Single-cell resolution uncovers neighboring cell subtypes that share steroidogenic capacity during fetal testis development,Proceedings of the National Academy of Sciences of the United States of America

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Single-cell resolution uncovers neighboring cell subtypes that share steroidogenic capacity during fetal testis development
Proceedings of the National Academy of Sciences of the United States of America ( IF 9.4 ) Pub Date : 2025-06-03 , DOI: 10.1073/pnas.2501392122
Keer Jiang, Zirui Fu, Philippos Tsourkas, Anbarasi Kothandapani, Tyler Kearse, Sean J. McIlwain, Chloé Mayère, Serge Nef, Joan S. Jorgensen

Historically, endocrine cells were perceived to coordinate their output in a uniform manner. Recently however, single-cell technologies have uncovered heterogeneity within these populations, indicating that individual cells may operate as independently regulated units. Using high-resolution tools such as single-molecule fluorescent in situ hybridization (sm-FISH) and single-cell RNA sequencing (scRNA-seq), we investigated the contributions of individual and the collective of fetal Leydig cells to androgen production over time during mouse testis development. Temporal profiles of intratesticular androgens alongside the expression of steroidogenic pathway genes ( Star, Cyp11a1, Cyp17a1, and Hsd3b1 ) from prenatal to perinatal testes demonstrated that the peak in gene expression preceded the peak in androgen production. Spatially, steroidogenic cells were initially observed to be concentrated toward the anterior–posterior poles along the center of the dorsal–ventral axis of the fetal testis at embryonic day (E) 13 and then expanded to a uniform distribution by E16. Next, sm-FISH using probes for individual steroidogenic pathway genes exposed the following findings: gene transcription and processing of individual and combinations of steroidogenic pathway genes are not synchronized among fetal Leydig cells; and some fetal Leydig cells express incomplete sets of genes. Further, sm-FISH and scRNA-seq data corroborated the presence of fetal Leydig and other interstitial cell types harboring incomplete sets of steroidogenic pathway genes throughout developmental stages. Taken together, these findings highlight that fetal steroidogenic gene expression is tightly regulated and that transcript presence among interstitial cell types promotes the possibility that optimal androgen biosynthesis results from a cooperative effort among neighboring steroidogenic cells.

更新日期：2025-06-03

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