| Literature DB >> 30174296 |
Mei Wang1, Xixi Liu2, Gang Chang3, Yidong Chen4, Geng An5, Liying Yan2, Shuai Gao2, Yanwen Xu1, Yueli Cui2, Ji Dong2, Yuhan Chen1, Xiaoying Fan2, Yuqiong Hu4, Ke Song1, Xiaohui Zhu2, Yun Gao2, Zhaokai Yao1, Shuhui Bian4, Yu Hou2, Jiahao Lu1, Rui Wang2, Yong Fan5, Ying Lian2, Wenhao Tang2, Yapeng Wang2, Jianqiao Liu5, Lianming Zhao2, Luyu Wang2, Zhaoting Liu1, Renpei Yuan2, Yujia Shi1, Boqiang Hu2, Xiulian Ren2, Fuchou Tang6, Xiao-Yang Zhao7, Jie Qiao8.
Abstract
Spermatogenesis generates mature male gametes and is critical for the proper transmission of genetic information between generations. However, the developmental landscapes of human spermatogenesis remain unknown. Here, we performed single-cell RNA sequencing (scRNA-seq) analysis for 2,854 testicular cells from donors with normal spermatogenesis and 174 testicular cells from one nonobstructive azoospermia (NOA) donor. A hierarchical model was established, which was characterized by the sequential and stepwise development of three spermatogonia subtypes, seven spermatocyte subtypes, and four spermatid subtypes. Further analysis identified several stage-specific marker genes of human germ cells, such as HMGA1, PIWIL4, TEX29, SCML1, and CCDC112. Moreover, we identified altered gene expression patterns in the testicular somatic cells of one NOA patient via scRNA-seq analysis, paving the way for further diagnosis of male infertility. Our work allows for the reconstruction of transcriptional programs inherent to sequential cell fate transition during human spermatogenesis and has implications for deciphering male-related reproductive disorders.Entities:
Keywords: human spermatogenesis; single-cell RNA sequencing
Mesh:
Year: 2018 PMID: 30174296 DOI: 10.1016/j.stem.2018.08.007
Source DB: PubMed Journal: Cell Stem Cell ISSN: 1875-9777 Impact factor: 24.633