转录因子动力学、振荡及其在人肠内分泌细胞分化中的功能。

Transcription factor dynamics, oscillation, and functions in human enteroendocrine cell differentiation.

机构信息

Department of Medical Oncology, Dana-Farber Cancer Institute, Boston, MA 02215, USA; Center for Functional Cancer Epigenetics, Dana-Farber Cancer Institute, Boston, MA 02215, USA.

Division of Regenerative Medicine, Department of Medicine, Weill Cornell Medicine, New York, NY 10065, USA.

出版信息

Cell Stem Cell. 2024 Jul 5;31(7):1038-1057.e11. doi: 10.1016/j.stem.2024.04.015. Epub 2024 May 10.

DOI:10.1016/j.stem.2024.04.015

PMID:38733993

Abstract

Enteroendocrine cells (EECs) secrete serotonin (enterochromaffin [EC] cells) or specific peptide hormones (non-EC cells) that serve vital metabolic functions. The basis for terminal EEC diversity remains obscure. By forcing activity of the transcription factor (TF) NEUROG3 in 2D cultures of human intestinal stem cells, we replicated physiologic EEC differentiation and examined transcriptional and cis-regulatory dynamics that culminate in discrete cell types. Abundant EEC precursors expressed stage-specific genes and TFs. Before expressing pre-terminal NEUROD1, post-mitotic precursors oscillated between transcriptionally distinct ASCL1 and HES6 cell states. Loss of either factor accelerated EEC differentiation substantially and disrupted EEC individuality; ASCL1 or NEUROD1 deficiency had opposing consequences on EC and non-EC cell features. These TFs mainly bind cis-elements that are accessible in undifferentiated stem cells, and they tailor subsequent expression of TF combinations that underlie discrete EEC identities. Thus, early TF oscillations retard EEC maturation to enable accurate diversity within a medically important cell lineage.

摘要

肠内分泌细胞（EECs）分泌 5-羟色胺（肠嗜铬细胞[EC]细胞）或特定的肽类激素（非 EC 细胞），这些物质对代谢功能至关重要。EEC 终末分化的基础仍不清楚。通过在人类肠干细胞的 2D 培养物中强制激活转录因子（TF）NEUROG3，我们复制了生理 EEC 分化，并研究了导致不同细胞类型的转录和顺式调控动态。大量的 EEC 前体表达了阶段特异性基因和 TF。在表达前末端 NEUROD1 之前，有丝分裂后的前体细胞在转录上明显不同的 ASCL1 和 HES6 细胞状态之间振荡。任一因子的缺失都会大大加速 EEC 分化，并破坏 EEC 的个体性；ASCL1 或 NEUROD1 的缺乏对 EC 和非 EC 细胞特征有相反的影响。这些 TF 主要结合在未分化干细胞中可及的顺式元件，并调整随后表达的 TF 组合，从而形成不同的 EEC 身份。因此，早期 TF 振荡会延缓 EEC 的成熟，从而在医学上重要的细胞谱系中实现准确的多样性。

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转录因子动力学、振荡及其在人肠内分泌细胞分化中的功能。

Transcription factor dynamics, oscillation, and functions in human enteroendocrine cell differentiation.

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