RET Signaling Persists in the Adult Intestine and Stimulates Motility by Limiting PYY Release From Enteroendocrine Cells

IF 25.7 1区医学 Q1 GASTROENTEROLOGY & HEPATOLOGY

Gastroenterology Pub Date : 2023-11-21 DOI:10.1053/j.gastro.2023.11.020

Amy Shepherd , Laurence Feinstein , Svetlana Sabel , Daniella Rastelli , Esther Mezhibovsky , Lynley Matthews , Anoohya Muppirala , Ariel Robinson , Karina R. Sharma , Abrahim ElSeht , Daniel Zeve , David T. Breault , Michael D. Gershon , Meenakshi Rao

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Abstract

Background & Aims

RET tyrosine kinase is necessary for enteric nervous system development. Loss-of-function RET mutations cause Hirschsprung disease (HSCR), in which infants are born with aganglionic bowel. Despite surgical correction, patients with HSCR often experience chronic defecatory dysfunction and enterocolitis, suggesting that RET is important after development. To test this hypothesis, we determined the location of postnatal RET and its significance in gastrointestinal (GI) motility.

Methods

Ret^CFP/+ mice and human transcriptional profiling data were studied to identify the enteric neuronal and epithelial cells that express RET. To determine whether RET regulates gut motility in vivo, genetic, and pharmacologic approaches were used to disrupt RET in all RET-expressing cells, a subset of enteric neurons, or intestinal epithelial cells.

Results

Distinct subsets of enteric neurons and enteroendocrine cells expressed RET in the adult intestine. RET disruption in the epithelium, rather than in enteric neurons, slowed GI motility selectively in male mice. RET kinase inhibition phenocopied this effect. Most RET⁺ epithelial cells were either enterochromaffin cells that release serotonin or L-cells that release peptide YY (PYY) and glucagon-like peptide 1 (GLP-1), both of which can alter motility. RET kinase inhibition exaggerated PYY and GLP-1 release in a nutrient-dependent manner without altering serotonin secretion in mice and human organoids. PYY receptor blockade rescued dysmotility in mice lacking epithelial RET.

Conclusions

RET signaling normally limits nutrient-dependent peptide release from L-cells and this activity is necessary for normal intestinal motility in male mice. These effects could contribute to dysmotility in HSCR, which predominantly affects males, and uncovers a mechanism that could be targeted to treat post-prandial GI dysfunction.

Abstract Image

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RET信号在成人肠道中持续存在，并通过限制肠内分泌细胞释放PYY来刺激运动

背景,aimret酪氨酸激酶是肠神经系统(ENS)发育所必需的。功能缺失的RET突变导致先天性巨结肠病(HSCR)，其中婴儿出生时患有神经节样肠。尽管手术矫正，HSCR患者经常出现慢性排便功能障碍和小肠结肠炎，这表明RET在发育后很重要。为了验证这一假设，我们确定了出生后RET的位置及其在胃肠道运动中的意义。方法研究retcfp /+小鼠和人的转录谱数据，以鉴定表达RET的肠神经元和上皮细胞。为了确定RET是否在体内调节肠道运动，采用遗传和药理学方法破坏所有表达RET的细胞、肠神经元亚群或肠上皮细胞中的RET。结果成人肠中不同亚群的肠神经元和肠内分泌细胞表达RET。在雄性小鼠中，上皮细胞的RET中断，而不是肠神经元的RET中断，选择性地减缓了GI运动。RET激酶抑制表现了这种效应。大多数RET+上皮细胞要么是释放5-羟色胺(5-HT)的肠色素细胞，要么是释放PYY和GLP-1的l细胞，这两种细胞都能改变运动性。RET激酶抑制以营养依赖的方式增加PYY和GLP-1的释放，而不改变小鼠和人类类器官中5-HT的分泌。结论ret信号通常限制l细胞的营养依赖性肽释放，这种活性对雄性小鼠正常肠道运动是必要的。这些影响可能导致HSCR的运动障碍，主要影响男性，并揭示了一种可以靶向治疗餐后GI功能障碍的机制。

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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来源期刊

Gastroenterology 医学-胃肠肝病学

CiteScore

45.60

自引率

2.40%

发文量

4366

审稿时长

26 days

期刊介绍： Gastroenterology is the most prominent journal in the field of gastrointestinal disease. It is the flagship journal of the American Gastroenterological Association and delivers authoritative coverage of clinical, translational, and basic studies of all aspects of the digestive system, including the liver and pancreas, as well as nutrition. Some regular features of Gastroenterology include original research studies by leading authorities, comprehensive reviews and perspectives on important topics in adult and pediatric gastroenterology and hepatology. The journal also includes features such as editorials, correspondence, and commentaries, as well as special sections like "Mentoring, Education and Training Corner," "Diversity, Equity and Inclusion in GI," "Gastro Digest," "Gastro Curbside Consult," and "Gastro Grand Rounds." Gastroenterology also provides digital media materials such as videos and "GI Rapid Reel" animations. It is abstracted and indexed in various databases including Scopus, Biological Abstracts, Current Contents, Embase, Nutrition Abstracts, Chemical Abstracts, Current Awareness in Biological Sciences, PubMed/Medline, and the Science Citation Index.