定量活细胞成像和计算建模为内源性 WNT/CTNNB1 信号转导动力学提供了新的见解。

Quantitative live-cell imaging and computational modeling shed new light on endogenous WNT/CTNNB1 signaling dynamics.

机构信息

Developmental, Stem Cell and Cancer Biology, Swammerdam Institute for Life Sciences, University of Amsterdam, Amsterdam, Netherlands.

Biosystems Data Analysis, Swammerdam Institute for Life Sciences, University of Amsterdam, Amsterdam, Netherlands.

出版信息

Elife. 2021 Jun 30;10:e66440. doi: 10.7554/eLife.66440.

DOI:10.7554/eLife.66440

PMID:34190040

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8341982/

Abstract

WNT/CTNNB1 signaling regulates tissue development and homeostasis in all multicellular animals, but the underlying molecular mechanism remains incompletely understood. Specifically, quantitative insight into endogenous protein behavior is missing. Here, we combine CRISPR/Cas9-mediated genome editing and quantitative live-cell microscopy to measure the dynamics, diffusion characteristics and absolute concentrations of fluorescently tagged, endogenous CTNNB1 in human cells under both physiological and oncogenic conditions. State-of-the-art imaging reveals that a substantial fraction of CTNNB1 resides in slow-diffusing cytoplasmic complexes, irrespective of the activation status of the pathway. This cytoplasmic CTNNB1 complex undergoes a major reduction in size when WNT/CTNNB1 is (hyper)activated. Based on our biophysical measurements, we build a computational model of WNT/CTNNB1 signaling. Our integrated experimental and computational approach reveals that WNT pathway activation regulates the dynamic distribution of free and complexed CTNNB1 across different subcellular compartments through three regulatory nodes: the destruction complex, nucleocytoplasmic shuttling, and nuclear retention.

摘要

WNT/CTNNB1 信号通路调节所有多细胞动物的组织发育和稳态，但其中的分子机制仍不完全清楚。具体来说，内源性蛋白质行为的定量洞察力还很缺乏。在这里，我们结合 CRISPR/Cas9 介导的基因组编辑和定量活细胞显微镜技术，在生理和致癌条件下，测量了荧光标记的内源性 CTNNB1 在人类细胞中的动力学、扩散特性和绝对浓度。最先进的成像技术揭示，无论通路的激活状态如何，相当一部分 CTNNB1 都位于缓慢扩散的细胞质复合物中。当 WNT/CTNNB1 被（过度）激活时，细胞质 CTNNB1 复合物的大小会发生显著减小。基于我们的生物物理测量，我们构建了一个 WNT/CTNNB1 信号转导的计算模型。我们的综合实验和计算方法揭示，WNT 通路的激活通过三个调节节点（即破坏复合物、核质穿梭和核保留）来调节游离和结合的 CTNNB1 在不同亚细胞区室之间的动态分布：破坏复合物、核质穿梭和核保留。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2e54/8341982/6ce81155deaf/elife-66440-fig1.jpg

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定量活细胞成像和计算建模为内源性 WNT/CTNNB1 信号转导动力学提供了新的见解。

Quantitative live-cell imaging and computational modeling shed new light on endogenous WNT/CTNNB1 signaling dynamics.

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