期刊
AMERICAN JOURNAL OF PHYSIOLOGY-CELL PHYSIOLOGY
卷 301, 期 2, 页码 C451-C460出版社
AMER PHYSIOLOGICAL SOC
DOI: 10.1152/ajpcell.00458.2010
关键词
flow; cell deactivation; pseudopod retraction; mechanotransduction; hypercholesterolemia
资金
- National Institutes of Health [HL10881, HL083740]
- University of Kentucky
- American Heart Association
- National Science Foundation
Zhang X, Hurng J, Rateri DL, Daugherty A, Schmid-Schonbein GW, Shin HY. Membrane cholesterol modulates the fluid shear stress response of polymorphonuclear leukocytes via its effects on membrane fluidity. Am J Physiol Cell Physiol 301: C451-C460, 2011. First published April 27, 2011; doi: 10.1152/ajpcell.00458.2010.-Continuous exposure of polymorphonuclear leukocytes (PMNLs) to circulatory hemodynamics points to fluid flow as a biophysical regulator of their activity. Specifically, fluid flow-derived shear stresses deactivate leukocytes via actions on the conformational activities of proteins on the cell surface. Because membrane properties affect activities of membrane-bound proteins, we hypothesized that changes in the physical properties of cell membranes influence PMNL sensitivity to fluid shear stress. For this purpose, we modified PMNL membranes and showed that the cellular mechanosensitivity to shear was impaired whether we increased, reduced, or disrupted the organization of cholesterol within the lipid bilayer. Notably, PMNLs with enriched membrane cholesterol exhibited attenuated pseudopod retraction responses to shear that were recovered by select concentrations of benzyl alcohol (a membrane fluidizer). In fact, PMNL responses to shear positively correlated (R-2 = 0.96; P < 0.0001) with cholesterol-related membrane fluidity. Moreover, in low-density lipoprotein receptor-deficient (LDLr-/-) mice fed a high-fat diet (a hypercholesterolemia model), PMNL shear-responses correlated (R-2 = 0.5; P < 0.01) with blood concentrations of unesterified (i.e., free) cholesterol. In this regard, the shear-responses of PMNLs gradually diminished and eventually reversed as free cholesterol levels in blood increased during 8 wk of the high-fat diet. Collectively, our results provided evidence that cholesterol is an important component of the PMNL mechanotransducing capacity and elevated membrane cholesterol impairs PMNL shear-responses at least partially through its impact on membrane fluidity. This cholesterol-linked perturbation may contribute to dysregulated PMNL activity (e. g., chronic inflammation) related to hypercholesterolemia and causal for cardiovascular pathologies (e. g., atherosclerosis).
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