Dynamic Self-Reinforcement of Gene Expression Determines Acquisition and Retention of Cellular Mechanical Memory

Author:

Price Christopher C.ORCID,Mathur Jairaj,Boerckel Joel D.ORCID,Pathak AmitORCID,Shenoy Vivek B.

Abstract

AbstractMechanotransduction describes activation of gene expression by changes in the cell’s physical microenvironment. Recent experiments show that mechanotransduction can lead to long-term “mechanical memory”, where cells cultured on stiff substrates for sufficient time (priming phase) maintain altered phenotype after switching to soft substrates (dissipation phase), as compared to unprimed controls. The timescale of memory acquisition and retention is orders of magnitude larger than the timescale of mechanosensitive cellular signaling, and memory retention time changes continuously with priming time. We develop a model that captures these features by accounting for positive reinforcement in mechanical signaling. The sensitivity of reinforcement represents the dynamic transcriptional state of the cell composed of protein lifetimes and 3D chromatin organization. Our model provides a single framework connecting microenvironment mechanical history to cellular outcomes ranging from no memory to terminal differentiation. Predicting cellular memory of environmental changes can help engineer cellular dynamics through changes in culture environments.

Publisher

Cold Spring Harbor Laboratory

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