在小鼠精子发生干细胞隔室中功能层次结构和可逆性。
Functional hierarchy and reversibility within the murine spermatogenic stem cell compartment.
机构信息
Department of Pathology and Tumor Biology, Graduate School of Medicine, Kyoto University, Kyoto 606-8501, Japan.
出版信息
Science. 2010 Apr 2;328(5974):62-7. doi: 10.1126/science.1182868. Epub 2010 Mar 18.
Abstract
Stem cells support tissue maintenance by balancing self-renewal and differentiation. In mice, it is believed that a homogeneous stem cell population of single spermatogonia supports spermatogenesis, and that differentiation, which is accompanied by the formation of connected cells (cysts) of increasing length, is linear and nonreversible. We evaluated this model with the use of lineage analysis and live imaging, and found that this putative stem cell population is not homogeneous. Instead, the stem cell pool that supports steady-state spermatogenesis is contained within a subpopulation of single spermatogonia. We also found that cysts are not committed to differentiation and appear to recover stem cell potential by fragmentation, and that the fate of individual spermatogonial populations was markedly altered during regeneration after damage. Thus, there are multiple and reversible paths from stem cells to differentiation, and these may also occur in other systems.
摘要
干细胞通过自我更新和分化来维持组织。在小鼠中,人们认为单个精原细胞的同质干细胞群体支持精子发生,并且分化伴随着连接细胞(囊泡)的形成,其长度逐渐增加,这是线性的且不可逆的。我们使用谱系分析和活体成像来评估这个模型,发现这个假定的干细胞群体不是同质的。相反,支持稳态精子发生的干细胞池包含在单个精原细胞的亚群中。我们还发现,囊泡不决定分化,并且似乎通过碎片化恢复干细胞潜能,并且在损伤后再生期间单个精原细胞群体的命运发生明显改变。因此,从干细胞到分化有多种可逆途径,这些途径也可能发生在其他系统中。
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