1. Deficiency of primate-specific SSX1 induced asthenoteratozoospermia in infertile men and cynomolgus monkey and tree shrew models.
- Author
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Liu, Chunyu, Si, Wei, Tu, Chaofeng, Tian, Shixiong, He, Xiaojin, Wang, Shengnan, Yang, Xiaoyu, Yao, Chencheng, Li, Cong, Kherraf, Zine-Eddine, Ye, Maosen, Zhou, Zixue, Ma, Yuhua, Gao, Yang, Li, Yu, Liu, Qiwei, Tang, Shuyan, Wang, Jiaxiong, Saiyin, Hexige, and Zhao, Liangyu
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SPERMATOGENESIS , *MALE infertility , *SHREWS , *INTRACYTOPLASMIC sperm injection , *KRA , *MONKEYS , *GENETIC counseling , *SPERM motility - Abstract
Primate-specific genes (PSGs) tend to be expressed in the brain and testis. This phenomenon is consistent with brain evolution in primates but is seemingly contradictory to the similarity of spermatogenesis among mammals. Here, using whole-exome sequencing, we identified deleterious variants of X-linked SSX1 in six unrelated men with asthenoteratozoospermia. SSX1 is a PSG expressed predominantly in the testis, and the SSX family evolutionarily expanded independently in rodents and primates. As the mouse model could not be used for studying SSX1 , we used a non-human primate model and tree shrews, which are phylogenetically similar to primates, to knock down (KD) Ssx1 expression in the testes. Consistent with the phenotype observed in humans, both Ssx1- KD models exhibited a reduced sperm motility and abnormal sperm morphology. Further, RNA sequencing indicated that Ssx1 deficiency influenced multiple biological processes during spermatogenesis. Collectively, our experimental observations in humans and cynomolgus monkey and tree shrew models highlight the crucial role of SSX1 in spermatogenesis. Notably, three of the five couples who underwent intra-cytoplasmic sperm injection treatment achieved a successful pregnancy. This study provides important guidance for genetic counseling and clinical diagnosis and, significantly, describes the approaches for elucidating the functions of testis-enriched PSGs in spermatogenesis. The importance of primate-specific genes (PSGs) in spermatogenesis is largely unknown. This study identified variants in an X-linked PSG, SSX1 , associated with male infertility. By using cynomolgus monkey and tree shrew models, this study provides a powerful experimental system for elucidating the functions of testis-enriched PSGs in spermatogenesis. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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