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Wt1 negatively regulates beta-catenin signaling during testis development.Wt1在睾丸发育过程中负向调节β-连环蛋白信号通路。
Development. 2008 May;135(10):1875-85. doi: 10.1242/dev.018572. Epub 2008 Apr 9.
2
Activation of beta-catenin signaling by Rspo1 controls differentiation of the mammalian ovary.Rspo1对β-连环蛋白信号通路的激活控制着哺乳动物卵巢的分化。
Hum Mol Genet. 2008 May 1;17(9):1264-77. doi: 10.1093/hmg/ddn016. Epub 2008 Feb 4.
3
R-spondin1 plays an essential role in ovarian development through positively regulating Wnt-4 signaling.R-spondin1通过正向调节Wnt-4信号通路在卵巢发育中发挥重要作用。
Hum Mol Genet. 2008 May 1;17(9):1278-91. doi: 10.1093/hmg/ddn036. Epub 2008 Feb 4.
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Fibroblast growth factor receptor 2 regulates proliferation and Sertoli differentiation during male sex determination.成纤维细胞生长因子受体2在雄性性别决定过程中调节增殖和支持细胞分化。
Proc Natl Acad Sci U S A. 2007 Oct 16;104(42):16558-63. doi: 10.1073/pnas.0702581104. Epub 2007 Oct 10.
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Sex determination and gonadal development in mammals.哺乳动物的性别决定与性腺发育。
Physiol Rev. 2007 Jan;87(1):1-28. doi: 10.1152/physrev.00009.2006.
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R-spondin1 is essential in sex determination, skin differentiation and malignancy.R-spondin1在性别决定、皮肤分化和恶性肿瘤中至关重要。
Nat Genet. 2006 Nov;38(11):1304-9. doi: 10.1038/ng1907. Epub 2006 Oct 15.
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Development of a steroidogenic factor 1/Cre transgenic mouse line.类固醇生成因子1/Cre转基因小鼠品系的开发。
Genesis. 2006 Sep;44(9):419-24. doi: 10.1002/dvg.20231.
8
Fgf9 and Wnt4 act as antagonistic signals to regulate mammalian sex determination.成纤维细胞生长因子9(Fgf9)和Wnt4作为拮抗信号来调节哺乳动物的性别决定。
PLoS Biol. 2006 Jun;4(6):e187. doi: 10.1371/journal.pbio.0040187. Epub 2006 May 23.
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Retinoid signaling determines germ cell fate in mice.维甲酸信号通路决定小鼠生殖细胞的命运。
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Retinoic acid regulates sex-specific timing of meiotic initiation in mice.视黄酸调节小鼠减数分裂起始的性别特异性时间。
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XY性腺中β-连环蛋白的稳定会导致雄性向雌性的性反转。

Stabilization of beta-catenin in XY gonads causes male-to-female sex-reversal.

作者信息

Maatouk Danielle M, DiNapoli Leo, Alvers Ashley, Parker Keith L, Taketo Makoto M, Capel Blanche

机构信息

Department of Cell Biology, Duke University Medical Center, Durham, NC 27710, USA.

出版信息

Hum Mol Genet. 2008 Oct 1;17(19):2949-55. doi: 10.1093/hmg/ddn193. Epub 2008 Jul 9.

DOI:10.1093/hmg/ddn193
PMID:18617533
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2536503/
Abstract

During mammalian sex determination, expression of the Y-linked gene Sry shifts the bipotential gonad toward a testicular fate by upregulating a feed-forward loop between FGF9 and SOX9 to establish SOX9 expression in somatic cells. We previously proposed that these signals are mutually antagonistic with counteracting signals in XX gonads and that a shift in the balance of these factors leads to either male or female development. Evidence in mice and humans suggests that the male pathway is opposed by the expression of two signals, WNT4 and R-SPONDIN-1 (RSPO1), that promote the ovarian fate and block testis development. Both of these ligands can activate the canonical Wnt signaling pathway. Duplication of the distal portion of chromosome 1p, which includes both WNT4 and RSPO1, overrides the male program and causes male-to-female sex reversal in XY patients. To determine whether activation of beta-catenin is sufficient to block the testis pathway, we have ectopically expressed a stabilized form of beta-catenin in the somatic cells of XY gonads. Our results show that activation of beta-catenin in otherwise normal XY mice effectively disrupts the male program and results in male-to-female sex-reversal. The identification of beta-catenin as a key pro-ovarian and anti-testis signaling molecule will further our understanding of the mechanisms controlling sex determination and the molecular mechanisms that lead to sex-reversal.

摘要

在哺乳动物性别决定过程中,Y 连锁基因 Sry 的表达通过上调 FGF9 和 SOX9 之间的前馈环,使双潜能性腺向睾丸命运转变,从而在体细胞中建立 SOX9 的表达。我们之前提出,这些信号与 XX 性腺中的拮抗信号相互拮抗,并且这些因子平衡的改变会导致雄性或雌性发育。小鼠和人类的证据表明,雄性发育途径受到两种促进卵巢命运并阻止睾丸发育的信号——WNT4 和 R - 分泌蛋白 1(RSPO1)表达的拮抗。这两种配体都能激活经典的 Wnt 信号通路。1p 染色体远端部分的重复,其中包括 WNT4 和 RSPO1,会覆盖雄性发育程序,并导致 XY 患者发生男性向女性的性反转。为了确定β - 连环蛋白的激活是否足以阻断睾丸发育途径,我们在 XY 性腺的体细胞中异位表达了一种稳定形式的β - 连环蛋白。我们的结果表明,在其他方面正常的 XY 小鼠中激活β - 连环蛋白会有效破坏雄性发育程序,并导致男性向女性的性反转。将β - 连环蛋白鉴定为关键的促卵巢和抗睾丸信号分子,将加深我们对控制性别决定机制以及导致性反转的分子机制的理解。