Summary
Electron spin resonance (ESR) studies of human erythrocyte ghosts labeled with 5-nitroxide stearate, I(12,3), indicate that a temperature-dependent lipid phase separation occurs with a high onset at 38°C. Cooling below 38°C induces I(12,3) clustering. Similar phase separations were previously identified in human platelet and cholesterol-loaded [cholesterol/phospholipid molar ratio (C/P)=0.85] rat liver plasma membranes [L.M. Gordon et al., 1983;J. Membrane Biol. 76; 139–149]; these were attributed to redistribution of endogenous lipid components such that I(12,3) is excluded from cholesterol-rich domains and tends to reside in cholesterol-poor domains. Further enrichment of rat liver plasma membranes to C/P ratios of 0.94–0.98 creates an “artificial” system equivalent to human erythrocyte ghosts (C/P=0.90), using such criteria as probe flexibility, temperature dependent I(12,3) clustering; and polarity of the probe environment. Consequently, cholesterol-rich and-poor domains probably exist in both erythrocyte ghosts and high cholesterol liver membranes at physiologic temperatures. The temperature dependence of cold-induced hypertonic lysis of intact human erythrocytes was examined by incubating cells in 0.9m sucrose for 10 min at 1°C intervals between 9 and 46°C (Stage 1), and then subjecting them to 0°C for 10 min (Stage 2). Plots of released hemoglobin are approx. sigmoidal, with no lysis below 18°C and maximal lysis above 40°C. The protective effect of low temperatures during Stage 1 may be due to the formation of cholesterol-rich domains that alter the bilayer distribution and/or conformation of critical membrane-associated proteins.
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Gordon, L.M., Mobley, P.W. Thermotropic lipid phase separations in human erythrocyte ghosts and cholesterol-enriched rat liver plasma membranes. J. Membrain Biol. 79, 75–86 (1984). https://doi.org/10.1007/BF01868528
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DOI: https://doi.org/10.1007/BF01868528