损伤诱导的 BMP 信号负调控果蝇肠道内稳态。

Injury-induced BMP signaling negatively regulates Drosophila midgut homeostasis.

机构信息

Department of Genetics and Development, Columbia University Medical Center, New York, NY 10032, USA.

出版信息

J Cell Biol. 2013 Jun 10;201(6):945-61. doi: 10.1083/jcb.201302049. Epub 2013 Jun 3.

DOI:10.1083/jcb.201302049

PMID:23733344

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3678160/

Abstract

Although much is known about injury-induced signals that increase rates of Drosophila melanogaster midgut intestinal stem cell (ISC) proliferation, it is largely unknown how ISC activity returns to quiescence after injury. In this paper, we show that the bone morphogenetic protein (BMP) signaling pathway has dual functions during midgut homeostasis. Constitutive BMP signaling pathway activation in the middle midgut mediated regional specification by promoting copper cell differentiation. In the anterior and posterior midgut, injury-induced BMP signaling acted autonomously in ISCs to limit proliferation and stem cell number after injury. Loss of BMP signaling pathway members in the midgut epithelium or loss of the BMP signaling ligand decapentaplegic from visceral muscle resulted in phenotypes similar to those described for juvenile polyposis syndrome, a human intestinal tumor caused by mutations in BMP signaling pathway components. Our data establish a new link between injury and hyperplasia and may provide insight into how BMP signaling mutations drive formation of human intestinal cancers.

摘要

虽然人们对损伤诱导的信号如何增加果蝇黑腹果蝇中肠肠干细胞 (ISC) 的增殖率有了很多了解，但对于 ISC 活性在损伤后如何恢复静止状态还知之甚少。在本文中，我们表明骨形态发生蛋白 (BMP) 信号通路在中肠稳态中具有双重功能。中肠中部组成性 BMP 信号通路的激活通过促进铜细胞分化来介导区域特化。在前肠和后肠中，损伤诱导的 BMP 信号通路在 ISC 中自主发挥作用，以限制损伤后增殖和干细胞数量。中肠上皮细胞中 BMP 信号通路成员的缺失或内脏肌肉中 BMP 信号配体 decapentaplegic 的缺失导致的表型类似于人类肠道肿瘤少年息肉病综合征，这是由 BMP 信号通路成分突变引起的人类肠道肿瘤。我们的数据在损伤和增生之间建立了新的联系，并可能为 BMP 信号通路突变如何导致人类肠道癌症的形成提供了一些见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/924b/3678160/13c2390ef1ff/JCB_201302049_Fig1.jpg

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损伤诱导的 BMP 信号负调控果蝇肠道内稳态。

Injury-induced BMP signaling negatively regulates Drosophila midgut homeostasis.

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