CHARACTERIZATION OF FATTY-ACID ELONGATION SYSTEM IN PORCINE NEUTROPHIL MICROSOMES

Microsomes purified from porcine neutrophils containing the fatty acid chain-elongation system for long- and very-long-chain fatty acyl-CoAs, and several enzymatic characters for the elongation of palmitoyl-CoA (16:0-CoA) and arachidoyl-CoA (20:0-CoA) were examined. The heat-inactivation profile for the elongation of 16:0-CoA was different from that of 20:0-CoA, suggesting the presence of different enzyme systems for palmitoyl-CoA and arachidoyl-CoA. Contrary to the elongation system of brain microsomes, the successive synthesis of lignoceric acid (24:0) from 20:0-CoA at 60 μM was not prominent under normal conditions in the neutrophil microsomes. The synthesis of behenic acid (22:0) was slightly inhibited by 0.5 mM N-ethylmaleimide (NEM) present in the assay mixture, whereas the pre-treatment of microsomes with 0.5 mM NEM largely inhibited the synthesis of 22:0 from 20:0-CoA. The synthesis of 24:0, however, was enhanced by 0.5 mM NEM in the elongation of 20:0-CoA and the rate of 24:0 synthesis became dominant over the synthesis of 22:0. These results suggested that the elongation enzyme for very-long-chain fatty acyl-CoA, especially for 20:0-CoA elongation to 22:0 in the neutrophil microsomes contained NEM-sensitive sulfhydryl groups in the active center and the mechanism for the synthesis of 24:0 through successive elongation from 20:0-CoA was different from that of 22:0, as the former was enhanced by NEM whereas the latter was strongly inhibited. © 1990.