Sox9 的低效上调和 Rspo1 的缺失抑制导致了 B6.XY TIR 小鼠性腺的性别逆转。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Jiangqin Cao, Fatima El Mansouri, Sofia Reynoso, Zongping Liu, Jiaqiao Zhu, Teruko Taketo
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引用次数: 0

摘要

Y 染色体上的 Sry 能上调 Sox9,而 Sox9 又能上调 Fgf9 等一系列基因,从而启动 XY 性腺的睾丸分化。在缺乏 Sry 表达的情况下,Rspo1、Foxl2 和 Runx1 等基因支持 XX 性腺的卵巢分化。这两种途径相互拮抗,以确保在正常发育过程中只有一种性腺性别。在 B6 基因背景上携带 YTIR 染色体的 B6.YTIR 小鼠中,Sry 的表达方式与 B6.XY 小鼠类似,但却只发育卵巢或睾丸。我们询问睾丸和卵巢分化途径如何相互作用,以决定 B6.YTIR 小鼠的性腺性别。我们的研究结果表明(1) Sox9的转录水平远低于B6.XY性腺,而Rspo1和Runx1的转录水平在出生后11.5天和12.5天(dpc)与B6.XX性腺一样高。(2) 12.5 dpc 时,FOXL2 阳性细胞与 SOX9 阳性细胞镶嵌在一起。 (3) 13.5 dpc 时,SOX9 阳性细胞在中央区域形成睾丸索,而在两极或整个区域,SOX9 阳性细胞消失,只剩下 FOXL2 阳性细胞。(4) 尽管在 13.5 dpc 时,左侧性腺比右侧性腺更频繁地发育出卵巢,但在 12.5 dpc 之前,左右性腺的所有基因转录水平均无差异。这些结果表明,Sox9 的低效上调和 Rspo1 的缺失抑制阻碍了 B6.YTIR 性腺的睾丸分化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Inefficient Sox9 upregulation and absence of Rspo1 repression lead to sex reversal in the B6.XYTIR mouse gonad†.

Sry on the Y-chromosome upregulates Sox9, which in turn upregulates a set of genes such as Fgf9 to initiate testicular differentiation in the XY gonad. In the absence of Sry expression, genes such as Rspo1, Foxl2, and Runx1 support ovarian differentiation in the XX gonad. These two pathways antagonize each other to ensure the development of only one gonadal sex in normal development. In the B6.YTIR mouse, carrying the YTIR-chromosome on the B6 genetic background, Sry is expressed in a comparable manner with that in the B6.XY mouse, yet, only ovaries or ovotestes develop. We asked how testicular and ovarian differentiation pathways interact to determine the gonadal sex in the B6.YTIR mouse. Our results showed that (1) transcript levels of Sox9 were much lower than in B6.XY gonads while those of Rspo1 and Runx1 were as high as B6.XX gonads at 11.5 and 12.5 days postcoitum. (2) FOXL2-positive cells appeared in mosaic with SOX9-positive cells at 12.5 days postcoitum. (3) SOX9-positive cells formed testis cords in the central area while those disappeared to leave only FOXL2-positive cells in the poles or the entire area at 13.5 days postcoitum. (4) No difference was found at transcript levels of all genes between the left and right gonads up to 12.5 days postcoitum, although ovotestes developed much more frequently on the left than the right at 13.5 days postcoitum. These results suggest that inefficient Sox9 upregulation and the absence of Rspo1 repression prevent testicular differentiation in the B6.YTIR gonad.

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CiteScore
7.20
自引率
4.30%
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