睾酮通过膜蛋白 GPRC6A 作用于斑马鱼胚胎，导致心脏水肿。

IF 3.7 2区生物学 Q1 DEVELOPMENTAL BIOLOGY

Development Pub Date : 2024-10-31 DOI:10.1242/dev.204390

Vahid Zadmajid, Shayan Shahriar, Daniel A Gorelick

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引用次数: 0

摘要

雄激素通常被认为是通过细胞内雄激素受体（AR/NR3C4）发挥作用的，但它们也可以通过膜蛋白引发非基因组效应。虽然有几种膜雄激素受体已在体外定性，但它们在体内的功能仍不清楚。通过对斑马鱼进行化学遗传筛选，我们发现GPRC6A（一种G蛋白偶联受体）在胚胎发育过程中介导非基因组雄激素作用。暴露于雄激素（雄甾烷二酮、二氢睾酮和睾酮）会导致野生型胚胎和 ar 突变体的心脏水肿或尾部弯曲，这表明 AR 是独立的途径。然后，我们突变了推定的膜雄激素受体（gprc6a、hcar1-4和zip9），发现只有gprc6a突变体在暴露于睾酮后心脏水肿明显减轻。此外，用睾酮和 GPRC6A 拮抗剂共同处理野生型胚胎可显著抑制心脏水肿表型。利用 RNA-seq 和 RNA 挽救方法，我们发现睾酮-GPRC6A 通过减少 Pak1 信号传导导致心脏表型。我们的研究结果表明，睾酮通过 GPRC6A 诱导斑马鱼胚胎的心脏水肿，而不依赖于核雄激素受体，凸显了胚胎发育过程中一种新型的非基因组雄激素信号途径。

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Testosterone acts through membrane protein GPRC6A to cause cardiac edema in zebrafish embryos.

Androgens are classically thought to act through intracellular androgen receptors (AR/NR3C4), but they can also trigger non-genomic effects via membrane proteins. Although several membrane androgen receptors have been characterized in vitro, their functions in vivo remain unclear. Using a chemical-genetic screen in zebrafish, we found that GPRC6A, a G-protein coupled receptor, mediates non-genomic androgen actions during embryonic development. Exposure to androgens (androstanedione, DHT, and testosterone) caused cardiac edema or tail curvature in wild-type embryos, as well as in ar mutants, suggesting AR-independent pathways. We then mutated putative membrane androgen receptors (gprc6a, hcar1-4, and zip9) and found that only gprc6a mutants exhibited a significant reduction in cardiac edema following testosterone exposure. Additionally, co-treatment of wild-type embryos with testosterone and GPRC6A antagonists significantly suppressed the cardiac edema phenotype. Using RNA-seq and RNA rescue approaches, we found that testosterone-GPRC6A causes cardiac phenotypes by reducing Pak1 signaling. Our results indicate that testosterone induces cardiac edema in zebrafish embryos through GPRC6A, independent of nuclear androgen receptors, highlighting a novel non-genomic androgen signaling pathway in embryonic development.

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来源期刊

Development 生物-发育生物学

CiteScore

6.70

自引率

4.30%

发文量

433

审稿时长

3 months

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