Issue 10, 2011

Red blood cell dynamics: from cell deformation to ATP release

Abstract

The mechanisms of red blood cell (RBC) deformation under both static and dynamic, i.e., flow, conditions have been studied extensively since the mid 1960s. Deformation-induced biochemical reactions and possible signaling in RBCs, however, were proposed only fifteen years ago. Therefore, the fundamental relationship between RBC deformation and cellular signaling dynamics i.e., mechanotransduction, remains incompletely understood. Quantitative understanding of the mechanotransductive pathways in RBCs requires integrative studies of physical models of RBC deformation and cellular biochemical reactions. In this article we review the physical models of RBC deformation, spanning from continuum membrane mechanics to cellular skeleton dynamics under both static and flow conditions, and elaborate the mechanistic links involved in deformation-induced ATP release.

Graphical abstract: Red blood cell dynamics: from cell deformation to ATP release

Article information

Article type
Review Article
Submitted
13 May 2011
Accepted
17 Aug 2011
First published
21 Sep 2011

Integr. Biol., 2011,3, 972-981

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