基于数据驱动和生物物理学的细胞外基质硬度对运输囊泡调控的见解

Data driven and biophysical insights into the regulation of trafficking vesicles by extracellular matrix stiffness.

作者信息

Parihar Kshitiz, Nukpezah Jonathan, Iwamoto Daniel V, Janmey Paul A, Radhakrishnan Ravi

机构信息

Department of Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA 19104, USA.

Department of Bioengineering, University of Pennsylvania, Philadelphia, PA 19104, USA.

出版信息

iScience. 2022 Jul 4;25(8):104721. doi: 10.1016/j.isci.2022.104721. eCollection 2022 Aug 19.

DOI:10.1016/j.isci.2022.104721

PMID:35865140

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9293776/

Abstract

Biomechanical signals from remodeled extracellular matrix (ECM) promote tumor progression. Here, we show that cell-matrix and cell-cell communication may be inherently linked and tuned through mechanisms of mechanosensitive biogenesis of trafficking vesicles. Pan-cancer analysis of cancer cells' mechanical properties (focusing primarily on cell stiffness) on substrates of varied stiffness and composition elucidated a heterogeneous cellular response to mechanical stimuli. Through machine learning, we identified a fingerprint of cytoskeleton-related proteins that accurately characterize cell stiffness in different ECM conditions. Expression of their respective genes correlates with patient prognosis across different tumor types. The levels of selected cytoskeleton proteins indicated that cortical tension mirrors the increase (or decrease) in cell stiffness with a change in ECM stiffness. A mechanistic biophysical model shows that the tendency for curvature generation by curvature-inducing proteins has an ultrasensitive dependence on cortical tension. This study thus highlights the effect of ECM stiffness, mediated by cortical tension, in modulating vesicle biogenesis.

摘要

来自重塑细胞外基质（ECM）的生物力学信号促进肿瘤进展。在此，我们表明细胞与基质以及细胞与细胞之间的通讯可能通过机械敏感的运输囊泡生物发生机制内在地联系在一起并得到调节。对癌细胞在不同硬度和组成的基质上的力学特性（主要关注细胞硬度）进行泛癌分析，阐明了细胞对机械刺激的异质性反应。通过机器学习，我们确定了一组与细胞骨架相关的蛋白质指纹，可准确表征不同ECM条件下的细胞硬度。它们各自基因的表达与不同肿瘤类型患者的预后相关。所选细胞骨架蛋白的水平表明，皮质张力反映了随着ECM硬度变化细胞硬度的增加（或降低）。一个机械生物物理模型表明，由曲率诱导蛋白产生曲率的趋势对皮质张力具有超敏感依赖性。因此，本研究突出了由皮质张力介导的ECM硬度在调节囊泡生物发生中的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0373/9293776/55d4f806faac/fx1.jpg

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基于数据驱动和生物物理学的细胞外基质硬度对运输囊泡调控的见解

Data driven and biophysical insights into the regulation of trafficking vesicles by extracellular matrix stiffness.

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