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leptin

 
Dictionary: lep·tin   (lĕp'tĭn') pronunciation
 
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n.

A peptide hormone neurotransmitter produced by fat cells and involved in the regulation of appetite.


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Food and Nutrition: leptin
 
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Hormone secreted by adipose tissue that acts to regulate long-term appetite and energy expenditure by signalling the state of body fat reserves. Lack of leptin secretion is an extremely rare cause of obesity; most obese people secrete higher than normal amounts of leptin, but are less sensitive to its actions.

 
Wikipedia: Leptin
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Leptin (obesity homolog, mouse)
PDB rendering based on 1ax8.
Available structures: 1ax8
Identifiers
Symbols LEP; OB; OBS
External IDs OMIM: 164160 MGI104663 HomoloGene193
RNA expression pattern

More reference expression data
Orthologs
Human Mouse
Entrez 3952 16846
Ensembl ENSG00000174697 ENSMUSG00000059201
Uniprot P41159 Q544U0
Refseq NM_000230 (mRNA)
NP_000221 (protein)		 NM_008493 (mRNA)
NP_032519 (protein)
Location Chr 7: 127.67 - 127.68 Mb Chr 6: 29.01 - 29.02 Mb
Pubmed search [1] [2]

Leptin (Greek leptos meaning thin) is a 16 kDa protein hormone that plays a key role in regulating energy intake and energy expenditure, including appetite and metabolism. Leptin is one of the most important adipose derived hormones.[1] The Ob(Lep) gene (Ob for obese, Lep for leptin) is located on chromosome 7 in humans.[2]

Contents

Discovery

The effects of leptin were observed by studying mutant obese mice that arose at random within a mouse colony at the Jackson Laboratory in 1950.[3] These mice were massively obese and excessively voracious. Leptin itself was discovered in 1994 by Jeffrey M. Friedman and colleagues at the Rockefeller University through the study of such mice.[4]

Synthesis

In addition to white adipose tissue - the major source of leptin - it can also be produced by brown adipose tissue, placenta (syncytiotrophoblasts), ovaries, skeletal muscle, stomach (lower part of fundic glands), mammary epithelial cells, bone marrow, pituitary and liver.[5]

Function

In addition to being a biomarker for body fat, serum leptin levels also reflect individual energy balance. Several studies have shown that fasting or following a very low calorie diet (VLCD) lowers leptin levels.[6] It might be that on short term leptin is an indicator of energy balance. This system is more sensitive to starvation than to overfeeding.[7] That is, leptin levels do not rise extensively after overfeeding. It might be that the dynamics of leptin due to an acute change in energy balance are related to appetite and eventually to food intake. Although this is a new hypothesis, there is already some data that supports it.[8][9]

There is some controversy regarding the regulation of leptin by melatonin during the night. One research group suggested that increased levels of melatonin caused a downregulation of leptin.[10] However, in 2004, Brazilian researchers found that in the presence of insulin, "melatonin interacts with insulin and upregulates insulin-stimulated leptin expression", therefore causing a decrease in appetite whilst sleeping.[11]

Professor Cappuccio of the University of Warwick has recently discovered that short sleep duration may lead to obesity through an increase of appetite via hormonal changes. Lack of sleep produces higher than normal levels of ghrelin, a hormone that stimulates appetite by lowering leptin levels.

Adiposity signal

To date, only leptin and insulin are known to act as an adiposity signal. In general,

  • Leptin circulates at levels proportional to body fat.
  • It enters the central nervous system (CNS) in proportion to its plasma concentration.
  • Its receptors are found in brain neurons involved in regulating energy intake and expenditure.
  • Controls food intake and energy expenditure by acting on receptors in the mediobasal hypothalamus[12]

Interaction with amylin

Co-administration of two neurohormones known to have a role in body weight control, amylin (produced by beta cells in the pancreas) and leptin (produced by fat cells), results in sustained, fat-specific weight loss in a leptin-resistant animal model of obesity.[13]

Satiety: appetite control

Leptin binds to NPY neurons in the arculate nucleus, in such a way that decreases the activity of these neurons. Leptin signals to the brain that the body has had enough to eat, or satiety. A very small group of humans possess homozygous (same on both pair of chromosome) mutations for the leptin gene which leads to a constant desire for food, resulting in severe obesity. This condition can be treated successfully by the administration of recombinant human leptin.[14]

Thus, circulating leptin levels give the brain input regarding energy storage so it can regulate appetite and metabolism. Leptin works by inhibiting the activity of neurons that contain neuropeptide Y (NPY) and agouti-related peptide (AgRP), and by increasing the activity of neurons expressing α-melanocyte-stimulating hormone (α-MSH). The NPY neurons are a key element in the regulation of appetite; small doses of NPY injected into the brains of experimental animals stimulates feeding, while selective destruction of the NPY neurons in mice causes them to become anorexic. Conversely, α-MSH is an important mediator of satiety, and differences in the gene for the receptor at which α-MSH acts in the brain are linked to obesity in humans.

Circulatory system

The role of Leptin/Leptin receptors in modulation of T cell activity in immune system was shown in experimentation with mice. It modulates the immune response to atherosclerosis, which is a predisposing factor in patients with obesity. [15]

Leptin is also strongly linked with angiogenesis, increasing Vascular endothelial growth factor (VEGF) levels.

Lung surfactant activity

In fetal lung leptin is induced in the alveolar interstitial fibroblasts ("lipofibroblasts") by the action of PTHrP secreted by formative alveolar epithelium (endoderm) under moderate stretch. The leptin from the mesenchyme in turn acts back on the epithelium at the leptin receptor carried in the alveolar type II pneumocytes and induces surfactant expression which is one of the main functions of these type II pneumocytes.[16]

Reproduction

In mice, leptin is also required for male and female fertility. Leptin has a lesser effect in humans. In mammals such as humans, ovulatory cycles in females are linked to energy balance (positive or negative depending on whether a female is losing or gaining weight) and energy flux (how much energy is consumed and expended) much more than energy status (fat levels). When energy balance is highly negative (meaning a woman is starving) or energy flux is very high (meaning a woman is exercising at extreme levels, but still consuming enough calories), the ovarian cycle stops and females stop menstruating. Only if a female has an extremely low body fat percentage does energy status affect menstruation. Thus leptin has only a secondary effect on female reproduction.

The body's fat cells, under normal conditions, are responsible for the constant production and release of leptin. This can also be produced by the placenta.[17] Leptin levels rise during pregnancy and fall after parturition (childbirth). Leptin is also expressed in fetal membranes and the uterine tissue. Uterine contractions are inhibited by leptin.[18]

There is also evidence that leptin plays a role in hyperemesis gravidarum (severe morning sickness),[19] in polycystic ovary syndrome[20] and a 2007 research suggests that hypothalamic leptin is implicated in bone growth.[21]

Leptin resistance and obesity

Although leptin is a circulating signal that reduces appetite, in general, obese people have an unusually high circulating concentration of leptin.[22] These people are said to be resistant to the effects of leptin, in much the same way that people with type 2 diabetes are resistant to the effects of insulin. The high sustained concentrations of leptin from the enlarged adipose stores result in leptin desensitization. The pathway of leptin control in obese people might be flawed at some point so the body doesn't adequately receive the satiety feeling subsequent to eating.

Fructose and leptin resistance

A study published recently suggests that the consumption of high amounts of fructose causes leptin resistance and elevated triglycerides in rats. The high fructose diet rats subsequently ate more and gained more weight than controls when fed a high fat, high calorie diet.[23][24][25]

Mechanism of action

Leptin interacts with six types of receptors (Ob-Ra–Ob-Rf, or LepRa-LepRf) which in turn are encoded by a single gene, LEPR.[26] Ob-Rb is the only receptor isoform that can signal intracellularly via the Jak-Stat and MAPK signal transduction pathways,[27] and is present in hypothalamic nuclei.[28]

It is unknown whether leptin can cross the blood-brain barrier to access receptor neurons, because the blood-brain barrier is somewhat absent in the area of the median eminence, close to where the NPY neurons of the arcuate nucleus are. It is generally thought that leptin might enter the brain at the choroid plexus, where there is intense expression of a form of leptin receptor molecule that could act as a transport mechanism.

Once leptin has bound to the Ob-Rb receptor, it activates the stat3, which is phosphorylated and travels to the nucleus to, presumably, effect changes in gene expression. One of the main effects on gene expression is the down-regulation of the expression of endocannabinoids, responsible for increasing appetite. There are other intracellular pathways activated by leptin, but less is known about how they function in this system. In response to leptin, receptor neurons have been shown to remodel themselves, changing the number and types of synapses that fire onto them.

There is some recognition that leptin action is more decentralized than previously assumed. In addition to its endocrine action at a distance (from adipose tissue to brain), leptin also acts as a paracrine mediator.[5]

See also

References

  1. ^ Brennan AM, Mantzoros CS (June 2006). "Drug Insight: the role of leptin in human physiology and pathophysiology--emerging clinical applications". Nat Clin Pract Endocrinol Metab 2 (6): 318–27. doi:10.1038/ncpendmet0196. PMID 16932309. 
  2. ^ GreGreen ED, Maffei M, Braden VV, Proenca R, DeSilva U, Zhang Y, Chua SC Jr, Leibel RL, Weissenbach J, Friedman JM (August 1995). "The human obese (OB) gene: RNA expression pattern and mapping on the physical, cytogenetic, and genetic maps of chromosome 7". Genome Res. 5 (1): 5–12. doi:10.1101/gr.5.1.5. PMID 8717050. 
  3. ^ Ingalls AM, Dickie MM, Snell GD (December 1950). "Obese, a new mutation in the house mouse". J. Hered. 41 (12): 317–8. PMID 14824537. http://jhered.oxfordjournals.org/cgi/reprint/41/12/317. 
  4. ^ Zhang Y, Proenca R, Maffei M, Barone M, Leopold L, Friedman JM (December 1994). "Positional cloning of the mouse obese gene and its human homologue". Nature 372 (6505): 425–32. doi:10.1038/372425a0. PMID 7984236. 
  5. ^ a b Margetic S, Gazzola C, Pegg GG, Hill RA (2002). "Leptin: a review of its peripheral actions and interactions". Int. J. Obes. Relat. Metab. Disord. 26 (11): 1407–33. doi:10.1038/sj.ijo.0802142. PMID 12439643. 
  6. ^ Studies include:
    • Dubuc G, Phinney S, Stern J, Havel P (1998). "Changes of serum leptin and endocrine and metabolic parameters after 7 days of energy restriction in men and women". Metab. Clin. Exp. 47 (4): 429–34. PMID 9550541. 
    • Pratley R, Nicolson M, Bogardus C, Ravussin E (1997). "Plasma leptin responses to fasting in Pima Indians". Am. J. Physiol. 273 (3 Pt 1): E644–9. PMID 9316457. 
    • Weigle D, Duell P, Connor W, Steiner R, Soules M, Kuijper J (1997). "Effect of fasting, refeeding, and dietary fat restriction on plasma leptin levels". J. Clin. Endocrinol. Metab. 82 (2): 561–5. doi:10.1210/jc.82.2.561. PMID 9024254. 
  7. ^ Chin-Chance C, Polonsky K, Schoeller D (2000). "Twenty-four-hour leptin levels respond to cumulative short-term energy imbalance and predict subsequent intake". J. Clin. Endocrinol. Metab. 85 (8): 2685–91. doi:10.1210/jc.85.8.2685. PMID 10946866. 
  8. ^ Keim N, Stern J, Havel P (1998). "Relation between circulating leptin concentrations and appetite during a prolonged, moderate energy deficit in women". Am. J. Clin. Nutr. 68 (4): 794–801. PMID 9771856. 
  9. ^ Mars M, de Graaf C, de Groot C, van Rossum C, Kok F (2006). "Fasting leptin and appetite responses induced by a 4-day 65%-energy-restricted diet". International journal of obesity (Lond) 30 (1): 122–8. doi:10.1038/sj.ijo.0803070. PMID 16158086. 
  10. ^ Kus I, Sarsilmaz M, Colakoglu N, et al. (2004). "Pinealectomy increases and exogenous melatonin decreases leptin production in rat anterior pituitary cells: an immunohistochemical study". Physiological research / Academia Scientiarum Bohemoslovaca 53 (4): 403–8. PMID 15311999. 
  11. ^ Alonso-Vale MI, Andreotti S, Peres SB, Anhê GF, das Neves Borges-Silva C, Neto JC, Lima FB (April 2005). "Melatonin enhances leptin expression by rat adipocytes in the presence of insulin". Am. J. Physiol. Endocrinol. Metab. 288 (4): E805–12. doi:10.1152/ajpendo.00478.2004. PMID 15572654. 
  12. ^ Williams KW, Scott MM, Elmquist JK (March 2009). "From observation to experimentation: leptin action in the mediobasal hypothalamus". Am. J. Clin. Nutr. 89 (3): 985S–990S. doi:10.3945/ajcn.2008.26788D. 
  13. ^ Roth JD, Roland BL, Cole RL, Trevaskis JL, Weyer C, Koda JE, Anderson CM, Parkes DG, Baron AD (May 2008). "Leptin responsiveness restored by amylin agonism in diet-induced obesity: evidence from nonclinical and clinical studies". Proc. Natl. Acad. Sci. U.S.A. 105 (20): 7257–62. doi:10.1073/pnas.0706473105. PMID 18458326. 
  14. ^ OMIM - LEPTIN; LEP
  15. ^ Taleb S, Herbin O, Ait-Oufella H, Verreth W, Gourdy P, Barateau V, Merval R, Esposito B, Clément K, Holvoet P, Tedgui A, Mallat Z. (2007). "Defective leptin/leptin receptor signaling improves regulatory T cell immune response and protects mice from atherosclerosis.". Arterioscler Thromb Vasc Biol. 27 (12): 2691–2698. doi:10.1161/ATVBAHA.107.149567. PMID 17690315. 
  16. ^ John S. Torday, Virender K. Rehan (2006). "Up-regulation of fetal rat lung parathyroid hormone-related protein gene regulatory network down-regulates the Sonic Hedgehog/Wnt/betacatenin gene regulatory network". Pediatr. Res. 60 (4): 382–8. doi:10.1203/01.pdr.0000238326.42590.03. PMID 16940239.  — published online before print as DOI 10.1203/01.pdr.0000238326.42590.03
  17. ^ Zhao J, Townsend KL, Schulz LC, Kunz TH, Li C, Widmaier EP (2004). "Leptin receptor expression increases in placenta, but not hypothalamus, during gestation in Mus musculus and Myotis lucifugus". Placenta 25 (8-9): 712–22. doi:10.1016/j.placenta.2004.01.017. PMID 15450389. 
  18. ^ Moynihan AT, Hehir MP, Glavey SV, Smith TJ, Morrison JJ (2006). "Inhibitory effect of leptin on human uterine contractility in vitro". Am. J. Obstet. Gynecol. 195 (2): 504–9. doi:10.1016/j.ajog.2006.01.106. PMID 16647683. 
  19. ^ Aka N, Atalay S, Sayharman S, Kiliç D, Köse G, Küçüközkan T (2006). "Leptin and leptin receptor levels in pregnant women with hyperemesis gravidarum". The Australian & New Zealand journal of obstetrics & gynaecology 46 (4): 274–7. doi:10.1111/j.1479-828X.2006.00590.x. PMID 16866785. 
  20. ^ Cervero A, Domínguez F, Horcajadas JA, Quiñonero A, Pellicer A, Simón C (2006). "The role of the leptin in reproduction". Curr. Opin. Obstet. Gynecol. 18 (3): 297–303. doi:10.1097/01.gco.0000193004.35287.89. PMID 16735830. 
  21. ^ Iwaniec UT, Boghossian S, Lapke PD, Turner RT, Kalra SP (2007). "Central leptin gene therapy corrects skeletal abnormalities in leptin-deficient ob/ob mice". Peptides 28: 1012. doi:10.1016/j.peptides.2007.02.001. PMID 17346852. 
  22. ^ Considine RV, Sinha MK, Heiman ML, Kriauciunas A, Stephens TW, Nyce MR, Ohannesian JP, Marco CC, McKee LJ & Bauer TL (1996). "Serum Immunoreactive-Leptin Concentrations in Normal-Weight and Obese Humans". N Engl J Med 334 (5): 292–295. doi:10.1056/NEJM199602013340503. PMID 8532024. 
  23. ^ "Fructose Sets Table For Weight Gain Without Warning". Science News. Science Daily. 2008-10-19. http://www.sciencedaily.com/releases/2008/10/081016074701.htm. Retrieved on 2008-11-15. 
  24. ^ Vasselli JR (November 2008). "Fructose-induced leptin resistance: discovery of an unsuspected form of the phenomenon and its significance. Focus on "Fructose-induced leptin resistance exacerbates weight gain in response to subsequent high-fat feeding," by Shapiro et al.". Am. J. Physiol. Regul. Integr. Comp. Physiol. 295 (5): R1365–9. doi:10.1152/ajpregu.90674.2008. PMID 18784330. 
  25. ^ Shapiro A, Mu W, Roncal C, Cheng KY, Johnson RJ, Scarpace PJ (November 2008). "Fructose-induced leptin resistance exacerbates weight gain in response to subsequent high-fat feeding". Am. J. Physiol. Regul. Integr. Comp. Physiol. 295 (5): R1370–5. doi:10.1152/ajpregu.00195.2008. PMID 18703413. 
  26. ^ Wang MY, Zhou YT, Newgard CB, Unger RH (August 1996). "A novel leptin receptor isoform in rat". FEBS Lett. 392 (2): 87–90. doi:10.1016/0014-5793(96)00790-9. PMID 8772180. 
  27. ^ Malendowicz W, Rucinski M, Macchi C, Spinazzi R, Ziolkowska A, Nussdorfer GG, Kwias Z (October 2006). "Leptin and leptin receptors in the prostate and seminal vesicles of the adult rat". Int. J. Mol. Med. 18 (4): 615–8. PMID 16964413. http://www.spandidos-publications.com/ijmm/article.jsp?article_id=ijmm_18_4_615. 
  28. ^ "LepRb antibody (commercial site)". http://www.neuromics.com/ittrium/visit?path=A1x66x1y1x9fx1y1x246x1y1x372x1x82y1x35d4x1x7f. 

Further reading

  • Torday JS, Sun H, Wang L, Torres E, Sunday ME, Rubin LP (March 2002). "Leptin mediates the parathyroid hormone-related protein paracrine stimulation of fetal lung maturation". Am. J. Physiol. Lung Cell Mol. Physiol. 282 (3): L405–10. PMID 11839533. 
  • Torday JS, Rehan VK (July 2002). "Stretch-stimulated surfactant synthesis is coordinated by the paracrine actions of PTHrP and leptin". Am. J. Physiol. Lung Cell Mol. Physiol. 283 (1): L130–5. PMID 12060569. 
  • Dubey L, Hesong Z (2006). "Role of leptin in atherogenesis". Exp Clin Cardiol 11 (4): 269–75. PMID 18651016. 
  • Friedman JM, Halaas JL (1998). "Leptin and the regulation of body weight in mammals.". Nature 395 (6704): 763–70. doi:10.1038/27376. PMID 9796811. 
  • Prolo P, Wong ML, Licinio J (1999). "Leptin.". Int. J. Biochem. Cell Biol. 30 (12): 1285–90. doi:10.1016/S1357-2725(98)00094-6. PMID 9924798. 
  • Heshka JT, Jones PJ (2001). "A role for dietary fat in leptin receptor, OB-Rb, function.". Life Sci. 69 (9): 987–1003. doi:10.1016/S0024-3205(01)01201-2. PMID 11508653. 
  • Janeckova R (2002). "The role of leptin in human physiology and pathophysiology.". Physiological research / Academia Scientiarum Bohemoslovaca 50 (5): 443–59. PMID 11702849. 
  • Lee DW, Leinung MC, Rozhavskaya-Arena M, Grasso P (2002). "Leptin and the treatment of obesity: its current status.". Eur. J. Pharmacol. 440 (2-3): 129–39. doi:10.1016/S0014-2999(02)01424-3. PMID 12007531. 
  • Al-Daghri N, Bartlett WA, Jones AF, Kumar S (2002). "Role of leptin in glucose metabolism in type 2 diabetes.". Diabetes, obesity & metabolism 4 (3): 147–55. doi:10.1046/j.1463-1326.2002.00194.x. PMID 12047393. 
  • Sabath Silva EF (2002). "[Leptin]". Rev. Invest. Clin. 54 (2): 161–5. PMID 12053815. 
  • Thomas T, Burguera B (2003). "Is leptin the link between fat and bone mass?". J. Bone Miner. Res. 17 (9): 1563–9. doi:10.1359/jbmr.2002.17.9.1563. PMID 12211425. 
  • Kraemer RR, Chu H, Castracane VD (2002). "Leptin and exercise.". Exp. Biol. Med. (Maywood) 227 (9): 701–8. PMID 12324651. 
  • Waelput W, Brouckaert P, Broekaert D, Tavernier J (2003). "A role for leptin in the systemic inflammatory response syndrome (SIRS) and in immune response.". Current drug targets. Inflammation and allergy 1 (3): 277–89. doi:10.2174/1568010023344634. PMID 14561193. 
  • Stenvinkel P, Pecoits-Filho R, Lindholm B (2004). "Leptin, ghrelin, and proinflammatory cytokines: compounds with nutritional impact in chronic kidney disease?". Advances in renal replacement therapy 10 (4): 332–45. doi:10.1053/j.arrt.2003.08.009. PMID 14681862. 
  • Cohen P, Ntambi JM, Friedman JM (2004). "Stearoyl-CoA desaturase-1 and the metabolic syndrome.". Curr. Drug Targets Immune Endocr. Metabol. Disord. 3 (4): 271–80. doi:10.2174/1568008033340117. PMID 14683458. 
  • Sahu A (2004). "Leptin signaling in the hypothalamus: emphasis on energy homeostasis and leptin resistance.". Frontiers in neuroendocrinology 24 (4): 225–53. doi:10.1016/j.yfrne.2003.10.001. PMID 14726256. 
  • Elefteriou F, Karsenty G (2004). "[Bone mass regulation by leptin: a hypothalamic control of bone formation]". Pathol. Biol. 52 (3): 148–53. doi:10.1016/j.patbio.2003.05.006. PMID 15063934. 
  • Blüher S, Mantzoros CS (2004). "The role of leptin in regulating neuroendocrine function in humans.". J. Nutr. 134 (9): 2469S–2474S. PMID 15333744. 
  • Farooqi S, O'Rahilly S (2007). "Genetics of obesity in humans.". Endocr. Rev. 27 (7): 710–18. doi:10.1210/er.2006-0040. PMID 17122358. 

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Copyrights:

Dictionary. The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2007. Published by Houghton Mifflin Company. All rights reserved.  Read more
Food and Nutrition. A Dictionary of Food and Nutrition. Copyright © 1995, 2003, 2005 by A. E. Bender and D. A. Bender. All rights reserved.  Read more
Wikipedia. This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Leptin" Read more

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