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RNA 结合蛋白 DDX5 指导微绒毛细胞的特化和功能,以调节肠道中的微生物组成和疾病易感性。

RNA binding protein DDX5 directs tuft cell specification and function to regulate microbial repertoire and disease susceptibility in the intestine.

机构信息

Department of Cellular and Molecular Medicine, University of California San Diego, La Jolla, California, USA.

Department of Pathology, University of California San Diego, La Jolla, California, USA.

出版信息

Gut. 2022 Sep;71(9):1790-1802. doi: 10.1136/gutjnl-2021-324984. Epub 2021 Dec 1.

DOI:10.1136/gutjnl-2021-324984
PMID:34853057
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9156727/
Abstract

OBJECTIVE

Tuft cells residing in the intestinal epithelium have diverse functions. In the small intestine, they provide protection against inflammation, combat against helminth and protist infections, and serve as entry portals for enteroviruses. In the colon, they had been implicated in tumourigenesis. Commitment of intestinal progenitor cells to the tuft cell lineage requires Rho GTPase Cell Division Cycle 42 (CDC42), a Rho GTPase that acts downstream of the epidermal growth factor receptor and wingless-related integration site signalling cascades, and the master transcription factor POU class 2 homeobox 3 (POU2F3). This study investigates how this pathway is regulated by the DEAD box containing RNA binding protein DDX5 in vivo.

DESIGN

We assessed the role of DDX5 in tuft cell specification and function in control and epithelial cell-specific knockout mice (DDX5) using transcriptomic approaches.

RESULTS

DDX5 mice harboured a loss of intestinal tuft cell populations, modified microbial repertoire, and altered susceptibilities to ileal inflammation and colonic tumourigenesis. Mechanistically, DDX5 promotes CDC42 protein synthesis through a post-transcriptional mechanism to license tuft cell specification. Importantly, the DDX5-CDC42 axis is parallel but distinct from the known interleukin-13 circuit implicated in tuft cell hyperplasia, and both pathways augment expression in secretory lineage progenitors. In mature tuft cells, DDX5 not only promotes integrin signalling and microbial responses, it also represses gene programmes involved in membrane transport and lipid metabolism.

CONCLUSION

RNA binding protein DDX5 directs tuft cell specification and function to regulate microbial repertoire and disease susceptibility in the intestine.

摘要

目的

驻留在肠上皮的微绒毛细胞具有多种功能。在小肠中,它们提供了对炎症的保护,抵御蠕虫和原生动物感染,并作为肠道病毒进入的门户。在结肠中,它们与肿瘤发生有关。肠祖细胞向微绒毛细胞谱系的分化需要 Rho GTPase 细胞分裂周期 42(CDC42),这是一种 Rho GTPase,作用于表皮生长因子受体和 Wnt 相关整合位点信号级联的下游,以及主转录因子 POU 类 2 同源盒 3(POU2F3)。本研究调查了 DEAD 框包含的 RNA 结合蛋白 DDX5 在体内如何调节这条通路。

设计

我们使用转录组学方法评估了 DDX5 在控制和上皮细胞特异性 knockout 小鼠(DDX5)中微绒毛细胞特化和功能中的作用。

结果

DDX5 小鼠存在肠道微绒毛细胞群的缺失、微生物谱的改变,以及对回肠炎和结肠肿瘤发生的易感性改变。从机制上讲,DDX5 通过一种转录后机制促进 CDC42 蛋白的合成,从而获得微绒毛细胞的特化。重要的是,DDX5-CDC42 轴是平行但不同于已知的参与微绒毛细胞增生的白细胞介素 13 回路,这两个途径都在分泌谱系祖细胞中增强 表达。在成熟的微绒毛细胞中,DDX5 不仅促进整合素信号和微生物反应,还抑制参与膜转运和脂质代谢的基因程序。

结论

RNA 结合蛋白 DDX5 指导微绒毛细胞的特化和功能,以调节肠道中的微生物谱和疾病易感性。

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