A translocation of phosphatidate phosphohydrolase from the cytosolic to the microsomal fraction was promoted in cell-free extracts of rat liver by oleate and palmitate and their CoA esters. Oleate was more potent in this respect than palmitate and the CoA esters were more effective than the unesterified acids. Octanoate, octanoyl-CoA and CoA did not cause the translocation. It is proposed that the interaction of phosphatidate phosphohydrolase with the membranes that synthesize glycerolipids causes it to become metabolically active. This enables the liver to increase its capacity for triacylglycerol synthesis in response to an increased supply of fatty acids.
Acyl-CoA ester Fatty acid L-a-Phosphatidate phosphohydrolase TranslocationTriacylglycerol synthesis
The translocation of phosphatidate phosphohydrolase between the cytosol and the microsomal membranes was investigated by using a cell-free system from rat liver. Linoleate, alpha-linolenate, arachidonate and eicosapentenoate promoted the translocation to membranes with a similar potency to that of oleate. The phosphohydrolase that associated with the membranes in the presence of [14C]oleate or 1mM-spermine coincided on Percoll gradients with the peak of rotenone-insensitive NADH-cytochrome c reductase, and in the former case with a peak of 14C. Microsomal membranes were enriched with the phosphohydrolase activity by incubation with [14C]oleate or spermine and then incubated with albumin. The phosphohydrolase activity was displaced from the membranes by albumin, and this paralleled the removal of [14C]oleate from the membranes when this acid was present. Chlorpromazine also displaced phosphatidate phosphohydrolase from the membranes, but it did not displace [14C]oleate. The effects of spermine in promoting the association of the phosphohydrolase with the membranes was inhibited by ATP, GTP, CTP, AMP and phosphate. ATP at the same concentration did not antagonize the translocating effect of oleate. From these results and previous work, it was concluded that the binding of long-chain fatty acids and their CoA esters to the endoplasmic reticulum acts as a signal for more phosphatidate phosphohydrolase to associate with these membranes and thereby to enhance the synthesis of glycerolipids, especially triacylglycerol. The translocation of the phosphohydrolase probably depends on the increased negative charge on the membranes, which could also be donated by the accumulation of phosphatidate. Chlorpromazine could oppose the translocation by donating a positive charge to the membranes.
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