Cell Shape Regulates Subcellular Organelle Location to Control Early Ca Signal Dynamics in Vascular Smooth Muscle Cells

Overview

Journal Sci Rep

Specialty Science

Date 2020 Oct 21

PMID 33082406

Citations 18

Authors

R C Calizo

M K Bell

A Ron

M Hu

S Bhattacharya

N J Wong

W G M Janssen

G Perumal

P Pederson

S Scarlata

J Hone

E U Azeloglu

P Rangamani

R Iyengar

Affiliations

Soon will be listed here.

Abstract

The shape of the cell is connected to its function; however, we do not fully understand underlying mechanisms by which global shape regulates a cell's functional capabilities. Using theory, experiments and simulation, we investigated how physiologically relevant cell shape changes affect subcellular organization, and consequently intracellular signaling, to control information flow needed for phenotypic function. Vascular smooth muscle cells going from a proliferative and motile circular shape to a contractile fusiform shape show changes in the location of the sarcoplasmic reticulum, inter-organelle distances, and differential distribution of receptors in the plasma membrane. These factors together lead to the modulation of signals transduced by the M muscarinic receptor/G/PLCβ pathway at the plasma membrane, amplifying Ca dynamics in the cytoplasm, and the nucleus resulting in phenotypic changes, as determined by increased activity of myosin light chain kinase in the cytoplasm and enhanced nuclear localization of the transcription factor NFAT. Taken together, our observations show a systems level phenomenon whereby global cell shape affects subcellular organization to modulate signaling that enables phenotypic changes.

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