血管内皮生长因子依赖性睾丸血管生成涉及 MEK1/2 信号以及重要的血管生成因子 SOX7 和 SOX17。

IF 4.4 1区 生物学 Q1 BIOLOGY BMC Biology Pub Date : 2024-10-01 DOI:10.1186/s12915-024-02003-y
Rheannon O Blücher, Rachel S Lim, Matthew E Ritchie, Patrick S Western
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引用次数: 0

摘要

背景:子宫内睾丸发育异常与生殖健康状况密切相关,包括男性不育和睾丸癌。在小鼠的睾丸中,SOX9和FGF9支持着Sertoli细胞的发育,而血管内皮生长因子(VEGF)信号对血管的建立至关重要。有丝分裂原激活蛋白激酶(MAPK)通路是一种主要的信号级联,对初级性别决定过程中的细胞增殖、分化和Sry激活至关重要,但人们对其在胎儿睾丸形态发生过程中的功能知之甚少。我们在使用 MEK1/2 抑制剂培养的胚胎 12.5 天 Oct4-eGFP 转基因小鼠睾丸中探索了睾丸索形成后 MAPK 信号的潜在功能:结果:对分离的性腺体细胞进行 RNA 测序,发现在 MEK1/2 抑制 24 和 72 小时后,分别有 116 和 114 个基因表达不同。Ingenuity Pathway 分析显示,MEK1/2 信号与血管生成、脉管生成和细胞迁移等生物功能有关。这包括未能上调血管发育的主转录调节因子 Sox7 和 Sox17、血管内皮生长因子受体基因、细胞粘附因子基因 Cd31 以及一系列其他内皮细胞标记,如 Cdh5(编码 VE-cadherin)和缝隙连接基因 Gja4 和 Gja5。与此相反,只有少量富含 Sertoli 细胞的基因受到影响。对对照睾丸进行的免疫荧光分析表明,MEK1/2下游靶标ERK1/2在内皮细胞和Sertoli细胞中被磷酸化。抑制 MEK1/2 可消除胎儿睾丸中的 pERK1/2,CD31、VE-cadherin、SOX7 和 SOX17 以及内皮细胞也会消失。与血管内皮生长因子(VEGF)在睾丸内皮细胞发育中的驱动作用相一致,抑制血管内皮生长因子受体(VEGFR)也会导致pERK1/2、SOX7和SOX17表达的内皮细胞消失。此外,抑制 MEK1/2 会破坏 Sertoli 细胞的增殖和在睾丸脐带基底膜上的定位,而抑制 VEGFR 则不会对其产生影响。相反,抑制 FGF 信号会影响 Sertoli 细胞的增殖和在睾丸脐带基底膜上的定位:总之,我们的数据强调了依赖于血管内皮生长因子的 MEK1/2 信号在促进血管中的重要作用,并表明 FGF 信号通过 MEK1/2 调节发育中小鼠睾丸中的 Sertoli 细胞组织。
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VEGF-dependent testicular vascularisation involves MEK1/2 signalling and the essential angiogenesis factors, SOX7 and SOX17.

Background: Abnormalities of in utero testis development are strongly associated with reproductive health conditions, including male infertility and testis cancer. In mouse testes, SOX9 and FGF9 support Sertoli cell development, while VEGF signalling is essential for the establishment of vasculature. The mitogen-activated protein kinase (MAPK) pathway is a major signalling cascade, essential for cell proliferation, differentiation and activation of Sry during primary sex-determination, but little is known about its function during fetal testis morphogenesis. We explored potential functions of MAPK signalling immediately after the establishment of testis cords in embryonic day (E)12.5 Oct4-eGFP transgenic mouse testes cultured using a MEK1/2 inhibitor.

Results: RNA sequencing in isolated gonadal somatic cells identified 116 and 114 differentially expressed genes after 24 and 72 h of MEK1/2 inhibition, respectively. Ingenuity Pathway Analysis revealed an association of MEK1/2 signalling with biological functions such as angiogenesis, vasculogenesis and cell migration. This included a failure to upregulate the master transcriptional regulators of vascular development, Sox7 and Sox17, VEGF receptor genes, the cell adhesion factor gene Cd31 and a range of other endothelial cell markers such as Cdh5 (encoding VE-cadherin) and gap junction genes Gja4 and Gja5. In contrast, only a small number of Sertoli cell enriched genes were affected. Immunofluorescent analyses of control testes revealed that the MEK1/2 downstream target, ERK1/2 was phosphorylated in endothelial cells and Sertoli cells. Inhibition of MEK1/2 eliminated pERK1/2 in fetal testes, and CD31, VE-cadherin, SOX7 and SOX17 and endothelial cells were lost. Consistent with a role for VEGF in driving endothelial cell development in the testis, inhibition of VEGFR also abrogated pERK1/2 and SOX7 and SOX17 expressing endothelial cells. Moreover, while Sertoli cell proliferation and localisation to the testis cord basement membrane was disrupted by inhibition of MEK1/2, it was unaffected by VEGFR inhibition. Instead, inhibition of FGF signalling compromised Sertoli cell proliferation and localisation to the testis cord basement membrane.

Conclusions: Together, our data highlight an essential role for VEGF-dependent MEK1/2 signalling in promoting vasculature and indicate that FGF signalling through MEK1/2 regulates Sertoli cell organisation in the developing mouse testis.

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BMC Biology
BMC Biology 生物-生物学
CiteScore
7.80
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1.90%
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260
审稿时长
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期刊介绍: BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.
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