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GPER

From Wikipedia, the free encyclopedia

GPER1
Identifiers
AliasesGPER1, Gper1, 6330420K13Rik, CMKRL2, Ceprl, FEG-1, GPCR-Br, Gper, Gpr30, CEPR, DRY12, LERGU, LERGU2, LyGPR, mER, G protein-coupled estrogen receptor 1
External IDsOMIM: 601805; MGI: 1924104; HomoloGene: 15855; GeneCards: GPER1; OMA:GPER1 - orthologs
Orthologs
SpeciesHumanMouse
Entrez
Ensembl
UniProt
RefSeq (mRNA)

NM_001031682
NM_001039966
NM_001098201
NM_001505

NM_029771

RefSeq (protein)

NP_001035055
NP_001091671
NP_001496

NP_084047

Location (UCSC)Chr 7: 1.08 – 1.09 MbChr 5: 139.41 – 139.41 Mb
PubMed search[3][4]
Wikidata
View/Edit HumanView/Edit Mouse

G protein-coupled estrogen receptor 1 (GPER), also known as G protein-coupled receptor 30 (GPR30), is a protein that in humans is encoded by the GPER gene.[5] GPER binds to and is activated by the female sex hormone estradiol and is responsible for some of the rapid effects that estradiol has on cells.[6]

Discovery

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The classical estrogen receptors first characterized in 1958[7] are water-soluble proteins located in the interior of cells that are activated by estrogenenic hormones such as estradiol and several of its metabolites such as estrone or estriol. These proteins belong to the nuclear hormone receptor class of transcription factors that regulate gene transcription. Since it takes time for genes to be transcribed into RNA and translated into protein, the effects of estrogens binding to these classical estrogen receptors is delayed. However, estrogens are also known to have effects that are too fast to be caused by regulation of gene transcription.[8] In 2005, it was discovered that a member of the G protein-coupled receptor (GPCR) family, GPR30 also binds with high affinity to estradiol and is responsible in part for the rapid non-genomic actions of estradiol. Based on its ability to bind estradiol, GPR30 was renamed as G protein-coupled estrogen receptor (GPER). GPER is localized in the plasma membrane but is predominantly detected in the endoplasmic reticulum.[9][8]

Ligands

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GPER binds estradiol with high affinity though not other endogenous estrogens, such as estrone or estriol, nor other endogenous steroids, including progesterone, testosterone, and cortisol.[6][9][10][11][12] Although potentially involved in signaling by aldosterone, GPER does not show any detectable binding towards aldosterone.[6][13][14] Niacin and nicotinamide bind to the receptor in vitro with very low affinity.[15][16] CCL18 has been identified as an endogenous antagonist of the GPER.[17] GPER-selective ligands (that do not bind the classical estrogen receptors) include the agonist G-1[18] and the antagonists G15[19] and G36.[20][6]

Agonists

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Antagonists

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Unknown

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Non-ligand

[edit]

Function

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This protein is a member of the rhodopsin-like family of G protein-coupled receptors and is a multi-pass membrane protein that localizes to the plasma membrane. The protein binds estradiol, resulting in intracellular calcium mobilization and synthesis of phosphatidylinositol (3,4,5)-trisphosphate in the nucleus.[9] This protein therefore plays a role in the rapid nongenomic signaling events widely observed following stimulation of cells and tissues with estradiol.[21] The distribution of GPER is well established in the rodent, with high expression observed in the hypothalamus, pituitary gland, adrenal medulla, kidney medulla and developing follicles of the ovary.[22]

Role in cancer

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GPER expression has been studied in cancer using immunohistochemical and transcriptomic approaches, and has been detected in: colon, lung, melanoma, pancreatic, breast,[23] ovarian,[24] and testicular cancer.[25]

Many groups have demonstrated that GPER signaling is tumor suppressive in cancers that are not traditionally hormone responsive, including melanoma, pancreatic, lung and colon cancer.[26][27][28][29] Additionally, many groups have demonstrated that GPER activation is also tumor suppressive in cancers that are classically considered sex hormone responsive, including endometrial cancer, ovarian cancer, prostate cancer, and Leydig cell tumors.[30][31][32][33][34] Although GPER signaling was originally thought to be tumor promoting in some breast cancer models,[35] subsequent reports show that GPER signaling inhibits breast cancer.[36][37][38] Consistent with this, recent studies showed that the presence of GPER protein in human breast cancer tissue correlates with longer survival.[39] In summary, many independent groups have demonstrated that GPER activation may be a therapeutically useful mechanism for a wide range of cancer types.

Linnaeus Therapeutics is currently running NCI clinical trial (NCT04130516) using GPER agonist, LNS8801, as monotherapy and in combination with the immune checkpoint inhibitor, pembrolizumab, for the treatment of multiple solid tumor malignancies. Activation of GPER with LNS8801 has demonstrated efficacy in humans in cutaneous melanoma, uveal melanoma, lung cancer, neuroendocrine cancer, colorectal cancer, and other PD-1 inhibitor refractory cancers.[40][41][42]

Role in normal tissues

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Reproductive tissue

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Estradiol produces cell proliferation in both normal and malignant breast epithelial tissue.[43][44] However, GPER knockout mice show no overt mammary phenotype, unlike ERα knockout mice, but similarly to ERβ knockout mice.[43] This indicates that although GPER and ERβ play a modulatory role in breast development, ERα is the main receptor responsible for estrogen-mediated breast tissue growth.[43] GPER is expressed in germ cells and has been found to be essential for male fertility, specifically, in spermatogenesis.[45][46][47][48] GPER has been found to modulate gonadotropin-releasing hormone (GnRH) secretion in the hypothalamic-pituitary-gonadal (HPG) axis.[48]

Cardiovascular effects

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GPER is expressed in the blood vessel endothelium and is responsible for vasodilation and as a result, blood pressure lowering effects of 17β-estradiol.[49] GPER also regulates components of the renin–angiotensin system, which also controls blood pressure,[50][51] and is required for superoxide-mediated cardiovascular function and aging.[52]

Central nervous system activity

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GPER and ERα, but not ERβ, have been found to mediate the antidepressant-like effects of estradiol.[53][54][55] Contrarily, activation of GPER has been found to be anxiogenic in mice, while activation of ERβ has been found to be anxiolytic.[56] There is a high expression of GPER, as well as ERβ, in oxytocin neurons in various parts of the hypothalamus, including the paraventricular nucleus and the supraoptic nucleus.[55][57] It is speculated that activation of GPER may be the mechanism by which estradiol mediates rapid effects on the oxytocin system,[55][57] for instance, rapidly increasing oxytocin receptor expression.[58] Estradiol has also been found to increase oxytocin levels and release in the medial preoptic area and medial basal hypothalamus, actions that may be mediated by activation of GPER and/or ERβ.[58] Estradiol, as well as tamoxifen and fulvestrant, have been found to rapidly induce lordosis through activation of GPER in the arcuate nucleus of the hypothalamus of female rats.[59][60]

Metabolic roles

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Female GPER knockout mice display hyperglycemia and impaired glucose tolerance, reduced body growth, and increased blood pressure.[61] Male GPER knockout mice are observed to have increased growth, body fat, insulin resistance and glucose intolerance, dyslipidemia, increased osteoblast function (mineralization), resulting in higher bone mineral density and trabecular bone volume, and persistent growth plate activity resulting in longer bones.[62][63] The GPER-selective agonist G-1 shows therapeutic efficacy in mouse models of obesity and diabetes.[64]

Role in neurological disorders

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GPER is broadly expressed on the nervous system, and GPER activation promotes beneficial effects in several brain disorders.[65] A study suggests that GPER levels were significantly lower in children with ADHD compared to controls.[66]

See also

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References

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  1. ^ a b c GRCh38: Ensembl release 89: ENSG00000164850Ensembl, May 2017
  2. ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000053647Ensembl, May 2017
  3. ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  4. ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
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  6. ^ a b c d Prossnitz ER, Arterburn JB (July 2015). "International Union of Basic and Clinical Pharmacology. XCVII. G Protein-Coupled Estrogen Receptor and Its Pharmacologic Modulators". Pharmacological Reviews. 67 (3): 505–540. doi:10.1124/pr.114.009712. PMC 4485017. PMID 26023144.
  7. ^ Jensen E (2012). "A conversation with Elwood Jensen. Interview by David D. Moore". Annual Review of Physiology. 74: 1–11. doi:10.1146/annurev-physiol-020911-153327. PMID 21888507. S2CID 196618575.
  8. ^ a b Vrtačnik P, Ostanek B, Mencej-Bedrač S, Marc J (2014). "The many faces of estrogen signaling". Biochemia Medica. 24 (3): 329–342. doi:10.11613/BM.2014.035. PMC 4210253. PMID 25351351.
  9. ^ a b c Revankar CM, Cimino DF, Sklar LA, Arterburn JB, Prossnitz ER (March 2005). "A transmembrane intracellular estrogen receptor mediates rapid cell signaling". Science. 307 (5715): 1625–1630. Bibcode:2005Sci...307.1625R. doi:10.1126/science.1106943. PMID 15705806. S2CID 15789136.
  10. ^ Filardo EJ, Thomas P (October 2005). "GPR30: a seven-transmembrane-spanning estrogen receptor that triggers EGF release". Trends in Endocrinology and Metabolism. 16 (8): 362–367. doi:10.1016/j.tem.2005.08.005. PMID 16125968. S2CID 33801811.
  11. ^ Manavathi B, Kumar R (June 2006). "Steering estrogen signals from the plasma membrane to the nucleus: two sides of the coin". Journal of Cellular Physiology. 207 (3): 594–604. doi:10.1002/jcp.20551. PMID 16270355. S2CID 27712910.
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  14. ^ Cheng SB, Dong J, Pang Y, LaRocca J, Hixon M, Thomas P, et al. (February 2014). "Anatomical location and redistribution of G protein-coupled estrogen receptor-1 during the estrus cycle in mouse kidney and specific binding to estrogens but not aldosterone". Molecular and Cellular Endocrinology. 382 (2): 950–959. doi:10.1016/j.mce.2013.11.005. PMID 24239983. S2CID 28896943.
  15. ^ Santolla MF, De Francesco EM, Lappano R, Rosano C, Abonante S, Maggiolini M (July 2014). "Niacin activates the G protein estrogen receptor (GPER)-mediated signalling". Cellular Signalling. 26 (7): 1466–1475. doi:10.1016/j.cellsig.2014.03.011. PMID 24662263. Nicotinic acid, also known as niacin, is the water soluble vitamin B3 used for decades for the treatment of dyslipidemic diseases. Its action is mainly mediated by the G protein-coupled receptor (GPR) 109A; however, certain regulatory effects on lipid levels occur in a GPR109A-independent manner. The amide form of nicotinic acid, named nicotinamide, acts as a vitamin although neither activates the GPR109A nor exhibits the pharmacological properties of nicotinic acid. In the present study, we demonstrate for the first time that nicotinic acid and nicotinamide bind to and activate the GPER-mediated signalling in breast cancer cells and cancer-associated fibroblasts (CAFs)
  16. ^ Barton M (July 2016). "Not lost in translation: Emerging clinical importance of the G protein-coupled estrogen receptor GPER". Steroids. 111: 37–45. doi:10.1016/j.steroids.2016.02.016. PMID 26921679.
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This article incorporates text from the United States National Library of Medicine, which is in the public domain.