Influence of mitochondria on phospholipid synthesis in preparations from rat liver.

Abstract

1. The addition of mitochondria to an incubation system containing the soluble and microsomal fractions of rat liver enhances severalfold the incorporation of each of ethanolamine, phosphorylethanolamine and CDP-ethanolamine into phosphatidylethanolamine. 2. In the presence of microsomal, mitochondrial and soluble fractions, CDP-ethanolamine exhibits the greatest initial rate of incorporation (approx. 6nmol/h per mg of protein), being slightly faster than that of phosphorylethanolamine (approx. 5nmol/h per mg of protein). Incorporation of ethanolamine proceeds very slowly for the first 20min and only after 30min gives rates approaching those of the other two precursors. 3. By using a substrate ;dilution' technique it was shown that in the reconstituted system the affinity of each of the enzymes for their respective substrates is very high: 10mum for ethanolamine, 25mum for phosphorylethanolamine and 5mum for CDP-ethanolamine. 4. Isolation of the mitochondrial and microsomal fractions from the medium after incubation together with phosphorylethanolamine showed that about 70% of the total radioactivity was present in the microsomal fraction and about 30% in the mitochondria after only 20min. Similar experiments with ethanolamine as precursor revealed that after 20min only about 15% of the total radioactivity was present in the mitochondria but that after 40min about 30% was present in this fraction. 5. Heating and phospholipase treatment of mitochondria, but not freeze-thawing, eliminated the stimulatory effect of mitochondria on phospholipid synthesis. 6. The reconstituted system exhibits an absolute requirement for Mg(2+) (2mm gave maximal rates) and is inhibited by very low concentrations of Ca(2+) (100mum-Ca(2+) produced half-maximal inhibition with 3mm-Mg(2+)). Further addition of Mg(2+) overcame the Ca(2+) inhibition, suggesting that the inhibitory effect is readily reversible. 7. The concept that modification of the Mg(2+)/Ca(2+) ratio is a means of controlling the rate of cellular phospholipid synthesis is introduced.