The influence of apolipoproteins on the hepatic lipase-mediated hydrolysis of high density lipoprotein phospholipid and triacylglycerol.

This study describes the influence of apolipoproteins on the hepatic lipase (HL)-mediated hydrolysis of phospholipids and triacylglycerol in high density lipoproteins (HDL). HL-mediated hydrolysis was assessed in well characterized, homogeneous preparations of spherical reconstituted high density lipoproteins (rHDL). The rHDL were comparable in size and lipid composition and contained either apoA-I ((A-I)rHDL) or apoA-II ((A-II)rHDL) as their sole apolipoprotein constituent. Preparations of rHDL containing only cholesteryl esters (CE) in their core, (A-I/CE)rHDL and (A-II/CE)rHDL, were used to assess phospholipid hydrolysis. Preparations of rHDL that contained triacylglycerol as their predominant core lipid, (A-I/TG)rHDL and (A-II/TG)rHDL, were used to assess both triacylglycerol and phospholipid hydrolysis. The rHDL contained trace amounts of either radiolabeled phospholipid or radiolabeled triacylglycerol. Hydrolysis was measured as the release of radiolabeled nonesterified fatty acids (NEFA) from the rHDL. Kinetic analysis showed that HL had a greater affinity for the phospholipids in (A-II/CE)rHDL (Km(app) = 0.2 mM) than in (A-I/CE)rHDL (Km(app) = 3.1 mM). This was also evident when hydrolysis was measured directly by quantitating NEFA mass. HL also had a greater affinity for the phospholipids and triacylglycerol in (A-II/TG)rHDL than in (A-I/TG)rHDL. The Vmax for phospholipid hydrolysis was, by contrast, greater for (A-I/CE)rHDL than for (A-II/CE)rHDL: 309.3 versus 49.1 nmol of NEFA formed/ml of HL/h. Comparable Vmax values were obtained for the hydrolysis of the phospholipids in (A-II/TG)rHDL and (A-I/TG)rHDL. In the case of triacylglycerol hydrolysis, the respective Vmax values for (A-I/TG)rHDL and (A-II/TG)rHDL were 1154.8 and 240.2 nmol of NEFA formed/ml of HL/h. These results show that apolipoproteins have a major influence on the kinetics of HL-mediated phospholipid and triacylglycerol hydrolysis in rHDL.