Introduction: Renal interstitial fibrosis is an important pathological basis for kidney ageing and the progression of ageing nephropathy. In the present research, we established an aged mouse model of faecal microbiota transplantation (FMT), identified the rejuvenation features of the kidney in aged male mice, and preliminarily analysed the possible mechanism by which the rejuvenation of the intestinal microbiota reduces renal interstitial fibrosis and delays senescence in aged male mice. Methods: We established an aged male mice model that was treated with FMT (FMT-Old) and a normal aged male mice control group (Old). Differentially expressed cytokines were identified using a cytokine array, and changes in protein expression related to signal transduction pathways in renal tissues were detected using a signalling pathway array. Senescence-associated β-galactosidase and Masson staining were performed to observe the degrees of renal senescence and tubule interstitial fibrosis. Immunohistochemistry was utilized to detect changes in the expression of the ageing markers p53 and p21 and the inflammation-related protein nuclear factor (NF-κB) subunit (RelA/p65). Results: The pathological features of renal senescence in the FMT-Old group were significantly alleviated, and the levels of the ageing indicators p53 and p21 were decreased (p < 0.05). Ingenuity Pathway Analysis revealed that six differentially expressed cytokines, MIP-3β (CCL-19), E-selectin (SELE), Fas ligand (Fas L/FASLG), CXCL-11 (I-TAC), CXCL-1 and CCL-3 (MIP-1α) were related to a common upstream regulatory protein, RelA/p65, and the expression of this protein was significantly different between groups according to the signalling pathway array. Conclusion: Our findings suggest that the intestinal microbiota regulates the renal microenvironment by reducing immune inflammatory responses through the inhibition of the NF-κB signalling pathway, thereby delaying renal senescence in aged male mice.

1.
Wang
X
,
Vrtiska
TJ
,
Avula
RT
,
Walters
LR
,
Chakkera
HA
,
Kremers
WK
, et al
.
Age, kidney function, and risk factors associate differently with cortical and medullary volumes of the kidney
.
Kidney Int
.
2014
;
85
(
3
):
677
85
.
2.
Risdon
RA
,
Sloper
JC
,
De Wardener
HE
.
Relationship between renal function and histological changes found in renal-biopsy specimens from patients with persistent glomerular nephritis
.
Lancet
.
1968
;
2
(
7564
):
363
6
.
3.
Bohle
A
,
Wehrmann
M
,
Bogenschutz
O
,
Batz
C
,
Muller
CA
,
Muller
GA
.
The pathogenesis of chronic renal failure in diabetic nephropathy. Investigation of 488 cases of diabetic glomerulosclerosis
.
Pathol Res Pract
.
1991
;
187
(
2–3
):
251
9
.
4.
Grgic
I
,
Campanholle
G
,
Bijol
V
,
Wang
C
,
Sabbisetti
VS
,
Ichimura
T
, et al
.
Targeted proximal tubule injury triggers interstitial fibrosis and glomerulosclerosis
.
Kidney Int
.
2012
;
82
(
2
):
172
83
.
5.
Leung
KC
,
Tonelli
M
,
James
MT
.
Chronic kidney disease following acute kidney injury-risk and outcomes
.
Nat Rev Nephrol
.
2013
;
9
(
2
):
77
85
.
6.
Liu
Y
.
Cellular and molecular mechanisms of renal fibrosis
.
Nat Rev Nephrol
.
2011
;
7
(
12
):
684
96
.
7.
Hopkins
MJ
,
Sharp
R
,
Macfarlane
GT
.
Variation in human intestinal microbiota with age
.
Dig Liver Dis
.
2002
;
34
(
Suppl 2
):
S12
8
.
8.
Jackson
MA
,
Jeffery
IB
,
Beaumont
M
,
Bell
JT
,
Clark
AG
,
Ley
RE
, et al
.
Signatures of early frailty in the gut microbiota
.
Genome Med
.
2016
;
8
(
1
):
8
.
9.
O'Toole
PW
,
Jeffery
IB
.
Gut microbiota and aging
.
Science
.
2015
;
350
(
6265
):
1214
5
.
10.
Claesson
MJ
,
Jeffery
IB
,
Conde
S
,
Power
SE
,
O'Connor
EM
,
Cusack
S
, et al
.
Gut microbiota composition correlates with diet and health in the elderly
.
Nature
.
2012
;
488
(
7410
):
178
84
.
11.
O’Toole
PW
,
Claesson
MJ
.
Gut microbiota: changes throughout the lifespan from infancy to elderly
.
Int Dairy J
.
2010
;
20
(
4
):
281
91
.
12.
Sekirov
I
,
Russell
SL
,
Antunes
LCM
,
Finlay
BB
.
Gut microbiota in health and disease
.
Physiol Rev
.
2010
;
90
(
3
):
859
904
.
13.
Simenhoff
ML
,
Dunn
SR
,
Zollner
GP
,
Fitzpatrick
ME
,
Emery
SM
,
Sandine
WE
, et al
.
Biomodulation of the toxic and nutritional effects of small bowel bacterial overgrowth in end-stage kidney disease using freeze-dried Lactobacillus acidophilus
.
Miner Electrolyte Metab
.
1996
;
22
(
1–3
):
92
6
.
14.
Wong
J
,
Piceno
YM
,
DeSantis
TZ
,
Pahl
M
,
Andersen
GL
,
Vaziri
ND
.
Expansion of urease- and uricase-containing, indole- and p-cresol-forming and contraction of short-chain fatty acid-producing intestinal microbiota in ESRD
.
Am J Nephrol
.
2014
;
39
(
3
):
230
7
.
15.
Bone
E
,
Tamm
A
,
Hill
M
.
The production of urinary phenols by gut bacteria and their possible role in the causation of large bowel cancer
.
Am J Clin Nutr
.
1976
;
29
(
12
):
1448
54
.
16.
Macfarlane
GT
,
Macfarlane
S
.
Bacteria, colonic fermentation, and gastrointestinal health
.
J AOAC Int
.
2012
;
95
(
1
):
50
60
.
17.
Lin
CJ
,
Chen
HH
,
Pan
CF
,
Chuang
CK
,
Wang
TJ
,
Sun
FJ
, et al
.
p-Cresylsulfate and indoxyl sulfate level at different stages of chronic kidney disease
.
J Clin Lab Anal
.
2011
;
25
(
3
):
191
7
.
18.
Satoh
M
,
Hayashi
H
,
Watanabe
M
,
Ueda
K
,
Yamato
H
,
Yoshioka
T
, et al
.
Uremic toxins overload accelerates renal damage in a rat model of chronic renal failure
.
Nephron Exp Nephrol
.
2003
;
95
(
3
):
E111
e118
.
19.
Miyazaki
T
,
Ise
M
,
Seo
H
,
Niwa
T
.
Indoxyl sulfate increases the gene expressions of TGF-beta 1, TIMP-1 and pro-alpha 1(I) collagen in uremic rat kidneys
.
Kidney Int Suppl
.
1997
;
62
:
S15
22
.
20.
Liu
WC
,
Tomino
Y
,
Lu
KC
.
Impacts of indoxyl sulfate and p-cresol sulfate on chronic kidney disease and mitigating effects of AST-120
.
Toxins
.
2018
;
10
(
9
):
367
.
21.
Romagnani
P
,
Remuzzi
G
,
Glassock
R
,
Levin
A
,
Jager
KJ
,
Tonelli
M
, et al
.
Chronic kidney disease
.
Nat Rev Dis Primers
.
2017
;
3
:
17088
.
22.
Villeda
SA
,
Luo
J
,
Mosher
KI
,
Zou
B
,
Britschgi
M
,
Bieri
G
, et al
.
The ageing systemic milieu negatively regulates neurogenesis and cognitive function
.
Nature
.
2011
;
477
(
7362
):
90
4
.
23.
Loffredo
FS
,
Steinhauser
ML
,
Jay
SM
,
Gannon
J
,
Pancoast
JR
,
Yalamanchi
P
, et al
.
Growth differentiation factor 11 is a circulating factor that reverses age-related cardiac hypertrophy
.
Cell
.
2013
;
153
(
4
):
828
39
.
24.
Liu
D
,
Lun
L
,
Huang
Q
,
Ning
Y
,
Zhang
Y
,
Wang
L
, et al
.
Youthful systemic milieu alleviates renal ischemia-reperfusion injury in elderly mice
.
Kidney Int
.
2018
;
94
(
2
):
268
79
.
25.
Zhang
Y
,
Huang
R
,
Cheng
M
,
Wang
L
,
Chao
J
,
Li
J
, et al
.
Gut microbiota from NLRP3-deficient mice ameliorates depressive-like behaviors by regulating astrocyte dysfunction via circHIPK2
.
Microbiome
.
2019
;
7
(
1
):
116
.
26.
Binyamin
D
,
Werbner
N
,
Nuriel-Ohayon
M
,
Uzan
A
,
Mor
H
,
Abbas
A
, et al
.
The aging mouse microbiome has obesogenic characteristics
.
Genome Med
.
2020
;
12
(
1
):
87
.
27.
Coman
V
,
Vodnar
DC
.
Gut microbiota and old age: modulating factors and interventions for healthy longevity
.
Exp Gerontol
.
2020
;
141
:
111095
.
28.
Sun
Y
,
Baptista
LC
,
Roberts
LM
,
Jumbo-Lucioni
P
,
McMahon
LL
,
Buford
TW
, et al
.
The gut microbiome as a therapeutic target for cognitive impairment
.
J Gerontol A-biol
.
2020
;
75
(
7
):
1242
50
.
29.
Li
Y
,
Ning
L
,
Yin
Y
,
Wang
R
,
Zhang
Z
,
Hao
L
, et al
.
Age-related shifts in gut microbiota contribute to cognitive decline in aged rats
.
Aging (Albany NY)
.
2020
;
12
(
9
):
7801
17
.
30.
Zhang
X
,
Zhong
H
,
Li
Y
,
Shi
Z
,
Ren
H
,
Zhang
Z
, et al
.
Sex- and age-related trajectories of the adult human gut microbiota shared across populations of different ethnicities
.
Nat Aging
.
2021
;
1
(
1
):
87
100
.
31.
Mitchell
SJ
,
Madrigal-Matute
J
,
Scheibye-Knudsen
M
,
Fang
E
,
Aon
M
,
González-Reyes
JA
, et al
.
Effects of sex, strain, and energy intake on hallmarks of aging in mice
.
Cell Metab
.
2016
;
23
(
6
):
1093
112
.
32.
Duran-Ortiz
S
,
List
EO
,
Ikeno
Y
,
Young
J
,
Basu
R
,
Bell
S
, et al
.
Growth hormone receptor gene disruption in mature-adult mice improves male insulin sensitivity and extends female lifespan
.
Aging Cell
.
2021
;
20
(
12
):
e13506
.
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