Apelin (also known as APLN) is a peptide that in humans is encoded by the APLN gene.[5] Apelin is one of two endogenous ligands for the G-protein-coupled APJ receptor[6][7][8][9][10] that is expressed at the surface of some cell types.[11] It is widely expressed in various organs such as the heart, lung, kidney, liver, adipose tissue, gastrointestinal tract, brain, adrenal glands, endothelium, and human plasma.
Discovery
Apelin is a peptide hormone that was identified in 1998 by Masahiko Fujino and his colleagues at Gunma University and Takeda Pharmaceutical Company.[5] In 2013, a second peptide hormone named Elabela was found by Bruno Reversade to also act as an endogenous ligand to the APLNR.
Biosynthesis
The apelin gene encodes a pre-proprotein of 77 amino acids,[5] with a signal peptide in the N-terminal region. After translocation into the endoplasmic reticulum and cleavage of the signal peptide, the proprotein of 55 amino acids may generate several active fragments: a 36 amino acid peptide corresponding to the sequence 42-77 (apelin 36), a 17 amino acid peptide corresponding to the sequence 61-77 (apelin 17) and a 13 amino acid peptide corresponding to the sequence 65-77 (apelin 13). This latter fragment may also undergo a pyroglutamylation at the level of its N-terminal glutamine residue. However the presence and/or the concentrations of those peptides in human plasma has been questioned.[12] Recently, 46 different apelin peptides ranging from apelin 55 (proapelin) to apelin 12 have been identified in bovine colostrum, including C-ter truncated isoforms.[13]
Physiological functions
The sites of receptor expression are linked to the different functions played by apelin in the organism.
Vascular
Vascular expression of the receptor[14][15] participates in the control of blood pressure[6] and its activation promotes the formation of new blood vessels (angiogenesis).[15][16][17][18] The blood pressure-lowering (hypotensive) effect of apelin results from the activation of receptors expressed at the surface of endothelial cells.[14][15] This activation induces the release of nitric oxide (NO),[19] a potent vasodilator, which induces relaxation of the smooth muscle cells of artery wall. Studies performed on mice knocked out for the apelin receptor gene[20] have suggested the existence of a balance between angiotensin II signalling (which increases blood pressure)e and apelin signalling (which lowers it). The angiogenic activity is the consequence of apelin action on the proliferation and migration of the endothelial cells. Apelin activates signal transduction cascades inside the cell, including extracellular signal-regulated kinases (ERKs), protein kinase B (PKB, also known as Akt), and p70 s6 kinase phosphorylation,[16][21] which lead to the proliferation of endothelial cells and the formation of new blood vessels.[17] Genetic knockout of the apelin gene is associated with a delay in the development of the retinal vasculature.[22]
Cardiac
The apelin receptor is expressed early during the embryonic development of the heart, where it regulates the migration of cell progenitors fated to differentiate into cardiomyocytes, the contractile cells of the heart.[23][24] Its expression is also detected in the cardiomyocytes of the adult where apelin behaves as one of the most potent stimulator of cardiac contractility.[7][25][26] Aged apelin knockout mice develop progressive impairment of cardiac contractility.[27] Apelin acts as a mediator of the cardiovascular control, including for blood pressure and blood flow. It is one of the most potent stimulators of cardiac contractility yet identified, and plays a role in cardiac tissue remodeling. Apelin levels are increased in left ventricles of patients with chronic heart failure and also in patients with chronic liver disease.[28]
Exercise
The plasma concentration of apelin is shown to increase during exercise.[29] Paradoxically, exogenous apelin in healthy volunteers reduced VO2 peak (peak oxygen consumption) in an endurance test.[30]
Brain
Apelin receptor is also expressed in the neurons of brain areas involved in regulating water and food intake.[6][31][32] Apelin injection increases water intake[6] and apelin decreases the hypothalamic secretion of the antidiuretic hormone vasopressin.[33] This diuretic effect of apelin in association with its hypotensive effect participates in the homeostatic regulation of body fluid. Apelin is also detected in brain areas which control appetite, but its effects on food intake are very contradictory.[34][35][36]
Adipose tissue
Apelin is expressed and secreted by adipocytes, and its production is increased during adipocyte differentiation and is stimulated by insulin.[37] Most obese people have elevated levels of insulin, which may therefore be the reason why obese people have been reported to also have elevated levels of apelin.[37]
Digestive
Apelin receptor is expressed in several cell types of the gastro-intestinal tract : stomach enterochromaffine-like cells;[38][39] unknown cells of endocrine pancreas,[40] colon epithelial cells.[41] In stomach, activation of receptors on enterochromaffine-like cells by apelin secreted by parietal cells can inhibit histamine release by enterochromaffine-like cells, which in turn decreases acid secretion by parietal cells.[39] In pancreas, apelin inhibits the insulin secretion induced by glucose.[42] This inhibition reveals the functional interdependency between apelin signalling and insulin signalling observed at the adipocyte level where insulin stimulate apelin production.[37] Recently, receptor expression was also detected in skeletic muscle cells. Its activation is involved in glucose uptake and participates in the control of glucose blood levels glycemia.[43]
Bone
Receptor expression is also observed at the surface of osteoblasts, the cell progenitors involved in bone formation.[44]
Muscle aging
Muscle apelin expression decreases with age in rodents and humans.[45] By supplementing aged mice with exogenous apelin, Cedric Dray, Philippe Valet, and their colleagues demonstrated that the peptide was able to promote muscle hypertrophy and consequently induced a gain in strength.[45] This study also demonstrated that apelin targets muscle cells during aging by different and complementary pathways: it acts on muscle metabolism by activating an AMPK-dependent mitochondria biogenesis, it promotes autophagy and decreases inflammation in aged mice.[45] Moreover, apelin receptor is also present on muscle stem cells and promotes in vitro and in vivo cellular proliferation and differentiation of these cells into mature muscle cells that participate in muscle regeneration. Finally, muscle apelin could be used as a biomarker of physical exercise success in aged individuals since its production is correlated to the benefit of a chronic physical exercise in aged individuals.[45]
In late 2022, the longevity therapeutics company BioAge announced that its licensed, orally-available apelin receptor agonist BGE-105 had greatly decreased muscle loss and sustained muscle quality and muscle protein synthesis during 10 days of bed rest in healthy volunteers aged 65 or older participating in a double-blind, placebo-controlled Phase 1b trial.[46] They plan to proceed to a Phase 2 trial in older patients who are on ventilators in the intensive care unit (ICU). Such patients suffer both diaphragm atrophy (the weakening of the muscles that allow one to inhale and exhale, which atrophy dangerously due to disuse during time on a ventilator[47][48][49]) and critical illness myopathy (the broad weakening of the muscles during extended bed rest). Each of these conditions are associated with poor functional recovery and substantially increased risk of death after illness.[46]
References
- 1 2 3 GRCh38: Ensembl release 89: ENSG00000171388 - Ensembl, May 2017
- 1 2 3 GRCm38: Ensembl release 89: ENSMUSG00000037010 - Ensembl, May 2017
- ↑ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- ↑ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- 1 2 3 Tatemoto K, Hosoya M, Habata Y, Fujii R, Kakegawa T, Zou MX, Kawamata Y, Fukusumi S, Hinuma S, Kitada C, Kurokawa T, Onda H, Fujino M (1998). "Isolation and characterization of a novel endogenous peptide ligand for the human APJ receptor". Biochem. Biophys. Res. Commun. 251 (2): 471–6. doi:10.1006/bbrc.1998.9489. PMID 9792798.
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- ↑ Kleinz MJ, Davenport AP (2005). "Emerging roles of apelin in biology and medicine". Pharmacol. Ther. 107 (2): 198–211. doi:10.1016/j.pharmthera.2005.04.001. PMID 15907343.
- ↑ O'Dowd BF, Heiber M, Chan A, Heng HH, Tsui LC, Kennedy JL, Shi X, Petronis A, George SR, Nguyen T (December 1993). "A human gene that shows identity with the gene encoding the angiotensin receptor is located on chromosome 11". Gene. 136 (1–2): 355–60. doi:10.1016/0378-1119(93)90495-O. PMID 8294032.
- ↑ Devic E, Paquereau L, Vernier P, Knibiehler B, Audigier Y (October 1996). "Expression of a new G protein-coupled receptor X-msr is associated with an endothelial lineage in Xenopus laevis". Mech. Dev. 59 (2): 129–40. doi:10.1016/0925-4773(96)00585-0. PMID 8951791. S2CID 17999883.
- ↑ Audigier Y (2006-04-07). "Apelin Receptor". UCSD Nature Molecule Pages. doi:10.1038/mp.a000304.01. Archived from the original on 2011-07-22. Retrieved 2009-09-02.
- ↑ Mesmin C, Dubois M, Becher F, Fenaille F, Ezan E (2010). "Liquid chromatography/tandem mass spectrometry assay for the absolute quantification of the expected circulating apelin peptides in human plasma". Rapid Commun Mass Spectrom. 24 (19): 2875–84. Bibcode:2010RCMS...24.2875M. doi:10.1002/rcm.4718. PMID 20857448.
- ↑ Mesmin C, Fenaille F, Becher F, Tabet JC, Ezan E (2011). "Identification and characterization of apelin peptides in bovine colostrum and milk by liquid chromatography-mass spectrometry". J Proteome Res. 10 (11): 5222–31. doi:10.1021/pr200725x. PMID 21939284.
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- 1 2 3 Saint-Geniez M, Masri B, Malecaze F, Knibiehler B, Audigier Y (January 2002). "Expression of the murine msr/apj receptor and its ligand apelin is upregulated during formation of the retinal vessels". Mech. Dev. 110 (1–2): 183–6. doi:10.1016/S0925-4773(01)00558-5. PMID 11744380. S2CID 16855047.
- 1 2 Masri B, Morin N, Cornu M, Knibiehler B, Audigier Y (December 2004). "Apelin (65-77) activates p70 S6 kinase and is mitogenic for umbilical endothelial cells". FASEB J. 18 (15): 1909–11. doi:10.1096/fj.04-1930fje. PMID 15385434. S2CID 2013710.
- 1 2 Kasai A, Shintani N, Oda M, Kakuda M, Hashimoto H, Matsuda T, Hinuma S, Baba A (December 2004). "Apelin is a novel angiogenic factor in retinal endothelial cells". Biochem. Biophys. Res. Commun. 325 (2): 395–400. doi:10.1016/j.bbrc.2004.10.042. PMID 15530405.
- ↑ Cox CM, D'Agostino SL, Miller MK, Heimark RL, Krieg PA (August 2006). "Apelin, the ligand for the endothelial G-protein-coupled receptor, APJ, is a potent angiogenic factor required for normal vascular development of the frog embryo". Dev. Biol. 296 (1): 177–89. doi:10.1016/j.ydbio.2006.04.452. PMID 16750822.
- ↑ Tatemoto K, Takayama K, Zou MX, Kumaki I, Zhang W, Kumano K, Fujimiya M (June 2001). "The novel peptide apelin lowers blood pressure via a nitric oxide-dependent mechanism". Regul Pept. 99 (2–3): 87–92. doi:10.1016/S0167-0115(01)00236-1. PMID 11384769. S2CID 3064032.
- ↑ Ishida J, Hashimoto T, Hashimoto Y, Nishiwaki S, Iguchi T, Harada S, Sugaya T, Matsuzaki H, Yamamoto R, Shiota N, Okunishi H, Kihara M, Umemura S, Sugiyama F, Yagami K, Kasuya Y, Mochizuki N, Fukamizu A (June 2004). "Regulatory roles for APJ, a seven-transmembrane receptor related to angiotensin type 1 receptor in blood pressure in vivo". J. Biol. Chem. 279 (25): 26274–9. doi:10.1074/jbc.M404149200. PMID 15087458.
- ↑ Masri B, Lahlou H, Mazarguil H, Knibiehler B, Audigier Y (January 2002). "Apelin (65-77) activates extracellular signal-regulated kinases via a PTX-sensitive G protein". Biochem. Biophys. Res. Commun. 290 (1): 539–45. doi:10.1006/bbrc.2001.6230. PMID 11779205.
- ↑ Kasai A, Shintani N, Kato H, Matsuda S, Gomi F, Haba R, Hashimoto H, Kakuda M, Tano Y, Baba A (October 2008). "Retardation of retinal vascular development in apelin-deficient mice". Arterioscler. Thromb. Vasc. Biol. 28 (10): 1717–22. doi:10.1161/ATVBAHA.108.163402. PMID 18599802.
- ↑ Scott IC, Masri B, D'Amico LA, Jin SW, Jungblut B, Wehman AM, Baier H, Audigier Y, Stainier DY (March 2007). "The g protein-coupled receptor agtrl1b regulates early development of myocardial progenitors". Dev. Cell. 12 (3): 403–13. doi:10.1016/j.devcel.2007.01.012. PMID 17336906.
- ↑ Zeng XX, Wilm TP, Sepich DS, Solnica-Krezel L (March 2007). "Apelin and its receptor control heart field formation during zebrafish gastrulation". Dev. Cell. 12 (3): 391–402. doi:10.1016/j.devcel.2007.01.011. PMID 17336905.
- ↑ Berry MF, Pirolli TJ, Jayasankar V, Burdick J, Morine KJ, Gardner TJ, Woo YJ (September 2004). "Apelin has in vivo inotropic effects on normal and failing hearts". Circulation. 110 (11 Suppl 1): II187–93. doi:10.1161/01.CIR.0000138382.57325.5c. PMID 15364861.
- ↑ Ashley EA, Powers J, Chen M, Kundu R, Finsterbach T, Caffarelli A, Deng A, Eichhorn J, Mahajan R, Agrawal R, Greve J, Robbins R, Patterson AJ, Bernstein D, Quertermous T (January 2005). "The endogenous peptide apelin potently improves cardiac contractility and reduces cardiac loading in vivo". Cardiovasc. Res. 65 (1): 73–82. doi:10.1016/j.cardiores.2004.08.018. PMC 2517138. PMID 15621035.
- ↑ Kuba K, Zhang L, Imai Y, Arab S, Chen M, Maekawa Y, Leschnik M, Leibbrandt A, Markovic M, Makovic M, Schwaighofer J, Beetz N, Musialek R, Neely GG, Komnenovic V, Kolm U, Metzler B, Ricci R, Hara H, Meixner A, Nghiem M, Chen X, Dawood F, Wong KM, Sarao R, Cukerman E, Kimura A, Hein L, Thalhammer J, Liu PP, Penninger JM (August 2007). "Impaired heart contractility in Apelin gene-deficient mice associated with aging and pressure overload". Circ. Res. 101 (4): e32–42. doi:10.1161/CIRCRESAHA.107.158659. PMID 17673668.
- ↑ Principe A, Melgar-Lesmes P, Fernández-Varo G, Del Arbol LR, Ros J, Morales-Ruiz M, Bernardi M, Arroyo V, Jiménez W (2008). "The hepatic apelin system: A new therapeutic target for liver disease". Hepatology. 48 (4): 1193–1201. doi:10.1002/hep.22467. PMID 18816630.
- ↑ Kechyn S, Barnes G, Howard L (2015). "Assessing dynamic changes in plasma apelin concentration in response to maximal exercise in man". European Respiratory Journal. 46: PA2316. doi:10.1183/13993003.congress-2015.PA2316.
- ↑ Kechyn S, Barnes G, Thongmee A, Howard L (September 2015). "Effect of apelin on cardiopulmonary performance during endurance exercise". European Respiratory Journal. 46 (suppl 59): 2241. doi:10.1183/13993003.congress-2015.PA2241.
- ↑ O'Carroll AM, Selby TL, Palkovits M, Lolait SJ (June 2000). "Distribution of mRNA encoding B78/apj, the rat homologue of the human APJ receptor, and its endogenous ligand apelin in brain and peripheral tissues". Biochim. Biophys. Acta. 1492 (1): 72–80. doi:10.1016/S0167-4781(00)00072-5. PMID 11004481.
- ↑ De Mota et al., 2000
- ↑ De Mota N, Lenkei Z, Llorens-Cortès C (December 2000). "Cloning, pharmacological characterization and brain distribution of the rat apelin receptor". Neuroendocrinology. 72 (6): 400–7. doi:10.1159/000054609. PMID 11146423. S2CID 39313631.
- ↑ Taheri S, Murphy K, Cohen M, Sujkovic E, Kennedy A, Dhillo W, Dakin C, Sajedi A, Ghatei M, Bloom S (March 2002). "The effects of centrally administered apelin-13 on food intake, water intake and pituitary hormone release in rats". Biochem. Biophys. Res. Commun. 291 (5): 1208–12. doi:10.1006/bbrc.2002.6575. PMID 11883945.
- ↑ Sunter D, Hewson AK, Dickson SL (December 2003). "Intracerebroventricular injection of apelin-13 reduces food intake in the rat". Neurosci. Lett. 353 (1): 1–4. doi:10.1016/S0304-3940(03)00351-3. PMID 14642423. S2CID 43645121.
- ↑ O'Shea M, Hansen MJ, Tatemoto K, Morris MJ (June 2003). "Inhibitory effect of apelin-12 on nocturnal food intake in the rat". Nutr Neurosci. 6 (3): 163–7. doi:10.1080/1028415031000111273. PMID 12793520. S2CID 37941683.
- 1 2 3 Boucher J, Masri B, Daviaud D, Gesta S, Guigné C, Mazzucotelli A, Castan-Laurell I, Tack I, Knibiehler B, Carpéné C, Audigier Y, Saulnier-Blache JS, Valet P (April 2005). "Apelin, a newly identified adipokine up-regulated by insulin and obesity". Endocrinology. 146 (4): 1764–71. doi:10.1210/en.2004-1427. PMID 15677759.
- ↑ Wang G, Anini Y, Wei W, Qi X, OCarroll AM, Mochizuki T, Wang HQ, Hellmich MR, Englander EW, Greeley GH (March 2004). "Apelin, a new enteric peptide: localization in the gastrointestinal tract, ontogeny, and stimulation of gastric cell proliferation and of cholecystokinin secretion". Endocrinology. 145 (3): 1342–8. doi:10.1210/en.2003-1116. PMID 14670994.
- 1 2 Lambrecht NW, Yakubov I, Zer C, Sachs G (March 2006). "Transcriptomes of purified gastric ECL and parietal cells: identification of a novel pathway regulating acid secretion". Physiol. Genomics. 25 (1): 153–65. doi:10.1152/physiolgenomics.00271.2005. PMID 16403840.
- ↑ Sorhede Winzell et al., 2005
- ↑ Wang G, Kundu R, Han S, Qi X, Englander EW, Quertermous T, Greeley GH (August 2009). "Ontogeny of apelin and its receptor in the rodent gastrointestinal tract". Regul. Pept. 158 (1–3): 32–9. doi:10.1016/j.regpep.2009.07.016. PMC 2761510. PMID 19660504.
- ↑ Sörhede Winzell M, Magnusson C, Ahrén B (November 2005). "The apj receptor is expressed in pancreatic islets and its ligand, apelin, inhibits insulin secretion in mice". Regul. Pept. 131 (1–3): 12–7. doi:10.1016/j.regpep.2005.05.004. PMID 15970338. S2CID 18224695.
- ↑ Dray C, Knauf C, Daviaud D, Waget A, Boucher J, Buléon M, Cani PD, Attané C, Guigné C, Carpéné C, Burcelin R, Castan-Laurell I, Valet P (November 2008). "Apelin stimulates glucose utilization in normal and obese insulin-resistant mice". Cell Metab. 8 (5): 437–45. doi:10.1016/j.cmet.2008.10.003. PMID 19046574.
- ↑ Xie H, Tang SY, Cui RR, Huang J, Ren XH, Yuan LQ, Lu Y, Yang M, Zhou HD, Wu XP, Luo XH, Liao EY (May 2006). "Apelin and its receptor are expressed in human osteoblasts". Regul. Pept. 134 (2–3): 118–25. doi:10.1016/j.regpep.2006.02.004. PMID 16563531. S2CID 20819559.
- 1 2 3 4 Vinel C, Lukjanenko L, Batut A, Deleruyelle S, Pradère J, Le Gonidec S, Dortignac A, Geoffre N, Pereira O, Karaz S, Lee U, Camus M, Chaoui K, Mouisel E, Bigot A, Mouly V, Vigneau M, Pagano A, Chopard A, Pillard F, Guyonnet S, Cesari M, Burlet O, Pahor M, Feige J, Vellas B, Valet P, Dray C (30 July 2018). "The exerkine apelin reverses age-associated sarcopenia". Nature Medicine. 24 (9): 1360–1371. doi:10.1038/s41591-018-0131-6. PMID 30061698. S2CID 51876150.
- 1 2 "BioAge Announces Positive Topline Results for BGE-105 in Phase 1b Clinical Trial Evaluating Muscle Atrophy in Older Volunteers at Bed Rest". BusinessWire. 5 December 2022. Retrieved 14 January 2023.
- ↑ Jaber S, Petrof BJ, Jung B, Chanques G, Berthet JP, Rabuel C, et al. (February 2011). "Rapidly progressive diaphragmatic weakness and injury during mechanical ventilation in humans". American Journal of Respiratory and Critical Care Medicine. 183 (3): 364–371. doi:10.1164/rccm.201004-0670OC. PMID 20813887.
- ↑ Goligher EC, Dres M, Fan E, Rubenfeld GD, Scales DC, Herridge MS, et al. (January 2018). "Mechanical Ventilation-induced Diaphragm Atrophy Strongly Impacts Clinical Outcomes". American Journal of Respiratory and Critical Care Medicine. 197 (2): 204–213. doi:10.1164/rccm.201703-0536OC. PMID 28930478. S2CID 3716085.
- ↑ Levine S, Nguyen T, Taylor N, Friscia ME, Budak MT, Rothenberg P, et al. (March 2008). "Rapid disuse atrophy of diaphragm fibers in mechanically ventilated humans". The New England Journal of Medicine. 358 (13): 1327–1335. doi:10.1056/NEJMoa070447. PMID 18367735.
Further reading
- Lee DK, George SR, O'Dowd BF (2006). "Unravelling the roles of the apelin system: prospective therapeutic applications in heart failure and obesity". Trends Pharmacol. Sci. 27 (4): 190–4. doi:10.1016/j.tips.2006.02.006. PMID 16530855.
- Lee DK, Saldivia VR, Nguyen T, Cheng R, George SR, O'Dowd BF (2005). "Modification of the terminal residue of apelin-13 antagonizes its hypotensive action". Endocrinology. 146 (1): 231–6. doi:10.1210/en.2004-0359. PMID 15486224.
- Lee DK, Lança AJ, Cheng R, Nguyen T, Ji XD, Gobeil F, Chemtob S, George SR, O'Dowd BF (2004). "Agonist-independent nuclear localization of the Apelin, angiotensin AT1, and bradykinin B2 receptors". J. Biol. Chem. 279 (9): 7901–8. doi:10.1074/jbc.M306377200. PMID 14645236.
- O'Dowd BF, Heiber M, Chan A, Heng HH, Tsui LC, Kennedy JL, Shi X, Petronis A, George SR, Nguyen T (1993). "A human gene that shows identity with the gene encoding the angiotensin receptor is located on chromosome 11". Gene. 136 (1–2): 355–60. doi:10.1016/0378-1119(93)90495-O. PMID 8294032.
- Chun HJ, Ali ZA, Kojima Y, Kundu RK, Sheikh AY, Agrawal R, Zheng L, Leeper NJ, Pearl NE, Patterson AJ, Anderson JP, Tsao PS, Lenardo MJ, Ashley EA, Quertermous T (October 2008). "Apelin signaling antagonizes Ang II effects in mouse models of atherosclerosis". The Journal of Clinical Investigation. 118 (10): 3343–54. doi:10.1172/JCI34871. PMC 2525695. PMID 18769630.
- Barnes G, Japp AG, Newby DE (July 2010). "Translational promise of the apelin--APJ system". Heart. 96 (13): 1011–6. doi:10.1136/hrt.2009.191122. PMID 20584856. S2CID 21522978.
External links
- Apelin+protein,+human at the U.S. National Library of Medicine Medical Subject Headings (MeSH)
- "Apelin". IUPHAR Database of Receptors and Ion Channels. International Union of Basic and Clinical Pharmacology. Archived from the original on 2021-08-16. Retrieved 2007-10-25.
- Human APLN genome location and APLN gene details page in the UCSC Genome Browser.