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CCR4相关因子CAF1是精子发生的必需因子。

CCR4-associated factor CAF1 is an essential factor for spermatogenesis.

作者信息

Berthet Cyril, Morera Anne-Marie, Asensio Marie-Jeanne, Chauvin Marie-Agnes, Morel Anne-Pierre, Dijoud Frederique, Magaud Jean-Pierre, Durand Philippe, Rouault Jean-Pierre

机构信息

Hospital Debrousse, Lyon, France.

出版信息

Mol Cell Biol. 2004 Jul;24(13):5808-20. doi: 10.1128/MCB.24.13.5808-5820.2004.

DOI:10.1128/MCB.24.13.5808-5820.2004
PMID:15199137
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC480892/
Abstract

The CCR4-associated protein CAF1 has been demonstrated to play several roles in the control of transcription and of mRNA decay. To gain further insight into its physiological function, we generated CAF1-deficient mice. They are viable, healthy, and normal in appearance; however, mCAF1(-/-) male mice are sterile. The crossing of mCAF1(+/-) mice gave a Mendelian ratio of mCAF1(+/+), mCAF1(+/-), and mCAF1(-/-) pups, indicating that haploid mCAF1-deficient germ cells differentiate normally. The onset of the defect occurs during the first wave of spermatogenesis at 19 to 20 days after birth, during progression of pachytene spermatocytes to haploid spermatids and spermatozoa. Early disruption of spermatogenesis was evidenced by Sertoli cell vacuolization and tubular disorganization. The most mature germ cells were the most severely depleted, but progressively all germ cells were affected, giving Sertoli cell-only tubes, large interstitial spaces, and small testes. This phenotype could be linked to a defect(s) in germ cells and/or to inadequate Sertoli cell function, leading to seminiferous tubule disorganization and finally to a total disappearance of germ cells. The mCAF1-deficient mouse provides a new model of failed spermatogenesis in the adult that may be relevant to some cases of human male sterility.

摘要

CCR4相关蛋白CAF1已被证明在转录控制和mRNA降解中发挥多种作用。为了进一步深入了解其生理功能,我们培育了CAF1基因缺失的小鼠。这些小鼠能够存活,健康且外观正常;然而,雄性mCAF1(-/-)小鼠不育。mCAF1(+/-)小鼠杂交产生的mCAF1(+/+)、mCAF1(+/-)和mCAF1(-/-)幼崽的比例符合孟德尔遗传比率,这表明单倍体mCAF1基因缺失的生殖细胞能够正常分化。缺陷在出生后第19至20天的第一轮精子发生过程中出现,此时粗线期精母细胞向单倍体精子细胞和精子的发育过程中。支持细胞空泡化和小管结构紊乱证明了精子发生的早期破坏。最成熟的生殖细胞消耗最为严重,但逐渐所有生殖细胞都受到影响,导致仅存在支持细胞的小管、大的间质间隙和小睾丸。这种表型可能与生殖细胞中的缺陷和/或支持细胞功能不足有关,导致生精小管结构紊乱,最终导致生殖细胞完全消失。mCAF1基因缺失的小鼠为成年男性精子发生失败提供了一个新模型,这可能与某些人类男性不育病例相关。

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