Human plasma lecithin-cholesterol acyltransferase. An elucidation of the catalytic mechanism.

Human plasma lecithin-cholesterol acyltransferase (LCAT) transacylates the sn-2 fatty acid of lecithin to cholesterol forming cholesteryl ester and lysolecithin. Measurement of the phospholipase A2 and transacylase activities of the enzyme using proteoliposome substrates and following selective chemical modification of serine, histidine, and cysteine residues of pure homogeneous LCAT indicated the following catalytic mechanism: HS-Cys-E-Ser-OH + lecithin in equilibrium HS-Cys-E-Ser-O-FA + lysolecithin, HS-Cys-E-Ser-O-FA in equilibrium FA-S-Cys-E-Ser-OH, FA-S-Cys-E-Ser-OH + cholesterol-OH in equilibrium HS-Cys-E-Ser-OH + cholesterol-O-FA, where FA denotes fatty acid. Modification of 2 LCAT cysteine residues with 5,5'-dithiobis-(2-nitrobenzoic acid) or treatment with ferricyanide inactivated the transacylase but not the phospholipase A2 activity. Modification of 1 serine residue with phenylmethanesulfonyl fluoride or 1 histidine residue with diethyl pyrocarbonate inhibited cholesteryl ester formation and phospholipase A2 activity. Proteoliposome substrates protected both activities against chemical inactivation. Lecithin alone protected the phospholipase A2 activity against phenylmethanesulfonyl fluoride inactivation but not the transacylase against 5,5'-dithiobis-(2-nitrobenzoic acid) inactivation. Incubation of native LCAT with arachidonyl-CoA or the lecithin-apo-A-I proteoliposome resulted in acylation of three enzyme sites, only one of which was stable to neutral hydroxylamine after denaturation. Fatty acylenzyme oxy- and thioesters were demonstrable in both cases. No transfer of arachidonic acid from iodoacetamide-modified LCAT to cholesterol occurred, indicating that the fatty-acylated serine residue cannot directly esterify cholesterol. Cholesterol arachidonate was formed upon incubation of phenylmethanesulfonyl fluoride-modified LCAT with arachidonyl-CoA.