Membrane lipid metabolism in Acholeplasma laidlawii A EF 22. Influence of cholesterol and temperature shift-down on incorporation of fatty acids and synthesis of membrane lipid species.

1. Membrane lipid metabolism in Acholeplasma laidlowii A EF 22 has been studied under different conditions by applying three different techniques for changing membrane viscosity: fatty acid and cholesterol supplementation and temperature changes. 2. The molar relationship between the two dominating membrane lipids, monoglucosyldiglyceride and diglucosyldiglyceride, is to a large extent determined by membrane viscosity properties. This is shown by the varying metabolic responses occurring during incorporation of different fatty acids with and without cholesterol and by temperature shift-down experiments. Higher viscosity in membranes stimulates synthesis of monoglucosyldiglyceride at the expense of diglucosyldiglyceride. Synthesis of phospho and phosphoglucolipids is affected as well. 3. Temperature shift-down from 37 degrees C to 17 degrees C results in an immediate synthesis of monoglucosyldiglyceride accompanied by an increased incorporation of unsaturated fatty acids into this lipid. Synthesis of the other membrane lipid species (containing more unsaturated fatty acids) lags behind temporarily. 4. Incorporation from an equimolar mixture of palmitic and oleic acids together with cholesterol yields greater amounts of oleic acid in membrane lipids than incorporation in the absence of cholesterol, indicating that incorporation is viscosity dependent. 5. Studies of precursor relationships reveal that all main lipids have an active turnover which differs depending on membrane composition and conditions. Furthermore, this turnover proceeds with different intra-lipid pools. 6. Isolated membranes contain no detectable lipolytic enzymes capable of hydrolyzing membrane phospho or glycolipids. It is suggested that lipid turnover is partly mediated by enzymatic interlipid conversions, thus not allowing intermediates to accumulate.