Abstract

The function of the actin cytoskeleton in cellular motility and trafficking has been widely studied. However, reorganization of the actin cytoskeleton upon modulation of membrane cholesterol and its consequences on membrane dynamics are addressed only rarely. In a recent work, we reported that chronic cholesterol depletion using statins leads to significant polymerization of the actin cytoskeleton. In this work, we explore the effect of reorganization of the actin cytoskeleton on membrane dynamics under cholesterol-depleted condition. Specifically, we explore the role of actin cytoskeleton in regulating the dynamics of the serotonin1A receptor, a crucial neurotransmitter G protein-coupled receptor (GPCR) that plays a major role in the generation and modulation of cognitive and behavioral functions. For this, we analyzed the lateral dynamics of the serotonin1A receptor in cholesterol-depleted cells (using statins) by fluorescence recovery after photobleaching (FRAP) and fluorescence loss in photobleaching (FLIP) measurements. Our results indicate that lateral diffusion parameters of serotonin1A receptors in normal cells are consistent with models describing the diffusion of molecules in a homogeneous membrane. Interestingly, these parameters are altered in cholesterol-depleted cells and the receptor exhibits dynamic confinement. Notably, our results show that statin-induced dynamic confinement could be reversed by destabilization of the actin cytoskeleton. On a broader perspective, these results assume significance in understanding the modulatory role of the membrane environment on the organization and dynamics of GPCRs in diseases caused by altered cholesterol biosynthesis.

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