%0 Journal Article
%T Cholesterol depletion does not alter the capacitance or Ca handling of the surface or t©\tubule membranes in mouse ventricular myocytes
%A Andrew F. James
%A Cherrie H. T. Kong
%A Clive H. Orchard
%A Hanne C. Gadeberg
%A Simon M. Bryant
%J Archive of "Physiological Reports".
%D 2017
%R 10.14814/phy2.13500
%X Cholesterol is a key component of the cell plasma membrane. It has been suggested that the t©\tubule membrane of cardiac ventricular myocytes is enriched in cholesterol and that this plays a role in determining t©\tubule structure and function. We have used methyl©\¦Â©\cyclodextrin (M¦Â CD) to deplete cholesterol in intact and detubulated mouse ventricular myocytes to investigate the contribution of cholesterol to t©\tubule structure, membrane capacitance, and the distribution of Ca flux pathways. Depletion of membrane cholesterol was confirmed using filipin; however, di©\8©\ANEPPS staining showed no differences in t©\tubule structure following M¦Â CD treatment. M¦Â CD treatment had no significant effect on the capacitance:volume relationship of intact myocytes or on the decrease in capacitance:volume caused by detubulation. Similarly, Ca influx and efflux were not altered by M¦Â CD treatment and were reduced by a similar amount following detubulation in untreated and M¦Â CD©\treated cells. These data show that cholesterol depletion has similar effects on the surface and t©\tubule membranes and suggest that cholesterol plays no acute role in determining t©\tubule structure and function
%K Cholesterol
%K methyl©\¦Â©\cyclodextrin
%K t©\tubules
%U https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5704078/