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Lipid protein interactions in mitochondria. Spin and fluorescence probe studies on the effect of n-alkanols on phospholipid vesicles and mitochondrial membranes.
Authors:G Lenaz  E Bertoli  G Curatola  L Mazzanti  A Bigi
Institution:1. Istituto di Biochimica, Facoltà di Medicina e Chirurgia, Università di Ancona, Ancona, Italy;2. Department of Molecular Sciences, University of Warwick, Coventry CV4 7AL, England
Abstract:The effect of n-butanol on the mobility of phospholipids in phospholipid vesicles and beef heart mitochondrial membranes has been studied using three stearic acid spin labels having a paramagnetic doxyl group in positions 5,12, and 16, respectively, and the fluorescent probe 1-anilinonaphthalene-8-sulfonate (ANS). The mobility of the spin labels in the phospholipid aliphatic chains increases from the polar heads toward the methyl groups both in vesicles and in mitochondrial membranes; however, in the latter there is a higher constriction of rotational mobility observed at all levels in the lipid bilayer. Butanol determines a moderate increase in mobility of phospholipids in lipid vesicles, but the effect is more striking in the mitochondrial membranes, where the protein-induced constraint of mobility of the fatty acyl chains is removed at low concentrations of the alcohol. Butanol also enhances the mobility of tightly bound phospholipids residual in lipid-depleted mitochondrial preparations, although higher concentrations of butanol are required for this effect. The effect of the series of aliphatic n-alcohols is related to their hydrophobicity.Alcohols induce a decrease of the fluorescence of ANS bound to both lipid vesicles and mitochondrial membranes. The fluorescence decrease is not the result of a decreased partition of ANS from the aqueous medium to the bilayer, but depends upon a change in the chromophore environment. Since no shift of the emission maximum is observed after alcohol addition, such a change must be ascribed to increased mobility of the probe, in accord with the spin label data.As for the spin label data, the effect of the series of aliphatic n-alcohols is related to their hydrophobicity; at difference with the electron spin resonance results, however, the effects are maximal for pure phospholipid vesicles. It is calculated that alcohols affect both the long-range interactions between phospholipids and proteins in mitochondrial membranes (as detected by spin labels) and the order of phospholipid bilayers near the glycerol region (as detected by ANS). The differences between the two kinds of probes may be related to their differing localization in the lipid bilayer.
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