Single-cell RNA sequencing uncovers dynamic roadmap during chicken spermatogenesis
- PMID: 40804371
- DOI: 10.1186/s12864-025-11944-9
Single-cell RNA sequencing uncovers dynamic roadmap during chicken spermatogenesis
Abstract
Background: Spermatogenesis is a pivotal biological process for the precise transmission of paternal genetic information, governed by a highly complex and dynamically regulated testicular microenvironment. Although mammalian research has characterized germ cell development at the single-cell level, differences in reproductive strategies limit the relevance of these findings to avian species.
Results: We employed single-cell RNA sequencing (scRNA-seq) to analyze the testes of the "Yufen 1" H line roosters at five distinct developmental stages: birth, rapid testicular development, sexual maturity, physical maturity, and senescence. By constructing a single-cell transcriptomic atlas, we identified ten somatic cell subtypes and four germ cell subtypes, thereby elucidating the dynamic changes in gene expression during spermatogenesis. Notably, our findings indicate that meiosis initiates relatively early in chickens, with the formation of the blood-testis barrier being closely associated with pachytene spermatocytes. Additionally, the testicular microenvironment undergoes age-related adaptive changes. Furthermore, we observed that support cells at 20 and 80 weeks of age exhibit similar transcriptional profiles, while macrophages and T cells play a pivotal role in the formation of the testicular cords and vascular networks during the early developmental stages.
Conclusion: This study offers a comprehensive atlas of testicular development in chickens, elucidating the sequential cell fate transitions from spermatogonial stem cells to mature sperm, alongside the dynamic and intricate developmental trajectories of somatic cells within the testicular microenvironment. These findings present novel insights into avian testicular development and establish a theoretical foundation for future research in reproductive biology and breeding strategies.
Keywords: Chicken; Single cell transcriptome; Spermatogenesis; Testis.
© 2025. The Author(s).
Conflict of interest statement
Declarations. Ethics approval and consent to participate: All animal experiments were conducted in compliance with the Regulations for the Administration of Affairs Concerning Experimental Animals (Ministry of Science and Technology, China, 2004). The protocols followed in this study received approval from the Institutional Animal Care and Use Committee at Henan Agricultural University, China. This research adheres to the ARRIVE Guidelines for reporting animal studies. Competing interests: The authors declare that they have no competing interests.
Similar articles
-
Early transcriptional states of spermatogonia and marker expressions in the prepubertal human testis following chemotherapy-induced depletion.Hum Reprod. 2025 Aug 1;40(8):1467-1475. doi: 10.1093/humrep/deaf103. Hum Reprod. 2025. PMID: 40482072 Free PMC article.
-
A comparison of spermatogenesis between flies and men-conserved processes of male gamete production.Hum Reprod Update. 2025 Aug 13:dmaf018. doi: 10.1093/humupd/dmaf018. Online ahead of print. Hum Reprod Update. 2025. PMID: 40802929
-
Single-Cell RNA Sequencing Delineates the Atlas and Cell Interactions of the Testicular Cells in Chinese Soft-Shelled Turtle (Pelodiscus sinensis).Mar Biotechnol (NY). 2025 Jun 23;27(4):101. doi: 10.1007/s10126-025-10474-5. Mar Biotechnol (NY). 2025. PMID: 40549204
-
Single-cell RNA sequencing in pediatric research: Focusing on differentiation trajectories and immune microenvironment of neuroblastoma.Pediatr Discov. 2024 May 23;2(3):e61. doi: 10.1002/pdi3.61. eCollection 2024 Sep. Pediatr Discov. 2024. PMID: 40625458 Free PMC article. Review.
-
Antiretrovirals for reducing the risk of mother-to-child transmission of HIV infection.Cochrane Database Syst Rev. 2011 Jul 6;(7):CD003510. doi: 10.1002/14651858.CD003510.pub3. Cochrane Database Syst Rev. 2011. PMID: 21735394
References
-
- Han C. Gene expression programs in mammalian spermatogenesis. Development. 2024. https://doi.org/10.1242/dev.202033 . - PubMed
-
- Wang M, Liu X, Chang G, Chen Y, An G, Yan L, Gao S, Xu Y, Cui Y, Dong J et al. Single-Cell RNA Sequencing Analysis Reveals Sequential Cell Fate Transition during Human Spermatogenesis. Cell stem cell 2018, 23(4):599–614.e594.
Grants and funding
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- SN01-2022-05/This work supported by the Key Research Project of the Shennong Laboratory
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 2023ZD0405203/the Science and Technology Innovation 2030 Major Projects
- 234400510023/the Scientific Studio of Zhongyuan Scholars
- 234400510023/the Scientific Studio of Zhongyuan Scholars
- 234400510023/the Scientific Studio of Zhongyuan Scholars
- 234400510023/the Scientific Studio of Zhongyuan Scholars
- 234400510023/the Scientific Studio of Zhongyuan Scholars
- 234400510023/the Scientific Studio of Zhongyuan Scholars
- 234400510023/the Scientific Studio of Zhongyuan Scholars
- 234400510023/the Scientific Studio of Zhongyuan Scholars
- 234400510023/the Scientific Studio of Zhongyuan Scholars
- 234400510023/the Scientific Studio of Zhongyuan Scholars
- 234400510023/the Scientific Studio of Zhongyuan Scholars
- 234400510023/the Scientific Studio of Zhongyuan Scholars
- 234400510023/the Scientific Studio of Zhongyuan Scholars
- 234400510023/the Scientific Studio of Zhongyuan Scholars
LinkOut - more resources
Full Text Sources
