TGFB1 诱导胎儿重编程并增强肠道再生。

TGFB1 induces fetal reprogramming and enhances intestinal regeneration.

机构信息

School of Life Science and Technology, Key Laboratory of Developmental Genes and Human Disease, Southeast University, Nanjing 210096, China.

Department of Genetics, Human Genetics Institute of New Jersey, Rutgers University, Piscataway, NJ 00854, USA.

出版信息

Cell Stem Cell. 2023 Nov 2;30(11):1520-1537.e8. doi: 10.1016/j.stem.2023.09.015. Epub 2023 Oct 20.

DOI:10.1016/j.stem.2023.09.015

PMID:37865088

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10841757/

Abstract

The gut epithelium has a remarkable ability to recover from damage. We employed a combination of high-throughput sequencing approaches, mouse genetics, and murine and human organoids and identified a role for TGFB signaling during intestinal regeneration following injury. At 2 days following irradiation (IR)-induced damage of intestinal crypts, a surge in TGFB1 expression is mediated by monocyte/macrophage cells at the location of damage. The depletion of macrophages or genetic disruption of TGFB signaling significantly impaired the regenerative response. Intestinal regeneration is characterized by the induction of a fetal-like transcriptional signature during repair. In organoid culture, TGFB1 treatment was necessary and sufficient to induce the fetal-like/regenerative state. Mesenchymal cells were also responsive to TGFB1 and enhanced the regenerative response. Mechanistically, pro-regenerative factors, YAP/TEAD and SOX9, are activated in the epithelium exposed to TGFB1. Finally, pre-treatment with TGFB1 enhanced the ability of primary epithelial cultures to engraft into damaged murine colon, suggesting promise for cellular therapy.

摘要

肠道上皮具有很强的损伤修复能力。我们采用高通量测序方法、小鼠遗传学以及小鼠和人类类器官相结合的方法，鉴定出 TGFB 信号在损伤后肠道再生过程中的作用。在辐射（IR）诱导的肠隐窝损伤后 2 天，损伤部位的单核细胞/巨噬细胞细胞介导 TGFB1 表达的激增。巨噬细胞耗竭或 TGFB 信号的遗传破坏显著损害了再生反应。肠道再生的特征是在修复过程中诱导出一种类似胎儿的转录特征。在类器官培养中，TGFB1 处理是诱导类似胎儿/再生状态所必需和充分的。间充质细胞对 TGFB1 也有反应，并增强了再生反应。从机制上讲，暴露于 TGFB1 的上皮细胞中激活了促再生因子 YAP/TEAD 和 SOX9。最后，TGFB1 的预处理增强了原代上皮培养物在损伤的小鼠结肠中植入的能力，这表明细胞治疗具有前景。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8db8/10841757/05609d2a1102/nihms-1936684-f0002.jpg

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