Abstract
The structure and function of ion channels are sensitive to direct interactions with lipids of the membrane and to the biophysical properties of the membrane microenvironment, such that membrane fluidity, lateral pressure profile, and thickness can modulate the channels. Cholesterol plays a significant role in regulating membrane fluidity and is capable of phase separation where cholesterol will spontaneously separate into its own domain, which is partially responsible for developing two distinct domains within the membrane. These ordered domains are regions of high cholesterol and low fluidity, and the disordered domains are regions of low cholesterol and high fluidity. Here we examine and provide evidence of the presence of ordered cholesterol membrane domains in capillary endothelial cells. We will test the hypothesis that capillary endothelial cell ordered domains function as a signaling hub for different phospholipids regulating ion channel function. Using the isolated retinal vasculature, confocal microscopy, and fluorescent Bodipy-cholesterol, a marker of ordered lipid domains, we observed large regions approximately 2.3± 0.9 μm long of cholesterol ordered meso-domains within capillary endothelial cells and not the feeding arteriole. To determine the dynamic nature of these meso-domains, we used membrane-disordering drugs to disrupt the organization of membrane lipids. The ordered meso-domains display dynamic membrane disordering by ethanol and can re-cluster into the large ordered meso-domains. In addition, we observed that the critical signaling phospholipid phosphatidylinositol 4,5-bisphosphate (PIP2) co-localized with the ordered meso-domains. To determine the cooperativity between these lipid molecules, we examined the effects of ethanol-dependent disordering of cholesterol on the membrane localization of PIP2. In addition, we examined the effects of PIP2 depletion with the G-protein couple receptor agonist, U46619, on the disordered state of the cholesterol meso-domains. These data suggest that ordered meso-domains might play a role as a signaling hub affecting the membrane fluidity and bioavailability of signaling lipids modulating ion channel function in capillary endothelial cell. This is the full abstract presented at the American Physiology Summit 2023 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
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