小鼠和人类生殖系中的非经典和性二态性X染色体剂量补偿状态

Non-Canonical and Sexually Dimorphic X Dosage Compensation States in the Mouse and Human Germline.

作者信息

Sangrithi Mahesh N, Royo Helene, Mahadevaiah Shantha K, Ojarikre Obah, Bhaw Leena, Sesay Abdul, Peters Antoine H F M, Stadler Michael, Turner James M A

机构信息

Mill Hill Laboratory, The Francis Crick Institute, The Ridgeway, Mill Hill, London NW7 1AA, UK; UCL EGA Institute for Women's Health UCL, Medical School Building, 74 Huntley Street, London WC1E 6AU, UK.

Friedrich Miescher Institute for Biomedical Research (FMI), 4058 Basel, Switzerland; Swiss Institute of Bioinformatics, 4058 Basel, Switzerland.

出版信息

Dev Cell. 2017 Feb 6;40(3):289-301.e3. doi: 10.1016/j.devcel.2016.12.023. Epub 2017 Jan 26.

DOI:10.1016/j.devcel.2016.12.023

PMID:28132849

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5300051/

Abstract

Somatic X dosage compensation requires two mechanisms: X inactivation balances X gene output between males (XY) and females (XX), while X upregulation, hypothesized by Ohno and documented in vivo, balances X gene with autosomal gene output. Whether X dosage compensation occurs in germ cells is unclear. We show that mouse and human germ cells exhibit non-canonical X dosage states that differ from the soma and between the sexes. Prior to genome-wide reprogramming, X upregulation is present, consistent with Ohno's hypothesis. Subsequently, however, it is erased. In females, erasure follows loss of X inactivation, causing X dosage excess. Conversely, in males, erasure leads to permanent X dosage decompensation. Sex chromosomally abnormal models exhibit a "sex-reversed" X dosage state: XX males, like XX females, develop X dosage excess, while XO females, like XY males, develop X dosage decompensation. Thus, germline X dosage compensation states are determined by X chromosome number, not phenotypic sex. These unexpected differences in X dosage compensation states between germline and soma offer unique perspectives on sex chromosome infertility.

摘要

体细胞X剂量补偿需要两种机制：X染色体失活平衡了雄性（XY）和雌性（XX）之间的X基因表达量，而由大野提出并在体内得到证实的X染色体上调则平衡了X基因与常染色体基因的表达量。尚不清楚X剂量补偿是否发生在生殖细胞中。我们发现，小鼠和人类生殖细胞呈现出与体细胞不同且两性之间也存在差异的非典型X剂量状态。在全基因组重编程之前，X染色体上调存在，这与大野的假设一致。然而，随后这种上调被消除。在雌性中，消除发生在X染色体失活丧失之后，导致X剂量过剩。相反，在雄性中，消除导致永久性的X剂量失代偿。性染色体异常模型呈现出一种“性别反转”的X剂量状态：XX雄性与XX雌性一样，出现X剂量过剩，而XO雌性与XY雄性一样，出现X剂量失代偿。因此，生殖系X剂量补偿状态由X染色体数量决定，而非表型性别。生殖系和体细胞之间X剂量补偿状态的这些意外差异为性染色体不育提供了独特的视角。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ac5d/5300051/2428a66a6a5a/gr1.jpg

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小鼠和人类生殖系中的非经典和性二态性X染色体剂量补偿状态

Non-Canonical and Sexually Dimorphic X Dosage Compensation States in the Mouse and Human Germline.

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