The role of GnRH metabolite, GnRH-(1-5), in endometrial cancer

被引:3
作者
Cho-Clark, Madelaine J. [1 ]
Watkins, Allison [1 ]
Wu, T. John [1 ]
机构
[1] Uniformed Serv Univ Hlth Sci, Dept Gynecol Surg & Obstet, Bethesda, MD 20889 USA
来源
FRONTIERS IN ENDOCRINOLOGY | 2023年 / 14卷
基金
美国国家卫生研究院; 美国国家科学基金会;
关键词
GnRH-(1-5); endometrial cancer; GnRH; GPR101; EP24; 15; HORMONE-RELEASING HORMONE; EPIDERMAL-GROWTH-FACTOR; METALLOENDOPEPTIDASE EC 3.4.24.15; MESSENGER-RNA EXPRESSION; CLINICAL-APPLICATIONS; SIGNAL-TRANSDUCTION; RECEPTOR-BINDING; GENE-EXPRESSION; CELLS; ACTIVATION;
D O I
10.3389/fendo.2023.1183278
中图分类号
R5 [内科学];
学科分类号
1002 ; 100201 ;
摘要
From the time of its discovery and isolation in the mammalian hypothalamus, the decapeptide, gonadotropin-releasing hormone (GnRH), has also been found to be expressed in non-hypothalamic tissues and can elicit a diverse array of functions both in the brain and periphery. In cancer, past studies have targeted the gonadotropin-releasing hormone receptors (GnRHR) as a way to treat reproductive cancers due to its anti-tumorigenic effects. On the contrary, its metabolite, GnRH-(1-5), behaves divergently from its parental peptide through putative orphan G-protein coupled receptor (oGPCR), GPR101. In this review, we will focus on the potential roles of GnRH-(1-5) in the periphery with an emphasis on its effects on endometrial cancer progression.
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页数:7
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共 83 条
[1]   GPR101 drives growth hormone hypersecretion and gigantism in mice via constitutive activation of Gs and Gq/11 [J].
Abboud, Dayana ;
Daly, Adrian F. ;
Dupuis, Nadine ;
Bahri, Mohamed Ali ;
Inoue, Asuka ;
Chevigne, Andy ;
Ectors, Fabien ;
Plenevaux, Alain ;
Pirotte, Bernard ;
Beckers, Albert ;
Hanson, Julien .
NATURE COMMUNICATIONS, 2020, 11 (01)
[2]   SYNAPTOSOMAL MEMBRANE-BOUND FORM OF ENDOPEPTIDASE-24.15 GENERATES LEU-ENKEPHALIN FROM DYNORPHIN1-8, ALPHA-NEUENDORPHIN-BETA-NEOENDORPHIN, AND MET-ENKEPHALIN FROM MET-ENKEPHALIN-ARG6-GLY7-LEU8 [J].
ACKER, GR ;
MOLINEAUX, C ;
ORLOWSKI, M .
JOURNAL OF NEUROCHEMISTRY, 1987, 48 (01) :284-292
[3]   STRUCTURE OF PORCINE LH-RELEASING AND FSH-RELEASING HORMONE .2. CONFIRMATION OF PROPOSED STRUCTURE BY CONVENTIONAL SEQUENTIAL ANALYSES [J].
BABA, Y ;
MATSUO, H ;
SCHALLY, AV .
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 1971, 44 (02) :459-+
[4]  
Baldwin EL, 2007, EXP BIOL MED, V232, P146
[5]   CLINICAL-APPLICATIONS OF GNRH AND ITS ANALOGS [J].
BARBIERI, RL .
TRENDS IN ENDOCRINOLOGY AND METABOLISM, 1992, 3 (01) :30-34
[6]   Characterization of Gpr101 expression and G-protein coupling selectivity [J].
Bates, Brian ;
Zhang, Lynn ;
Nawoschik, Stan ;
Kodangattil, Sreekumar ;
Tseng, Eugene ;
Kopsco, David ;
Kramer, Angela ;
Shan, Qin ;
Taylor, Noel ;
Johnson, Jeremy ;
Sun, Ying ;
Chen, Hui Min ;
Blatcher, Maria ;
Paulsen, Janet E. ;
Pausch, Mark H. .
BRAIN RESEARCH, 2006, 1087 :1-14
[7]   Regulation of Gonadotropin-Releasing Hormone-(1-5) Signaling Genes by Estradiol Is Age Dependent [J].
Bauman, Bradly M. ;
Yin, Weiling ;
Gore, Andrea C. ;
Wu, T. John .
FRONTIERS IN ENDOCRINOLOGY, 2017, 8
[8]   GONADOTROPIN-RELEASING-HORMONE INHIBITORY AUTOFEEDBACK BY SUBPRODUCTS ANTAGONIST AT N-METHYL-D-ASPARTATE RECEPTORS - A MODEL OF AUTOCRINE REGULATION OF PEPTIDE SECRETION [J].
BOURGUIGNON, JP ;
GONZALEZ, MLA ;
GEARD, A ;
FRANCHIMONT, P .
ENDOCRINOLOGY, 1994, 134 (03) :1589-1592
[9]   Does the angiotensin-converting enzyme (ACE)/ACE2 balance contribute to the fate of angiotensin peptides in programmed hypertension? [J].
Brosnihan, KB ;
Neves, LAA ;
Chappell, MC .
HYPERTENSION, 2005, 46 (05) :1097-1099
[10]  
CASPER RF, 1991, CAN MED ASSOC J, V144, P153
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