出生后雄性生殖系干细胞发育过程中的转录和印记动态

Transcription and imprinting dynamics in developing postnatal male germline stem cells.

作者信息

Hammoud Saher Sue, Low Diana H P, Yi Chongil, Lee Chee Leng, Oatley Jon M, Payne Christopher J, Carrell Douglas T, Guccione Ernesto, Cairns Bradley R

机构信息

Howard Hughes Medical Institute, University of Utah School of Medicine, Salt Lake City, Utah 84112, USA; Department of Oncological Sciences, University of Utah School of Medicine, Salt Lake City, Utah 84112, USA; Huntsman Cancer Institute, University of Utah School of Medicine, Salt Lake City, Utah 84112, USA; Department of Human Genetics, University of Michigan, Ann Arbor, Michigan 48109, USA;

Division of Cancer Genetics and Therapeutics, Institute of Molecular and Cell Biology (IMCB), A*STAR (Agency for Science, Technology, and Research), Singapore 138673, Singapore;

出版信息

Genes Dev. 2015 Nov 1;29(21):2312-24. doi: 10.1101/gad.261925.115.

DOI:10.1101/gad.261925.115

PMID:26545815

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4647563/

Abstract

Postnatal spermatogonial stem cells (SSCs) progress through proliferative and developmental stages to populate the testicular niche prior to productive spermatogenesis. To better understand, we conducted extensive genomic profiling at multiple postnatal stages on subpopulations enriched for particular markers (THY1, KIT, OCT4, ID4, or GFRa1). Overall, our profiles suggest three broad populations of spermatogonia in juveniles: (1) epithelial-like spermatogonia (THY1(+); high OCT4, ID4, and GFRa1), (2) more abundant mesenchymal-like spermatogonia (THY1(+); moderate OCT4 and ID4; high mesenchymal markers), and (3) (in older juveniles) abundant spermatogonia committing to gametogenesis (high KIT(+)). Epithelial-like spermatogonia displayed the expected imprinting patterns, but, surprisingly, mesenchymal-like spermatogonia lacked imprinting specifically at paternally imprinted loci but fully restored imprinting prior to puberty. Furthermore, mesenchymal-like spermatogonia also displayed developmentally linked DNA demethylation at meiotic genes and also at certain monoallelic neural genes (e.g., protocadherins and olfactory receptors). We also reveal novel candidate receptor-ligand networks involving SSCs and the developing niche. Taken together, neonates/juveniles contain heterogeneous epithelial-like or mesenchymal-like spermatogonial populations, with the latter displaying extensive DNA methylation/chromatin dynamics. We speculate that this plasticity helps SSCs proliferate and migrate within the developing seminiferous tubule, with proper niche interaction and membrane attachment reverting mesenchymal-like spermatogonial subtype cells back to an epithelial-like state with normal imprinting profiles.

摘要

出生后的精原干细胞（SSCs）在进行有成效的精子发生之前，要经历增殖和发育阶段以占据睾丸微环境。为了更好地理解这一过程，我们在多个出生后阶段对富含特定标志物（THY1、KIT、OCT4、ID4或GFRa1）的亚群进行了广泛的基因组分析。总体而言，我们的分析表明幼年精原细胞有三大类群：（1）上皮样精原细胞（THY1(+)；高表达OCT4、ID4和GFRa1），（2）数量更多的间充质样精原细胞（THY1(+)；中等水平的OCT4和ID4；高表达间充质标志物），以及（3）（在较大的幼年个体中）大量进入配子发生阶段的精原细胞（高表达KIT(+)）。上皮样精原细胞呈现出预期的印记模式，但令人惊讶的是，间充质样精原细胞在父本印记位点特异性缺乏印记，但在青春期前完全恢复了印记。此外，间充质样精原细胞在减数分裂基因以及某些单等位基因神经基因（如原钙黏蛋白和嗅觉受体）处也表现出与发育相关的DNA去甲基化。我们还揭示了涉及SSCs和发育中的微环境的新型候选受体 - 配体网络。综上所述，新生儿/幼年个体含有异质性上皮样或间充质样精原细胞群体，后者表现出广泛的DNA甲基化/染色质动态变化。我们推测这种可塑性有助于SSCs在发育中的生精小管内增殖和迁移，通过适当的微环境相互作用和膜附着，使间充质样精原细胞亚型细胞恢复到具有正常印记模式的上皮样状态。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8ae6/4647563/99df99cbb3a7/2312f01.jpg

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出生后雄性生殖系干细胞发育过程中的转录和印记动态

Transcription and imprinting dynamics in developing postnatal male germline stem cells.

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