63 research outputs found

    In Vitro Pharmacological Characterization of RXFP3 Allosterism: An Example of Probe Dependency

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    Recent findings suggest that the relaxin-3 neural network may represent a new ascending arousal pathway able to modulate a range of neural circuits including those affecting circadian rhythm and sleep/wake states, spatial and emotional memory, motivation and reward, the response to stress, and feeding and metabolism. Therefore, the relaxin-3 receptor (RXFP3) is a potential therapeutic target for the treatment of various CNS diseases. Here we describe a novel selective RXFP3 receptor positive allosteric modulator (PAM), 3-[3,5-Bis(trifluoromethyl)phenyl]-1-(3,4-dichlorobenzyl)-1-[2-(5-methoxy-1H-indol-3-yl)ethyl]urea (135PAM1). Calcium mobilization and cAMP accumulation assays in cell lines expressing the cloned human RXFP3 receptor show the compound does not directly activate RXFP3 receptor but increases functional responses to amidated relaxin-3 or R3/I5, a chimera of the INSL5 A chain and the Relaxin-3 B chain. 135PAM1 increases calcium mobilization in the presence of relaxin-3NH2 and R3/I5NH2 with pEC50 values of 6.54 (6.46 to 6.64) and 6.07 (5.94 to 6.20), respectively. In the cAMP accumulation assay, 135PAM1 inhibits the CRE response to forskolin with a pIC50 of 6.12 (5.98 to 6.27) in the presence of a probe (10 nM) concentration of relaxin-3NH2. 135PAM1 does not compete for binding with the orthosteric radioligand, [125I] R3I5 (amide), in membranes prepared from cells expressing the cloned human RXFP3 receptor. 135PAM1 is selective for RXFP3 over RXFP4, which also responds to relaxin-3. However, when using the free acid (native) form of relaxin-3 or R3/I5, 135PAM1 doesn't activate RXFP3 indicating that the compound's effect is probe dependent. Thus one can exchange the entire A-chain of the probe peptide while retaining PAM activity, but the state of the probe's c-terminus is crucial to allosteric activity of the PAM. These data demonstrate the existence of an allosteric site for modulation of this GPCR as well as the subtlety of changes in probe molecules that can affect allosteric modulation of RXFP3

    Expression and function of G-protein-coupled receptorsin the male reproductive tract

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    This review focuses on the expression and function of muscarinic acetylcholine receptors (mAChRs), α1-adrenoceptors and relaxin receptors in the male reproductive tract. The localization and differential expression of mAChR and α1-adrenoceptor subtypes in specific compartments of the efferent ductules, epididymis, vas deferens, seminal vesicle and prostate of various species indicate a role for these receptors in the modulation of luminal fluid composition and smooth muscle contraction, including effects on male fertility. Furthermore, the activation of mAChRs induces transactivation of the epidermal growth factor receptor (EGFR) and the Sertoli cell proliferation. The relaxin receptors are present in the testis, RXFP1 in elongated spermatids and Sertoli cells from rat, and RXFP2 in Leydig and germ cells from rat and human, suggesting a role for these receptors in the spermatogenic process. The localization of both receptors in the apical portion of epithelial cells and smooth muscle layers of the vas deferens suggests an involvement of these receptors in the contraction and regulation of secretion.Esta revisĂŁo enfatiza a expressĂŁo e a função dos receptores muscarĂ­nicos, adrenoceptores α1 e receptores para relaxina no sistema reprodutor masculino. A expressĂŁo dos receptores muscarĂ­nicos e adrenoceptores α1 em compartimentos especĂ­ficos de dĂșctulos eferentes, epidĂ­dimo, ductos deferentes, vesĂ­cula seminal e prĂłstata de vĂĄrias espĂ©cies indica o envolvimento destes receptores na modulação da composição do fluido luminal e na contração do mĂșsculo liso, incluindo efeitos na fertilidade masculina. AlĂ©m disso, a ativação dos receptores muscarĂ­nicos leva Ă  transativação do receptor para o fator crescimento epidermal e proliferação das cĂ©lulas de Sertoli. Os receptores para relaxina estĂŁo presentes no testĂ­culo, RXFP1 nas espermĂĄtides alongadas e cĂ©lulas de Sertoli de rato e RXFP2 nas cĂ©lulas de Leydig e germinativas de ratos e humano, sugerindo o envolvimento destes receptores no processo espermatogĂȘnico. A localização de ambos os receptores na porção apical das cĂ©lulas epiteliais e no mĂșsculo liso dos ductos deferentes de rato sugere um papel na contração e na regulação da secreção.Fundação de Amparo Ă  Pesquisa do Estado de SĂŁo Paulo (FAPESP)Conselho Nacional de Desenvolvimento CientĂ­fico e TecnolĂłgico (CNPq)Universidade Federal de SĂŁo Paulo (UNIFESP) Escola Paulista de Medicina Departamento de FarmacologiaUNIFESP, EPM, Depto. de FarmacologiaSciEL

    Expression and function of G-protein-coupled receptorsin the male reproductive tract

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