Biol Psychiatry
. 2008
Dec
;64
(11
):930
–7
.
[PubMed]
0006-3223136.
Fegley
D
, Gaetani
S
, Duranti
A
, Tontini
A
, Mor
M
, Tarzia
G
, et al. Characterization of the fatty acid amide hydrolase inhibitor cyclohexyl carbamic acid 3′-carbamoyl-biphenyl-3-yl ester (URB597): effects on anandamide and oleoylethanolamide deactivation
. J Pharmacol Exp Ther
. 2005
Apr
;313
(1
):352
–8
.
[PubMed]
0022-3565137.
Forget
B
, Guranda
M
, Gamaleddin
I
, Goldberg
SR
, Le Foll
B
. Attenuation of cue-induced reinstatement of nicotine seeking by URB597 through cannabinoid CB1 receptor in rats
. Psychopharmacology (Berl)
. 2016
May
;233
(10
):1823
–8
.
[PubMed]
0033-3158138.
Gamaleddin
I
, Guranda
M
, Goldberg
SR
, Le Foll
B
. The selective anandamide transport inhibitor VDM11 attenuates reinstatement of nicotine seeking behaviour, but does not affect nicotine intake
. Br J Pharmacol
. 2011
Nov
;164
(6
):1652
–60
.
[PubMed]
0007-1188139.
Gamaleddin
I
, Guranda
M
, Scherma
M
, Fratta
W
, Makriyannis
A
, Vadivel
SK
, et al. AM404 attenuates reinstatement of nicotine seeking induced by nicotine-associated cues and nicotine priming but does not affect nicotine- and food-taking
. J Psychopharmacol
. 2013
Jun
;27
(6
):564
–71
.
[PubMed]
0269-8811140.
Scherma
M
, Justinová
Z
, Zanettini
C
, Panlilio
LV
, Mascia
P
, Fadda
P
, et al. The anandamide transport inhibitor AM404 reduces the rewarding effects of nicotine and nicotine-induced dopamine elevations in the nucleus accumbens shell in rats
. Br J Pharmacol
. 2012
Apr
;165
(8
):2539
–48
.
[PubMed]
0007-1188141.
Mantsch
JR
, Baker
DA
, Funk
D
, Lê
AD
, Shaham
Y
. Stress-Induced Reinstatement of Drug Seeking: 20 Years of Progress
. Neuropsychopharmacology
. 2016
Jan
;41
(1
):335
–56
.
[PubMed]
0893-133X142.
Zislis
G
, Desai
TV
, Prado
M
, Shah
HP
, Bruijnzeel
AW
. Effects of the CRF receptor antagonist D-Phe CRF(12-41) and the alpha2-adrenergic receptor agonist clonidine on stress-induced reinstatement of nicotine-seeking behavior in rats
. Neuropharmacology
. 2007
Dec
;53
(8
):958
–66
.
[PubMed]
0028-3908143.
Yamada
H
, Bruijnzeel
AW
. Stimulation of α2-adrenergic receptors in the central nucleus of the amygdala attenuates stress-induced reinstatement of nicotine seeking in rats
. Neuropharmacology
. 2011
Feb-Mar
;60
(2-3
):303
–11
.
[PubMed]
0028-3908144.
Forget
B
, Wertheim
C
, Mascia
P
, Pushparaj
A
, Goldberg
SR
, Le Foll
B
. Noradrenergic alpha1 receptors as a novel target for the treatment of nicotine addiction
. Neuropsychopharmacology
. 2010
Jul
;35
(8
):1751
–60
.
[PubMed]
0893-133X145.
McKee
SA
, Potenza
MN
, Kober
H
, Sofuoglu
M
, Arnsten
AF
, Picciotto
MR
, et al. A translational investigation targeting stress-reactivity and prefrontal cognitive control with guanfacine for smoking cessation
. J Psychopharmacol
. 2015
Mar
;29
(3
):300
–11
.
[PubMed]
0269-8811146.
Fox
HC
, Seo
D
, Tuit
K
, Hansen
J
, Kimmerling
A
, Morgan
PT
, et al. Guanfacine effects on stress, drug craving and prefrontal activation in cocaine dependent individuals: preliminary findings
. J Psychopharmacol
. 2012
Jul
;26
(7
):958
–72
.
[PubMed]
0269-8811147.
Fox
HC
, Morgan
PT
, Sinha
R
. Sex differences in guanfacine effects on drug craving and stress arousal in cocaine-dependent individuals
. Neuropsychopharmacology
. 2014
May
;39
(6
):1527
–37
.
[PubMed]
0893-133X148.
Chiamulera
C
, Tedesco
V
, Zangrandi
L
, Giuliano
C
, Fumagalli
G
. Propranolol transiently inhibits reinstatement of nicotine-seeking behaviour in rats
. J Psychopharmacol
. 2010
Mar
;24
(3
):389
–95
.
[PubMed]
0269-8811149.
Xue
YX
, Deng
JH
, Chen
YY
, Zhang
LB
, Wu
P
, Huang
GD
, et al. Effect of Selective Inhibition of Reactivated Nicotine-Associated Memories With Propranolol on Nicotine Craving
. JAMA Psychiatry
. 2017
Mar
;74
(3
):224
–32
.
[PubMed]
2168-622X150.
Fletcher
PJ
, Rizos
Z
, Noble
K
, Soko
AD
, Silenieks
LB
, Lê
AD
, et al. Effects of the 5-HT2C receptor agonist Ro60-0175 and the 5-HT2A receptor antagonist M100907 on nicotine self-administration and reinstatement
. Neuropharmacology
. 2012
Jun
;62
(7
):2288
–98
.
[PubMed]
0028-3908151.
Ichikawa
J
, Kuroki
T
, Kitchen
MT
, Meltzer
HY
. R(+)-8-OH-DPAT, a 5-HT1A receptor agonist, inhibits amphetamine-induced dopamine release in rat striatum and nucleus accumbens
. Eur J Pharmacol
. 1995
Dec
;287
(2
):179
–84
.
[PubMed]
0014-2999152.
Pehek
EA
, McFarlane
HG
, Maguschak
K
, Price
B
, Pluto
CP
. M100,907, a selective 5-HT(2A) antagonist, attenuates dopamine release in the rat medial prefrontal cortex
. Brain Res
. 2001
Jan
;888
(1
):51
–9
.
[PubMed]
0006-8993153.
Yan
Q
, Reith
ME
, Yan
S
. Enhanced accumbal dopamine release following 5-HT(2A) receptor stimulation in rats pretreated with intermittent cocaine
. Brain Res
. 2000
Apr
;863
(1-2
):254
–8
.
[PubMed]
0006-8993154.
Auclair
A
, Blanc
G
, Glowinski
J
, Tassin
JP
. Role of serotonin 2A receptors in the D-amphetamine-induced release of dopamine: comparison with previous data on alpha1b-adrenergic receptors
. J Neurochem
. 2004
Oct
;91
(2
):318
–26
.
[PubMed]
0022-3042155.
Porras
G
, Di Matteo
V
, Fracasso
C
, Lucas
G
, De Deurwaerdère
P
, Caccia
S
, et al. 5-HT2A and 5-HT2C/2B receptor subtypes modulate dopamine release induced in vivo by amphetamine and morphine in both the rat nucleus accumbens and striatum
. Neuropsychopharmacology
. 2002
Mar
;26
(3
):311
–24
.
[PubMed]
0893-133X156.
De Deurwaerdere
P
, Di Giovanni
G
. Serotonergic modulation of the activity of mesencephalic dopaminergic systems: therapeutic implications
. Prog Neurobiol
. 2016
.
[PubMed]
0301-0082157.
Bruijnzeel
, A.W.
, Neuropeptide systems and new treatments for nicotine addiction.
Psychopharmacology (Berl), 2016
.158.
Shippenberg
TS
, Zapata
A
, Chefer
VI
. Dynorphin and the pathophysiology of drug addiction
. Pharmacol Ther
. 2007
Nov
;116
(2
):306
–21
.
[PubMed]
0163-7258159.
Van’t Veer
A
, Carlezon
WA
Jr. Role of kappa-opioid receptors in stress and anxiety-related behavior
. Psychopharmacology (Berl)
. 2013
Oct
;229
(3
):435
–52
.
[PubMed]
0033-3158160.
Grella
SL
, Funk
D
, Coen
K
, Li
Z
, Lê
AD
. Role of the kappa-opioid receptor system in stress-induced reinstatement of nicotine seeking in rats
. Behav Brain Res
. 2014
May
;265
:188
–97
.
[PubMed]
0166-4328161.
Liu
X
, Palmatier
MI
, Caggiula
AR
, Sved
AF
, Donny
EC
, Gharib
M
, et al. Naltrexone attenuation of conditioned but not primary reinforcement of nicotine in rats
. Psychopharmacology (Berl)
. 2009
Mar
;202
(4
):589
–98
.
[PubMed]
0033-3158162.
Bruijnzeel
AW
, Prado
M
, Isaac
S
. Corticotropin-releasing factor-1 receptor activation mediates nicotine withdrawal-induced deficit in brain reward function and stress-induced relapse
. Biol Psychiatry
. 2009
Jul
;66
(2
):110
–7
.
[PubMed]
0006-3223163.
Plaza-Zabala
A
, Martín-García
E
, de Lecea
L
, Maldonado
R
, Berrendero
F
. Hypocretins regulate the anxiogenic-like effects of nicotine and induce reinstatement of nicotine-seeking behavior
. J Neurosci
. 2010
Feb
;30
(6
):2300
–10
.
[PubMed]
0270-6474164.
George
O
, Ghozland
S
, Azar
MR
, Cottone
P
, Zorrilla
EP
, Parsons
LH
, et al. CRF-CRF1 system activation mediates withdrawal-induced increases in nicotine self-administration in nicotine-dependent rats
. Proc Natl Acad Sci USA
. 2007
Oct
;104
(43
):17198
–203
.
[PubMed]
0027-8424165.
Hollander
JA
, Lu
Q
, Cameron
MD
, Kamenecka
TM
, Kenny
PJ
. Insular hypocretin transmission regulates nicotine reward
. Proc Natl Acad Sci USA
. 2008
Dec
;105
(49
):19480
–5
.
[PubMed]
0027-8424166.
de Lecea
L
, Jones
BE
, Boutrel
B
, Borgland
SL
, Nishino
S
, Bubser
M
, et al. Addiction and arousal: alternative roles of hypothalamic peptides
. J Neurosci
. 2006
Oct
;26
(41
):10372
–5
.
[PubMed]
0270-6474167.
Plaza-Zabala
A
, Flores
Á
, Martín-García
E
, Saravia
R
, Maldonado
R
, Berrendero
F
. A role for hypocretin/orexin receptor-1 in cue-induced reinstatement of nicotine-seeking behavior
. Neuropsychopharmacology
. 2013
Aug
;38
(9
):1724
–36
.
[PubMed]
0893-133X168.
Uslaner
JM
, Winrow
CJ
, Gotter
AL
, Roecker
AJ
, Coleman
PJ
, Hutson
PH
, et al. Selective orexin 2 receptor antagonism blocks cue-induced reinstatement, but not nicotine self-administration or nicotine-induced reinstatement
. Behav Brain Res
. 2014
Aug
;269
:61
–5
.
[PubMed]
0166-4328169.
Qi
X
, Yamada
H
, Corrie
LW
, Ji
Y
, Bauzo
RM
, Alexander
JC
, et al. A critical role for the melanocortin 4 receptor in stress-induced relapse to nicotine seeking in rats
. Addict Biol
. 2015
Mar
;20
(2
):324
–35
.
[PubMed]
1355-6215170.
Engel
JA
, Jerlhag
E
. Role of appetite-regulating peptides in the pathophysiology of addiction: implications for pharmacotherapy
. CNS Drugs
. 2014
Oct
;28
(10
):875
–86
.
[PubMed]
1172-7047171.
Hayes
MR
, Schmidt
HD
. GLP-1 influences food and drug reward
. Curr Opin Behav Sci
. 2016
Jun
;9
:66
–70
.
[PubMed]
2352-1546172.
Egecioglu
E
, Engel
JA
, Jerlhag
E
. The glucagon-like peptide 1 analogue Exendin-4 attenuates the nicotine-induced locomotor stimulation, accumbal dopamine release, conditioned place preference as well as the expression of locomotor sensitization in mice
. PLoS One
. 2013
Oct
;8
(10
):e77284
.
[PubMed]
1932-6203173.
Tuesta
LM
, Chen
Z
, Duncan
A
, Fowler
CD
, Ishikawa
M
, Lee
BR
, et al. GLP-1 acts on habenular avoidance circuits to control nicotine intake
. Nat Neurosci
. 2017
May
;20
(5
):708
–16
.
[PubMed]
1097-6256174.
Corrigall
WA
, Coen
KM
, Adamson
KL
. Self-administered nicotine activates the mesolimbic dopamine system through the ventral tegmental area
. Brain Res
. 1994
Aug
;653
(1-2
):278
–84
.
[PubMed]
0006-8993175.
Pons
S
, Fattore
L
, Cossu
G
, Tolu
S
, Porcu
E
, McIntosh
JM
, et al. Crucial role of alpha4 and alpha6 nicotinic acetylcholine receptor subunits from ventral tegmental area in systemic nicotine self-administration
. J Neurosci
. 2008
Nov
;28
(47
):12318
–27
.
[PubMed]
0270-6474176.
Subramaniyan
M
, Dani
JA
. Dopaminergic and cholinergic learning mechanisms in nicotine addiction
. Ann N Y Acad Sci
. 2015
Sep
;1349
(1
):46
–63
.
[PubMed]
0077-8923177.
Gould
TJ
, Leach
PT
. Cellular, molecular, and genetic substrates underlying the impact of nicotine on learning
. Neurobiol Learn Mem
. 2014
Jan
;107
:108
–32
.
[PubMed]
1074-7427178.
Mansvelder
HD
, Mertz
M
, Role
LW
. Nicotinic modulation of synaptic transmission and plasticity in cortico-limbic circuits
. Semin Cell Dev Biol
. 2009
Jun
;20
(4
):432
–40
.
[PubMed]
1084-9521179.
Gray
R
, Rajan
AS
, Radcliffe
KA
, Yakehiro
M
, Dani
JA
. Hippocampal synaptic transmission enhanced by low concentrations of nicotine
. Nature
. 1996
Oct
;383
(6602
):713
–6
.
[PubMed]
0028-0836180.
Radcliffe
KA
, Dani
JA
. Nicotinic stimulation produces multiple forms of increased glutamatergic synaptic transmission
. J Neurosci
. 1998
Sep
;18
(18
):7075
–83
.
[PubMed]
0270-6474181.
Fujii
S
, Ji
Z
, Morita
N
, Sumikawa
K
. Acute and chronic nicotine exposure differentially facilitate the induction of LTP
. Brain Res
. 1999
Oct
;846
(1
):137
–43
.
[PubMed]
0006-8993182.
Mansvelder
HD
, Keath
JR
, McGehee
DS
. Synaptic mechanisms underlie nicotine-induced excitability of brain reward areas
. Neuron
. 2002
Mar
;33
(6
):905
–19
.
[PubMed]
0896-6273183.
Exley
R
, Cragg
SJ
. Presynaptic nicotinic receptors: a dynamic and diverse cholinergic filter of striatal dopamine neurotransmission
. Br J Pharmacol
. 2008
Mar
;153
(S1
Suppl 1
):S283
–97
.
[PubMed]
0007-1188184.
Wooltorton
JR
, Pidoplichko
VI
, Broide
RS
, Dani
JA
. Differential desensitization and distribution of nicotinic acetylcholine receptor subtypes in midbrain dopamine areas
. J Neurosci
. 2003
Apr
;23
(8
):3176
–85
.
[PubMed]
0270-6474185.
De Biasi
M
, Dani
JA
. Reward, addiction, withdrawal to nicotine
. Annu Rev Neurosci
. 2011
;34
(1
):105
–30
.
[PubMed]
0147-006X186.
Grieder
TE
, Herman
MA
, Contet
C
, Tan
LA
, Vargas-Perez
H
, Cohen
A
, et al. VTA CRF neurons mediate the aversive effects of nicotine withdrawal and promote intake escalation
. Nat Neurosci
. 2014
Dec
;17
(12
):1751
–8
.
[PubMed]
1097-6256187.
Corrigall
WA
, Franklin
KB
, Coen
KM
, Clarke
PB
. The mesolimbic dopaminergic system is implicated in the reinforcing effects of nicotine
. Psychopharmacology (Berl)
. 1992
;107
(2-3
):285
–9
.
[PubMed]
0033-3158188.
Tapper
AR
, McKinney
SL
, Nashmi
R
, Schwarz
J
, Deshpande
P
, Labarca
C
, et al. Nicotine activation of alpha4* receptors: sufficient for reward, tolerance, and sensitization
. Science
. 2004
Nov
;306
(5698
):1029
–32
.
[PubMed]
0036-8075189.
Grace
AA
, Bunney
BS
. Intracellular and extracellular electrophysiology of nigral dopaminergic neurons—3. Evidence for electrotonic coupling
. Neuroscience
. 1983
Oct
;10
(2
):333
–48
.
[PubMed]
0306-4522190.
Grace
AA
, Bunney
BS
. The control of firing pattern in nigral dopamine neurons: burst firing
. J Neurosci
. 1984
Nov
;4
(11
):2877
–90
.
[PubMed]
0270-6474191.
Hyland
BI
, Reynolds
JN
, Hay
J
, Perk
CG
, Miller
R
. Firing modes of midbrain dopamine cells in the freely moving rat
. Neuroscience
. 2002
;114
(2
):475
–92
.
[PubMed]
0306-4522192.
Phillips
PE
, Stuber
GD
, Heien
ML
, Wightman
RM
, Carelli
RM
. Subsecond dopamine release promotes cocaine seeking
. Nature
. 2003
Apr
;422
(6932
):614
–8
.
[PubMed]
0028-0836193.
Stuber
GD
, Wightman
RM
, Carelli
RM
. Extinction of cocaine self-administration reveals functionally and temporally distinct dopaminergic signals in the nucleus accumbens
. Neuron
. 2005
May
;46
(4
):661
–9
.
[PubMed]
0896-6273194.
Solecki
W
, Wickham
RJ
, Behrens
S
, Wang
J
, Zwerling
B
, Mason
GF
, et al. Differential role of ventral tegmental area acetylcholine and N-methyl-D-aspartate receptors in cocaine-seeking
. Neuropharmacology
. 2013
Dec
;75
:9
–18
.
[PubMed]
0028-3908195.
Grenhoff
J
, Aston-Jones
G
, Svensson
TH
. Nicotinic effects on the firing pattern of midbrain dopamine neurons
. Acta Physiol Scand
. 1986
Nov
;128
(3
):351
–8
.
[PubMed]
0001-6772196.
Schilström
B
, Rawal
N
, Mameli-Engvall
M
, Nomikos
GG
, Svensson
TH
. Dual effects of nicotine on dopamine neurons mediated by different nicotinic receptor subtypes
. Int J Neuropsychopharmacol
. 2003
Mar
;6
(1
):1
–11
.
[PubMed]
1461-1457197.
Pidoplichko
VI
, DeBiasi
M
, Williams
JT
, Dani
JA
. Nicotine activates and desensitizes midbrain dopamine neurons
. Nature
. 1997
Nov
;390
(6658
):401
–4
.
[PubMed]
0028-0836198.
Lester
RA
, Dani
JA
. Time-dependent changes in central nicotinic acetylcholine channel kinetics in excised patches
. Neuropharmacology
. 1994
Jan
;33
(1
):27
–34
.
[PubMed]
0028-3908199.
Yang
K
, Buhlman
L
, Khan
GM
, Nichols
RA
, Jin
G
, McIntosh
JM
, et al. Functional nicotinic acetylcholine receptors containing α6 subunits are on GABAergic neuronal boutons adherent to ventral tegmental area dopamine neurons
. J Neurosci
. 2011
Feb
;31
(7
):2537
–48
.
[PubMed]
0270-6474200.
Tolu
S
, Eddine
R
, Marti
F
, David
V
, Graupner
M
, Pons
S
, et al. Co-activation of VTA DA and GABA neurons mediates nicotine reinforcement
. Mol Psychiatry
. 2013
Mar
;18
(3
):382
–93
.
[PubMed]
1359-4184201.
Hukkanen
J
, Jacob
P
3rd, Benowitz
NL
. Metabolism and disposition kinetics of nicotine
. Pharmacol Rev
. 2005
Mar
;57
(1
):79
–115
.
[PubMed]
0031-6997202.
Rose
JS
, Dierker
LC
, Donny
E
. Nicotine dependence symptoms among recent onset adolescent smokers
. Drug Alcohol Depend
. 2010
Jan
;106
(2-3
):126
–32
.
[PubMed]
0376-8716203.
Donny
EC
, Caggiula
AR
, Mielke
MM
, Jacobs
KS
, Rose
C
, Sved
AF
. Acquisition of nicotine self-administration in rats: the effects of dose, feeding schedule, and drug contingency
. Psychopharmacology (Berl)
. 1998
Mar
;136
(1
):83
–90
.
[PubMed]
0033-3158204.
Donny
EC
, Caggiula
AR
, Rowell
PP
, Gharib
MA
, Maldovan
V
, Booth
S
, et al. Nicotine self-administration in rats: estrous cycle effects, sex differences and nicotinic receptor binding
. Psychopharmacology (Berl)
. 2000
Sep
;151
(4
):392
–405
.
[PubMed]
0033-3158205.
Schwartz
RD
, Kellar
KJ
. Nicotinic cholinergic receptor binding sites in the brain: regulation in vivo
. Science
. 1983
Apr
;220
(4593
):214
–6
.
[PubMed]
0036-8075206.
Flores
CM
, Rogers
SW
, Pabreza
LA
, Wolfe
BB
, Kellar
KJ
. A subtype of nicotinic cholinergic receptor in rat brain is composed of alpha 4 and beta 2 subunits and is up-regulated by chronic nicotine treatment
. Mol Pharmacol
. 1992
Jan
;41
(1
):31
–7
.
[PubMed]
0026-895X207.
Staley
JK
, Krishnan-Sarin
S
, Cosgrove
KP
, Krantzler
E
, Frohlich
E
, Perry
E
, et al. Human tobacco smokers in early abstinence have higher levels of beta2* nicotinic acetylcholine receptors than nonsmokers
. J Neurosci
. 2006
Aug
;26
(34
):8707
–14
.
[PubMed]
0270-6474208.
Nashmi
R
, Dickinson
ME
, McKinney
S
, Jareb
M
, Labarca
C
, Fraser
SE
, et al. Assembly of alpha4beta2 nicotinic acetylcholine receptors assessed with functional fluorescently labeled subunits: effects of localization, trafficking, and nicotine-induced upregulation in clonal mammalian cells and in cultured midbrain neurons
. J Neurosci
. 2003
Dec
;23
(37
):11554
–67
.
[PubMed]
0270-6474209.
Mugnaini
M
, Tessari
M
, Tarter
G
, Merlo Pich
E
, Chiamulera
C
, Bunnemann
B
. Upregulation of [3H]methyllycaconitine binding sites following continuous infusion of nicotine, without changes of alpha7 or alpha6 subunit mRNA: an autoradiography and in situ hybridization study in rat brain
. Eur J Neurosci
. 2002
Nov
;16
(9
):1633
–46
.
[PubMed]
0953-816X210.
Ngolab
J
, Liu
L
, Zhao-Shea
R
, Gao
G
, Gardner
PD
, Tapper
AR
. Functional Upregulation of α4* Nicotinic Acetylcholine Receptors in VTA GABAergic Neurons Increases Sensitivity to Nicotine Reward
. J Neurosci
. 2015
Jun
;35
(22
):8570
–8
.
[PubMed]
0270-6474211.
Zhou
FM
, Liang
Y
, Dani
JA
. Endogenous nicotinic cholinergic activity regulates dopamine release in the striatum
. Nat Neurosci
. 2001
Dec
;4
(12
):1224
–9
.
[PubMed]
1097-6256212.
Zhang
T
, Zhang
L
, Liang
Y
, Siapas
AG
, Zhou
FM
, Dani
JA
. Dopamine signaling differences in the nucleus accumbens and dorsal striatum exploited by nicotine
. J Neurosci
. 2009
Apr
;29
(13
):4035
–43
.
[PubMed]
0270-6474213.
Exley
R
, Clements
MA
, Hartung
H
, McIntosh
JM
, Cragg
SJ
. Alpha6-containing nicotinic acetylcholine receptors dominate the nicotine control of dopamine neurotransmission in nucleus accumbens
. Neuropsychopharmacology
. 2008
Aug
;33
(9
):2158
–66
.
[PubMed]
0893-133X214.
Exley
R
, Maubourguet
N
, David
V
, Eddine
R
, Evrard
A
, Pons
S
, et al. Distinct contributions of nicotinic acetylcholine receptor subunit alpha4 and subunit alpha6 to the reinforcing effects of nicotine
. Proc Natl Acad Sci USA
. 2011
May
;108
(18
):7577
–82
.
[PubMed]
0027-8424215.
Perez
XA
, McIntosh
JM
, Quik
M
. Long-term nicotine treatment down-regulates α6β2* nicotinic receptor expression and function in nucleus accumbens
. J Neurochem
. 2013
Dec
;127
(6
):762
–71
.
[PubMed]
0022-3042216.
Exley
R
, McIntosh
JM
, Marks
MJ
, Maskos
U
, Cragg
SJ
. Striatal α5 nicotinic receptor subunit regulates dopamine transmission in dorsal striatum
. J Neurosci
. 2012
Feb
;32
(7
):2352
–6
.
[PubMed]
0270-6474217.
McCallum
SE
, Parameswaran
N
, Bordia
T
, Fan
H
, McIntosh
JM
, Quik
M
. Differential regulation of mesolimbic alpha 3/alpha 6 beta 2 and alpha 4 beta 2 nicotinic acetylcholine receptor sites and function after long-term oral nicotine to monkeys
. J Pharmacol Exp Ther
. 2006
Jul
;318
(1
):381
–8
.
[PubMed]
0022-3565218.
Schultz
W
. Responses of midbrain dopamine neurons to behavioral trigger stimuli in the monkey
. J Neurophysiol
. 1986
Nov
;56
(5
):1439
–61
.
[PubMed]
0022-3077219.
Salminen
O
, Drapeau
JA
, McIntosh
JM
, Collins
AC
, Marks
MJ
, Grady
SR
. Pharmacology of alpha-conotoxin MII-sensitive subtypes of nicotinic acetylcholine receptors isolated by breeding of null mutant mice
. Mol Pharmacol
. 2007
Jun
;71
(6
):1563
–71
.
[PubMed]
0026-895X220.
Champtiaux
N
, Han
ZY
, Bessis
A
, Rossi
FM
, Zoli
M
, Marubio
L
, et al. Distribution and pharmacology of alpha 6-containing nicotinic acetylcholine receptors analyzed with mutant mice
. J Neurosci
. 2002
Feb
;22
(4
):1208
–17
.
[PubMed]
0270-6474221.
Wickham
R
, Solecki
W
, Rathbun
L
, McIntosh
JM
, Addy
NA
. Ventral tegmental area α6β2 nicotinic acetylcholine receptors modulate phasic dopamine release in the nucleus accumbens core
. Psychopharmacology (Berl)
. 2013
Sep
;229
(1
):73
–82
.
[PubMed]
0033-3158222.
Brunzell
DH
, Boschen
KE
, Hendrick
ES
, Beardsley
PM
, McIntosh
JM
. Alpha-conotoxin MII-sensitive nicotinic acetylcholine receptors in the nucleus accumbens shell regulate progressive ratio responding maintained by nicotine
. Neuropsychopharmacology
. 2010
Feb
;35
(3
):665
–73
.
[PubMed]
0893-133X223.
Zhang
L
, Dong
Y
, Doyon
WM
, Dani
JA
. Withdrawal from chronic nicotine exposure alters dopamine signaling dynamics in the nucleus accumbens
. Biol Psychiatry
. 2012
Feb
;71
(3
):184
–91
.
[PubMed]
0006-3223224.
Toth
E
, Sershen
H
, Hashim
A
, Vizi
ES
, Lajtha
A
. Effect of nicotine on extracellular levels of neurotransmitters assessed by microdialysis in various brain regions: role of glutamic acid
. Neurochem Res
. 1992
Mar
;17
(3
):265
–71
.
[PubMed]
0364-3190225.
Reid
MS
, Fox
L
, Ho
LB
, Berger
SP
. Nicotine stimulation of extracellular glutamate levels in the nucleus accumbens: neuropharmacological characterization
. Synapse
. 2000
Feb
;35
(2
):129
–36
.
[PubMed]
0887-4476226.
Lenoir
M
, Kiyatkin
EA
. Intravenous nicotine injection induces rapid, experience-dependent sensitization of glutamate release in the ventral tegmental area and nucleus accumbens
. J Neurochem
. 2013
Nov
;127
(4
):541
–51
.
[PubMed]
0022-3042227.
Brown
RW
, Kolb
B
. Nicotine sensitization increases dendritic length and spine density in the nucleus accumbens and cingulate cortex
. Brain Res
. 2001
Apr
;899
(1-2
):94
–100
.
[PubMed]
0006-8993228.
Lim
WK
, Wang
K
, Lefebvre
C
, Califano
A
. Comparative analysis of microarray normalization procedures: effects on reverse engineering gene networks
. Bioinformatics
. 2007
Jul
;23
(13
):i282
–8
.
[PubMed]
1367-4803229.
Salamone
A
, Zappettini
S
, Grilli
M
, Olivero
G
, Agostinho
P
, Tomé
AR
, et al. Prolonged nicotine exposure down-regulates presynaptic NMDA receptors in dopaminergic terminals of the rat nucleus accumbens
. Neuropharmacology
. 2014
Apr
;79
:488
–97
.
[PubMed]
0028-3908230.
Kutlu
MG
, Gould
TJ
. Nicotinic modulation of hippocampal cell signaling and associated effects on learning and memory
. Physiol Behav
. 2016
Mar
;155
:162
–71
.
[PubMed]
0031-9384231.
Shingo
AS
, Kito
S
. Effects of nicotine on neurogenesis and plasticity of hippocampal neurons
. J Neural Transm (Vienna)
. 2005
Nov
;112
(11
):1475
–8
.
[PubMed]
0300-9564232.
Scerri
C
, Stewart
CA
, Breen
KC
, Balfour
DJ
. The effects of chronic nicotine on spatial learning and bromodeoxyuridine incorporation into the dentate gyrus of the rat
. Psychopharmacology (Berl)
. 2006
Mar
;184
(3-4
):540
–6
.
[PubMed]
0033-3158233.
Van Kampen
JM
, Eckman
CB
. Agonist-induced restoration of hippocampal neurogenesis and cognitive improvement in a model of cholinergic denervation
. Neuropharmacology
. 2010
May
;58
(6
):921
–9
.
[PubMed]
0028-3908234.
Cohen
A
, Soleiman
MT
, Talia
R
, Koob
GF
, George
O
, Mandyam
CD
. Extended access nicotine self-administration with periodic deprivation increases immature neurons in the hippocampus
. Psychopharmacology (Berl)
. 2015
Jan
;232
(2
):453
–63
.
[PubMed]
0033-3158235.
Abrous
DN
, Adriani
W
, Montaron
MF
, Aurousseau
C
, Rougon
G
, Le Moal
M
, et al. Nicotine self-administration impairs hippocampal plasticity
. J Neurosci
. 2002
May
;22
(9
):3656
–62
.
[PubMed]
0270-6474236.
Deng
W
, Aimone
JB
, Gage
FH
. New neurons and new memories: how does adult hippocampal neurogenesis affect learning and memory?
Nat Rev Neurosci
. 2010
May
;11
(5
):339
–50
.
[PubMed]
1471-003X237.
Bliss
TV
, Collingridge
GL
. A synaptic model of memory: long-term potentiation in the hippocampus
. Nature
. 1993
Jan
;361
(6407
):31
–9
.
[PubMed]
0028-0836238.
Fujii
S
, Ji
Z
, Sumikawa
K
. Inactivation of alpha7 ACh receptors and activation of non-alpha7 ACh receptors both contribute to long term potentiation induction in the hippocampal CA1 region
. Neurosci Lett
. 2000
Jun
;286
(2
):134
–8
.
[PubMed]
0304-3940239.
Hamid
S
, Dawe
GS
, Gray
JA
, Stephenson
JD
. Nicotine induces long-lasting potentiation in the dentate gyrus of nicotine-primed rats
. Neurosci Res
. 1997
Sep
;29
(1
):81
–5
.
[PubMed]
0168-0102240.
Ji
D
, Lape
R
, Dani
JA
. Timing and location of nicotinic activity enhances or depresses hippocampal synaptic plasticity
. Neuron
. 2001
Jul
;31
(1
):131
–41
.
[PubMed]
0896-6273241.
Tang
J
, Dani
JA
. Dopamine enables in vivo synaptic plasticity associated with the addictive drug nicotine
. Neuron
. 2009
Sep
;63
(5
):673
–82
.
[PubMed]
0896-6273242.
Yakel
JL
, Shao
Z
. Functional and molecular characterization of neuronal nicotinic ACh receptors in rat hippocampal interneurons
. Prog Brain Res
. 2004
;145
:95
–107
.
[PubMed]
0079-6123243.
Zhang
TA
, Tang
J
, Pidoplichko
VI
, Dani
JA
. Addictive nicotine alters local circuit inhibition during the induction of in vivo hippocampal synaptic potentiation
. J Neurosci
. 2010
May
;30
(18
):6443
–53
.
[PubMed]
0270-6474244.
Kenney
JW
, Gould
TJ
. Modulation of hippocampus-dependent learning and synaptic plasticity by nicotine
. Mol Neurobiol
. 2008
Aug
;38
(1
):101
–21
.
[PubMed]
0893-7648245.
Yakel
JL
. Nicotinic ACh receptors in the hippocampus: role in excitability and plasticity
. Nicotine Tob Res
. 2012
Nov
;14
(11
):1249
–57
.
[PubMed]
1462-2203246.
Koob
GF
. The role of the striatopallidal and extended amygdala systems in drug addiction
. Ann N Y Acad Sci
. 1999
Jun
;877
1 ADVANCING FRO
:445
–60
.
[PubMed]
0077-8923247.
Huang
YY
, Kandel
ER
, Levine
A
. Chronic nicotine exposure induces a long-lasting and pathway-specific facilitation of LTP in the amygdala
. Learn Mem
. 2008
Aug
;15
(8
):603
–10
.
[PubMed]
1072-0502248.
Khaled
MA
, Pushparaj
A
, Di Ciano
P
, Diaz
J
, Le Foll
B
. Dopamine D3 receptors in the basolateral amygdala and the lateral habenula modulate cue-induced reinstatement of nicotine seeking
. Neuropsychopharmacology
. 2014
Dec
;39
(13
):3049
–58
.
[PubMed]
0893-133X249.
Xue
YX
, Chen
YY
, Zhang
LB
, Zhang
LQ
, Huang
GD
, Sun
SC
, et al. Selective Inhibition of Amygdala Neuronal Ensembles Encoding Nicotine-Associated Memories Inhibits Nicotine Preference and Relapse
. Biol Psychiatry
. 2017
Dec
;82
(11
):781
–93
.
[PubMed]
0006-3223250.
Funk
D
, Coen
K
, Tamadon
S
, Hope
BT
, Shaham
Y
, Lê
AD
. Role of Central Amygdala Neuronal Ensembles in Incubation of Nicotine Craving
. J Neurosci
. 2016
Aug
;36
(33
):8612
–23
.
[PubMed]
0270-6474251.
Bi
GQ
, Poo
MM
. Synaptic modifications in cultured hippocampal neurons: dependence on spike timing, synaptic strength, and postsynaptic cell type
. J Neurosci
. 1998
Dec
;18
(24
):10464
–72
.
[PubMed]
0270-6474252.
Markram
H
, Lübke
J
, Frotscher
M
, Sakmann
B
. Regulation of synaptic efficacy by coincidence of postsynaptic APs and EPSPs
. Science
. 1997
Jan
;275
(5297
):213
–5
.
[PubMed]
0036-8075253.
Couey
JJ
, Meredith
RM
, Spijker
S
, Poorthuis
RB
, Smit
AB
, Brussaard
AB
, et al. Distributed network actions by nicotine increase the threshold for spike-timing-dependent plasticity in prefrontal cortex
. Neuron
. 2007
Apr
;54
(1
):73
–87
.
[PubMed]
0896-6273254.
Gioanni
Y
, Rougeot
C
, Clarke
PB
, Lepousé
C
, Thierry
AM
, Vidal
C
. Nicotinic receptors in the rat prefrontal cortex: increase in glutamate release and facilitation of mediodorsal thalamo-cortical transmission
. Eur J Neurosci
. 1999
Jan
;11
(1
):18
–30
.
[PubMed]
0953-816X255.
Vidal
C
, Changeux
JP
. Nicotinic and muscarinic modulations of excitatory synaptic transmission in the rat prefrontal cortex in vitro
. Neuroscience
. 1993
Sep
;56
(1
):23
–32
.
[PubMed]
0306-4522256.
Dickinson
JA
, Kew
JN
, Wonnacott
S
. Presynaptic alpha 7- and beta 2-containing nicotinic acetylcholine receptors modulate excitatory amino acid release from rat prefrontal cortex nerve terminals via distinct cellular mechanisms
. Mol Pharmacol
. 2008
Aug
;74
(2
):348
–59
.
[PubMed]
0026-895X257.
Pistillo
F
, Fasoli
F
, Moretti
M
, McClure-Begley
T
, Zoli
M
, Marks
MJ
, et al. Chronic nicotine and withdrawal affect glutamatergic but not nicotinic receptor expression in the mesocorticolimbic pathway in a region-specific manner
. Pharmacol Res
. 2016
Jan
;103
:167
–76
.
[PubMed]
1043-6618258.
Ávila-Ruiz
T
, Carranza
V
, Gustavo
LL
, Limón
DI
, Martínez
I
, Flores
G
, et al. Chronic administration of nicotine enhances NMDA-activated currents in the prefrontal cortex and core part of the nucleus accumbens of rats
. Synapse
. 2014
Jun
;68
(6
):248
–56
.
[PubMed]
0887-4476259.
You
ZB
, Wang
B
, Zitzman
D
, Wise
RA
. Acetylcholine release in the mesocorticolimbic dopamine system during cocaine seeking: conditioned and unconditioned contributions to reward and motivation
. J Neurosci
. 2008
Sep
;28
(36
):9021
–9
.
[PubMed]
0270-6474260.
Higgins
GA
, Silenieks
LB
, Rossmann
A
, Rizos
Z
, Noble
K
, Soko
AD
, et al. The 5-HT2C receptor agonist lorcaserin reduces nicotine self-administration, discrimination, and reinstatement: relationship to feeding behavior and impulse control
. Neuropsychopharmacology
. 2012
Apr
;37
(5
):1177
–91
.
[PubMed]
0893-133X261.
O’Dell
LE
, Torres
OV
. A mechanistic hypothesis of the factors that enhance vulnerability to nicotine use in females.
Neuropharmacology, 2014
. 76 Pt B: p. 566-80.262.
Torres
OV
, O’Dell
LE
. Stress is a principal factor that promotes tobacco use in females
. Prog Neuropsychopharmacol Biol Psychiatry
. 2016
Feb
;65
:260
–8
.
[PubMed]
0278-5846263.
Verplaetse
TL
, Weinberger
AH
, Smith
PH
, Cosgrove
KP
, Mineur
YS
, Picciotto
MR
, et al. Targeting the noradrenergic system for gender-sensitive medication development for tobacco dependence
. Nicotine Tob Res
. 2015
Apr
;17
(4
):486
–95
.
[PubMed]
1462-2203264.
Perkins
KA
. Smoking cessation in women. Special considerations
. CNS Drugs
. 2001
;15
(5
):391
–411
.
[PubMed]
1172-7047265.
Perkins
KA
. Nicotine discrimination in men and women
. Pharmacol Biochem Behav
. 1999
Oct
;64
(2
):295
–9
.
[PubMed]
0091-3057266.
Lerman
C
, Kaufmann
V
, Rukstalis
M
, Patterson
F
, Perkins
K
, Audrain-McGovern
J
, et al. Individualizing nicotine replacement therapy for the treatment of tobacco dependence: a randomized trial
. Ann Intern Med
. 2004
Mar
;140
(6
):426
–33
.
[PubMed]
0003-4819267.
Perkins
KA
. Acute responses to nicotine and smoking: implications for prevention and treatment of smoking in lower SES women
. Drug Alcohol Depend
. 2009
Oct
;104
Suppl 1
:S79
–86
.
[PubMed]
0376-8716268.
Warren
GW
, Alberg
AJ
, Kraft
AS
, Cummings
KM
. The 2014 Surgeon General’s report: “The health consequences of smoking—50 years of progress”: a paradigm shift in cancer care
. Cancer
. 2014
Jul
;120
(13
):1914
–6
.
[PubMed]
0008-543X© 2018 S. Karger AG, Basel
2018
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