Uncovering the role of GPR39 in the kidney

IF 5.3 2区 医学 Q1 PHYSIOLOGY Physiology Pub Date : 2024-05-01 DOI:10.1152/physiol.2024.39.s1.362
Jennifer L. Pluznick, Mackenzie Kui
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Abstract

G protein-coupled receptors (GPCRs) constitute the largest class of proteins in the mammalian genome. Upon activation by a specific ligand, these receptors initiate downstream cellular responses that regulate various physiological processes. One such receptor under investigation in our lab is the ghrelin family receptor GPR39. Unlike its relatives, GPR39 does not respond to peptide hormones or neuropeptides. Initial studies suggested zinc as the endogenous ligand, but recent research indicates that zinc functions as an allosteric potentiator for another unidentified endogenous ligand. To date, synthetic agonists for GPR39 have revealed functions for GPR39 in the heart, bone, skin, pancreas, and gastrointestinal tract. However, GPR39’s role in renal physiology is currently unknown, despite relatively high kidney expression. To address this gap in knowledge, we first worked to localize GPR39 within the kidney. As a reliable antibody for GPR39 is not available, we utilized a combination of RNAScope (Gpr39) and immunofluorescence (AQP2). We find that GPR39 is expressed in the renal collecting duct, with the highest expression in AQP2-positive cells (principal cells) in the inner medullary collecting duct, and lesser expression in the cortical collecting duct. To determine if GPR39 is expressed apically or basolaterally, we then cloned GPR39 with a C-terminal EGFP tag and observed basolateral targeting of GPR39 in polarized MDCK cells grown on filters. In order to query the function of GPR39 in principal cells, we used murine principal kidney cortical collecting duct cells (mpkCCD). As others have shown, we find that mpkCCD express and traffc AQP2 to the apical plasma membrane only in the presence of the vasopressin analog dDAVP. Furthermore, we observe that treatment of mpkCCD with the GPR39-specific agonist cpd1324 induces internalization of AQP2 into cytoplasmic vesicles, even in the continued presence of dDAVP. Under vehicle conditions (dDAVP + vehicle), 80.9±7.7% (mean±SD) of AQP2 stain colocalized with an apical membrane marker (WGA staining). In contrast, when mpkCCD cells were co-treated ddAVP+cpd1324, only 58.3±6.02% of AQP2 stain colocalized with the apical membrane (p < 0.001, t-test). These results indicate that GPR39 activation may act to antagonize vasopressin-induced AQP2 traffcking in mpkCCD cells. NHLBIT32HL007534 (MK) and American Heart Association Established Investigator Award (JLP). This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
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揭示 GPR39 在肾脏中的作用
G 蛋白偶联受体(GPCR)是哺乳动物基因组中最大的一类蛋白质。这些受体被特定配体激活后,会启动下游细胞反应,从而调节各种生理过程。我们实验室正在研究的胃泌素家族受体 GPR39 就是这样一种受体。与同类受体不同,GPR39 不对肽类激素或神经肽产生反应。最初的研究认为锌是内源性配体,但最近的研究表明锌对另一种未确定的内源性配体起着异位增效作用。迄今为止,GPR39 的合成激动剂已经揭示了 GPR39 在心脏、骨骼、皮肤、胰腺和胃肠道中的功能。然而,尽管 GPR39 在肾脏中的表达量相对较高,但其在肾脏生理学中的作用目前尚不清楚。为了填补这一知识空白,我们首先对肾脏内的 GPR39 进行了定位。由于没有可靠的 GPR39 抗体,我们结合使用了 RNAScope(Gpr39)和免疫荧光(AQP2)。我们发现 GPR39 在肾集合管中表达,在内髓质集合管的 AQP2 阳性细胞(主细胞)中表达最高,而在皮质集合管中表达较低。为了确定 GPR39 是在顶部还是在基底侧表达,我们克隆了带有 C 端 EGFP 标记的 GPR39,并在滤光片上生长的极化 MDCK 细胞中观察到了 GPR39 的基底侧靶向表达。为了探究 GPR39 在主细胞中的功能,我们使用了小鼠主肾皮质集合管细胞(mpkCCD)。正如其他研究表明的那样,我们发现 mpkCCD 只有在存在血管加压素类似物 dDAVP 的情况下才能表达 AQP2 并将其输送到顶端质膜。此外,我们还观察到,用 GPR39 特异性激动剂 cpd1324 处理 mpkCCD 会诱导 AQP2 内化成细胞质小泡,即使 dDAVP 继续存在也是如此。在载体条件下(dDAVP + 载体),80.9±7.7%(平均值±SD)的 AQP2 染色与顶端膜标记物(WGA 染色)共聚焦。相反,当 mpkCCD 细胞接受 ddAVP+cpd1324 联合治疗时,只有 58.3±6.02% 的 AQP2 染色与顶端膜共聚焦(p < 0.001,t 检验)。这些结果表明,GPR39 的激活可能会拮抗血管加压素诱导的 AQP2 在 mpkCCD 细胞中的迁移。NHLBIT32HL007534(MK)和美国心脏协会设立的研究者奖(JLP)。这是在 2024 年美国生理学峰会上发表的摘要全文,仅提供 HTML 格式。本摘要没有附加版本或附加内容。生理学》未参与同行评审过程。
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来源期刊
Physiology
Physiology 医学-生理学
CiteScore
14.50
自引率
0.00%
发文量
37
期刊介绍: Physiology journal features meticulously crafted review articles penned by esteemed leaders in their respective fields. These articles undergo rigorous peer review and showcase the forefront of cutting-edge advances across various domains of physiology. Our Editorial Board, comprised of distinguished leaders in the broad spectrum of physiology, convenes annually to deliberate and recommend pioneering topics for review articles, as well as select the most suitable scientists to author these articles. Join us in exploring the forefront of physiological research and innovation.
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