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利用NIP-CRE在体内绘制Notch1蛋白水解的结果。

Mapping the consequence of Notch1 proteolysis in vivo with NIP-CRE.

作者信息

Vooijs Marc, Ong Chin-Tong, Hadland Brandon, Huppert Stacey, Liu Zhenyi, Korving Jeroen, van den Born Maaike, Stappenbeck Thaddeus, Wu Yumei, Clevers Hans, Kopan Raphael

机构信息

Department of Molecular Biology and Pharmacology and the Department of Medicine, Division of Dermatology, Washington University Medical School, St Louis, MO 63110, USA.

出版信息

Development. 2007 Feb;134(3):535-44. doi: 10.1242/dev.02733.

DOI:10.1242/dev.02733
PMID:17215306
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2583343/
Abstract

The four highly conserved Notch receptors receive short-range signals that control many biological processes during development and in adult vertebrate tissues. The involvement of Notch1 signaling in tissue self-renewal is less clear, however. We developed a novel genetic approach N(1)IP-CRE (Notch1 Intramembrane Proteolysis) to follow, at high resolution, the descendents of cells experiencing Notch1 activation in the mouse. By combining N(1)IP-CRE with loss-of-function analysis, Notch activation patterns were correlated with function during development, self-renewal and malignancy in selected tissues. Identification of many known functions of Notch1 throughout development validated the utility of this approach. Importantly, novel roles for Notch1 signaling were identified in heart, vasculature, retina and in the stem cell compartments of self-renewing epithelia. We find that the probability of Notch1 activation in different tissues does not always indicate a requirement for this receptor and that gradients of Notch1 activation are evident within one organ. These findings highlight an underappreciated layer of complexity of Notch signaling in vivo. Moreover, NIP-CRE represents a general strategy applicable for monitoring proteolysis-dependent signaling in vivo.

摘要

四种高度保守的Notch受体接收短程信号,这些信号在发育过程以及成年脊椎动物组织中控制着许多生物学过程。然而,Notch1信号传导在组织自我更新中的作用尚不清楚。我们开发了一种新的遗传方法N(1)IP-CRE(Notch1膜内蛋白水解),以高分辨率追踪小鼠中经历Notch1激活的细胞的后代。通过将N(1)IP-CRE与功能丧失分析相结合,Notch激活模式与选定组织在发育、自我更新和恶性肿瘤过程中的功能相关联。在整个发育过程中对Notch1许多已知功能的鉴定验证了该方法的实用性。重要的是,在心脏、血管、视网膜以及自我更新上皮的干细胞区室中发现了Notch1信号传导的新作用。我们发现,Notch1在不同组织中的激活概率并不总是表明该受体的必要性,并且在一个器官内Notch1激活梯度是明显的。这些发现突出了体内Notch信号传导中一个未被充分认识的复杂层面。此外,NIP-CRE代表了一种适用于监测体内蛋白水解依赖性信号传导的通用策略。

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