Leptin is a hormone secreted by the adipocytes that regulates food intake and energy expenditure. It is known that growth hormone (GH) secretion is markedly influenced by body weight, being suppressed in obesity and cachexia, and recent data have demonstrated that GH release is regulated by leptin levels. Although one of the sites of action of leptin is likely to be the hypothalamus, since leptin receptor mRNA is particularly abundant in several hypothalamic nuclei, the mechanisms by which leptin regulates GH secretion are not yet known. The aim of the present study was to investigate whether leptin could act at the hypothalamic level modulating somatostatin and GH-releasing hormone (GHRH) expression. The administration of anti-GHRH serum (500 µl, i.v.) completely blocked leptin-induced GH release in fasting rats. In contrast, the treatment with anti-somatostatin serum (500 µl, i.v.) significantly increased GH release in this condition. Furthermore, leptin administration (10 µg, i.c.v.) to intact fasting animals reversed the inhibitory effect produced by fasting on GHRH mRNA levels in the arcuate nucleus of the hypothalamus, and increased somatostatin mRNA content in the periventricular nucleus. Finally, leptin administration (10 µg, i.c.v.) to hypophysectomized fasting rats increased GHRH mRNA levels, and decreased somatostatin mRNA content, indicating an effect of leptin on hypothalamic GHRH- and somatostatin-producing neurons. These findings suggest a role for GHRH and somatostatin as mediators of leptin-induced GH secretion.

Keywords:
Growth hormone, Growth hormone-releasing hormone, Somatostatin, Leptin, Arcuate nucleus
1.
Campfield LA, Smith FJ, Guisez Y, Devos R, Burn P: Recombinant mouse OB protein: Evidence for a peripheral signal linking adiposity and central neural networks. Science 1995;269:546–549.
2.
Considine RV, Considine EL, Williams CJ, Nyce MR, Magosin SA, Baner JL, Rosato EL, Colberg J, Caro JF: Evidence against either a premature stop codon or the absence of obese gene mRNA in human obesity. J Clin Invest 1995;95:2986–2988.
3.
Halaas JL, Gajiwala KS, Maffei M, Cohen SL, Chait BT, Rabinowitz D, Lallone RL, Burley SK, Friedman JM: Weight-reducing effects of the plasma proteins encoded by the obese gene. Science 1995;269:543–546.
4.
Pelleymounter MA, Cullen MJ, Baker MB, Hecht R, Winters D, Boone T, Collins F: Effects of the obese gene product on body weight regulation in ob/ob mice. Science 1995;269:540–543.
5.
Zhang Y, Proenca R, Maffei M, Barone M, Leopold L, Friedman JM: Positional cloning of the mouse obese gene and its human homologue. Nature 1994;372:425–432 (Erratum: Nature 1995;374:479).
6.
Carro E, Señarís R, Considine RV, Casanueva FF, Diéguez C: Regulation of in vivo growth hormone secretion by leptin. Endocrinology 1997;138:2203–2206.
7.
Hamilton BS, Paglia D, Kwan AYM, Deitel M: Increased obese mRNA expression in omental fat cells from massively obese humans. Nat Med 1995;1:953–956.
8.
Lonnqvist F, Arner P, Nordfors L, Schalling M: Overexpression of the obese (ob) gene in adipose tissue of human obese subjects. Nat Med 1995;1:950–953.
9.
Considine RV, Sinha MK, Heiman ML, Kriauciunas A, Stephens TW, Nyce MR, Ohannesian JP, Marco CC, McKee LJ, Bauer TL, Caro JF: Serum immunoreactive-leptin concentrations in normal-weight and obese humans. N Engl J Med 1996;334:292–295.
10.
Diéguez C, Casanueva FF. Influence of metabolic substrates and obesity on GH secretion. Trends Endocrinol Metab 1995;6:55–59.
11.
Mercer JG, Hoggard N, Williams LM, Lawrence CB, Hannah LT, Trayhurn P: Localization of leptin receptor mRNA and the long form splice variant (Ob-Rb) in mouse hypothalamus and adjacent brain regions by in situ hybridization. FEBS Lett 1996;387:113–116.
12.
Mercer JG, Hoggard N, Williams LM, Lawrence CB, Hannah LT, Morgan PJ, Trayhurn P: Coexpression of leptin receptor and preproneuropeptide Y mRNA in the arcuate nucleus of mouse hypothalamus. J Neuroendocrinol 1996;8:733–735.
13.
Schwartz MW, Seeley RJ, Campfield A, Burn P, Baskin DG: Identification of targets of leptin action in rat hypothalamus. J Clin Invest 1996;98:1101–1106.
14.
Kiyama H, Emson PC: Distribution of somatostatin mRNA in the rat nervous system as visualized by a novel non-radioactive in situ hybridization histochemistry procedure. Neuroscience 1990;38:223–244.
15.
Meister B, Hokfelt T, Johansson O, Hulting A-L: Distribution of growth hormone-releasing factor, somatostatin and coexisting messengers in the brain; in Isaksson O, Binder C, Hall K, Hokfelt T (eds): Growth Hormone: Basic and Clinical Aspects. Amsterdam, Excerpta Medica, 1987, pp 29–52.
16.
Merchenthaler I, Setalo G, Csontos C, Petrusz P, Flerko B, Negro-Vilar A: Combined retrograde tracing and immunocytochemical identification of luteinizing hormone-releasing hormone and somatostatin-containing neurones projecting to the median eminence in the rat. Endocrinology 1989;125:2812–2821.
17.
Chomczynski P, Downs TR, Frohman LA: Feedback regulation of growth hormone (GH)-releasing hormone gene expression by GH in rat hypothalamus. Mol Endocrinol 1988;2:236–241.
18.
Rogers KV, Vician L, Steiner RA, Clifton DK: The effect of hypophysectomy and growth hormone administration on preprosomatostatin messenger ribonucleic acid in the periventricular nucleus of the rat hypothalamus. Endocrinology 1988;122:586–591.
19.
Wood TL, Berelowitz M, Gelato MC, Roberts CT Jr, LeRoith D, Millard WJ, McKelvy JF: Hormonal regulation of rat hypothalamic neuropeptide mRNAs: Effect of hypophysectomy and hormone replacement on growth hormone-releasing factor, somatostatin and the insulin-like growth factors. Neuroendocrinology 1991;53:298–305.
20.
Frohman MA, Downs TR, Chomczynski P, Frohman LA: Cloning and characterization of mouse growth hormone-releasing hormone (GRH) complementary DNA. Increased GRH messenger RNA levels in growth hormone-deficient lit/lit mouse. Mol Endocrinol 1989;3:1529–1536.
21.
Burton KA, Kabigting EB, Clifton DK, Steiner RA: Growth hormone receptor messenger ribonucleic acid distribution in the adult male rat brain, and its colocalization in hypothalamic somatostatin neurons. Endocrinology 1992;131:958–963.
22.
Burton KA, Steiner RA, Clifton DK: Double-label in situ hybridization confirms that the GRF gene and the GH receptor gene are coexpressed in a subset of neurons in the arcuate nucleus. 74th Annual Meeting of the Endocrine Society, San Antonio 1992, abstr 1370.
23.
Mallo F, Lamas JA, Casanueva FF, Diéguez C: Effect of retinoic acid deficiency on in vivo and in vitro GH response to GHRH in male rats. Neuroendocrinology 1992;55:642–647.
24.
Vuyyuru L, Harrington L, Arimura A, Schubert ML: Reciprocal inhibitory paracrine pathways link histamine and somatostatin secretion in the fundus of the stomach. Am J Physiol 1997;273:G106–G111.
25.
Katakami H, Downs TR, Frohman LA: Decreased hypothalamic growth hormone-releasing hormone content and pituitary responsiveness in hypothyroidism. J Clin Invest 1986;77:1704–1711.
26.
Señarís RM, Lago F, Coya R, Pineda J, Diéguez C: Regulation of hypothalamic somatostatin, growth hormone-releasing hormone, and growth hormone receptor messenger ribonucleic acid by glucocorticoids. Endocrinology 1996;137:5236–5241.
27.
Paxinos G, Watson C: The Rat Brain in Stereotaxic Coordinates, ed 2. Sydney, Academic Press, 1986.
28.
Tannenbaum GS, Rorstad O, Brazeau P: Effects of prolonged food deprivation on the ultradian growth hormone rhythm and immunoreactive somatostatin tissue levels in the rat. Endocrinology 1979;104:1733–1738.
29.
Tannenbaum GS, Epelbaum J, Colle E, Brazeau P, Martin JB: Antiserum to somatostatin reverses starvation-induced inhibition of growth hormone but not insulin secretion. Endocrinology 1978;102:1909–1914.
30.
Hugues JN, Enjalbert A, Moyse E, Shu C, Voirol MJ, Sebaoun J, Epelbaum J: Differential effects of passive immunization with somatostatin antiserum on adenohypophysial hormone secretions in starved rats. Endocrinol 1986;109:169–174.
31.
Bruno JF, Olchovsky D, White JD, Leidy JW, Song J, Berelowitz M: Influence of food deprivation in the rat on hypothalamic expression of growth hormone-releasing factor and somatostatin. Endocrinology 1990;127:2111–2116.
32.
Ahima RS, Prabakaran D, Mantzoros C, Qu D, Lowell B, Maratos-Flier E, Flier JS: Role of leptin in the neuroendocrine response to fasting. Nature 1996;382:250–255.
33.
Robbins RJ, Leidy JW, Landon RM: The effects of growth hormone, prolactin, corticotropin, and thyrotropin on the production and secretion of somatostatin by hypothalamic cells in vitro. Endocrinology 1985;117:538–543.
34.
Quintela M, Señarís RM, Heiman ML, Casa- nueva FF, Diéguez C: Leptin inhibits in vitro hypothalamic somatostatin secretion and somatostatin mRNA levels. Endocrinology 1997;138:5641–5644.
1999
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