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由于单倍剂量不足,靶向缺失Tssk1和Tssk2会导致雄性不育。

Targeted deletion of Tssk1 and 2 causes male infertility due to haploinsufficiency.

作者信息

Xu Bingfang, Hao Zhonglin, Jha Kula N, Zhang Zhibing, Urekar Craig, Digilio Laura, Pulido Silvia, Strauss Jerome F, Flickinger Charles J, Herr John C

机构信息

Department of Cell Biology, Center for Research in Contraceptive and Reproductive Health, University of Virginia, 1300 Jefferson Park Avenue, Charlottesville, VA 22908, USA.

出版信息

Dev Biol. 2008 Jul 15;319(2):211-22. doi: 10.1016/j.ydbio.2008.03.047. Epub 2008 Apr 23.

DOI:10.1016/j.ydbio.2008.03.047
PMID:18533145
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2670491/
Abstract

Targeted deletion of Tssk1 and 2 resulted in male chimeras which produced sperm/spermatogenic cells bearing the mutant allele, however this allele was never transmitted to offspring, indicating infertility due to haploinsufficiency. Morphological defects in chimeras included failure to form elongated spermatids, apoptosis of spermatocytes and spermatids, and the appearance of numerous round cells in the epididymal lumen. Characterization of TSSK2 and its interactions with the substrate, TSKS, were further investigated in human and mouse. The presence of both kinase and substrate in the testis was confirmed, while persistence of both proteins in spermatozoa was revealed for the first time. In vivo binding interactions between TSSK2 and TSKS were established through co-immunoprecipitation of TSSK2/TSKS complexes from both human sperm and mouse testis extracts. A role for the human TSKS N-terminus in enzyme binding was defined by deletion mapping. TSKS immunoprecipitated from both mouse testis and human sperm extracts was actively phosphorylated. Ser281 was identified as a phosphorylation site in mouse TSKS. These results confirm both TSSK 2 and TSKS persist in sperm, define the critical role of TSKS' N-terminus in enzyme interaction, identify Ser 281 as a TSKS phosphorylation site and indicate an indispensable role for TSSK 1 and 2 in spermiogenesis.

摘要

Tssk1和Tssk2的靶向缺失导致雄性嵌合体,其产生携带突变等位基因的精子/生精细胞,然而该等位基因从未传递给后代,表明由于单倍体不足导致不育。嵌合体的形态学缺陷包括未能形成伸长的精子细胞、精母细胞和精子细胞的凋亡以及附睾管腔中出现大量圆形细胞。在人和小鼠中进一步研究了TSSK2及其与底物TSKS的相互作用。证实了睾丸中同时存在激酶和底物,同时首次揭示了这两种蛋白质在精子中的持续存在。通过从人精子和小鼠睾丸提取物中共免疫沉淀TSSK2/TSKS复合物,建立了TSSK2和TSKS在体内的结合相互作用。通过缺失图谱确定了人TSKS N端在酶结合中的作用。从小鼠睾丸和人精子提取物中免疫沉淀的TSKS被积极磷酸化。Ser281被确定为小鼠TSKS中的磷酸化位点。这些结果证实了TSSK 2和TSKS在精子中持续存在,确定了TSKS N端在酶相互作用中的关键作用,确定Ser 281为TSKS磷酸化位点,并表明TSSK 1和2在精子发生中具有不可或缺的作用。

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本文引用的文献

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Deficiency of SPAG16L causes male infertility associated with impaired sperm motility.SPAG16L缺乏会导致与精子活力受损相关的男性不育。
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Identification and characterization of SSTK, a serine/threonine protein kinase essential for male fertility.SSTK的鉴定与特性分析,SSTK是一种对雄性生育至关重要的丝氨酸/苏氨酸蛋白激酶。
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Haploinsufficiency of kelch-like protein homolog 10 causes infertility in male mice.kelch样蛋白同源物10单倍剂量不足导致雄性小鼠不育。
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