前列腺发育过程中中间细胞群的细胞命运

Xiaoyu Zhang , Jian Wang , Wangxin Guo , Hongjiong Zhang , Bin Zhou , Chen Yu , Dong Gao
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引用次数: 0

摘要

器官发育、再生和癌症诱发通常受到组织特异性干细胞增殖和系谱可塑性的影响。前列腺中间细胞具有基底细胞和管腔细胞的特征,在病理状态和器官发育过程中十分普遍。然而,人们对这些中间细胞在前列腺发育过程中的身份、命运和功能还不甚了解。通过对新生儿泌尿生殖窦组织进行单细胞RNA-seq分析,我们发现了具有干细胞潜能的中间细胞。在前列腺发育过程中,我们观察到中间细胞数量明显减少。通过增强型双重组酶介导的基因追踪系统,前列腺中间细胞在出生后早期和晚期发育过程中被特异性标记。我们的研究结果表明,这些细胞具有显著的干细胞能力,这在类器官形成和细胞命运图谱实验中得到了证实。这些中间细胞还表现出内在的双潜能特性,使它们能够分化成基底细胞和管腔细胞。此外,我们还发现了在前列腺发育过程中从表达神经内分泌标记的中间细胞向神经内分泌细胞的新转变。这项研究强调了中间细胞是一种重要的干细胞群,并加深了我们对它们在前列腺发育和前列腺癌血统可塑性中的作用的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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The cell fates of intermediate cell population in prostate development

Organ development, regeneration and cancer initiation are typically influenced by the proliferation and lineage plasticity of tissue-specific stem cells. Prostate intermediate cells, which exhibit characteristics of both basal and luminal cells, are prevalent in pathological states and during organ development. However, the identity, fate and function of these intermediate cells in prostate development are not well understood. Through single-cell RNA-seq analysis on neonatal urogenital sinus tissue, we identified intermediate cells exhibiting stem cell potential. A notable decline in the population of intermediate cells was observed during prostate development. Prostate intermediate cells were specifically labeled in early and late postnatal development by the enhanced dual-recombinase-mediated genetic tracing systems. Our findings revealed that these cells possess significant stem cell capabilities as demonstrated in organoid formation and cell fate mapping assays. These intermediate cells also exhibited intrinsic bipotential properties, enabling them to differentiate into both basal and luminal cells. Additionally, we discovered a novel transition from intermediate cell expressing neuroendocrine markers to neuroendocrine cell during prostate development. This study highlights intermediate cells as a crucial stem cell population and enhances our understanding of their role in prostate development and the plasticity of prostate cancer lineage.

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来源期刊
Cell insight
Cell insight Neuroscience (General), Biochemistry, Genetics and Molecular Biology (General), Cancer Research, Cell Biology
CiteScore
2.70
自引率
0.00%
发文量
0
审稿时长
35 days
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