Abstract

Lipoproteins extracted from the human aortic intima into 1.65 M NaCl were quantitated and characterized biochemically and by electron microscopy following separation in the preparative ultracentrifuge. The arterial lipoproteins, although separated and designated according to the density classes used for the serum lipoproteins, were distinctly different from their serum counterparts. The amount of lipoproteins in the low density range of d 1.063 to 1.006 (arterial LDL) and in the very low density range of d < 1.006 (arterial VLDL) extracted from arterial intima increased with increasing intimal lipid content. In contrast, the concentration of lipoproteins in the high density range of d 1.210 to 1.063 (arterial HDL) was small and did not change with the severity of atherosclerosis. Arterial VLDL, LDL and its subfractions, LDL 1 (d 1.006 to 1.019) and LDL 2 (d 1.019 to 1.063), were markedly heterogenous and contained unusually large particles, which were isolated by Bio-Gel A-150. These particles showed a pitted and cratered appearance by scanning electron microscopy and were immunochemically unreactive and had no electrophoretic mobility. The lipid and amino acid composition of the arterial VLDL and LDL fractions as well as their electrophoretic, chromatographic and analytical flotation behavior was distinctly different from that of their serum lipoprotein counterparts. Arterial VLDL, in sharp contrast to serum VLDL, was rich in cholesteryl ester and poor in triglycerides. Arterial VLDL also showed no electrophoretic mobility and only half of the preparations reacted to LDL antisera. Acid mucopolysaccharides were detected in the arterial VLDL and LDL fractions in association with the large size particles which lacked electrophoretic mobility and immunochemical reactivity and showed only a “saw tooth” pattern in the analytical ultracentrifuge. Arterial LDL and LDL 2 contained a smaller sized population of particles as separated by Bio-Gel A-150. These particles exhibited a reaction of complete identity with serum LDL when reacted against LDL antiserum. However these particles had a greater electrophoretic mobility and different amino acid composition than did serum LDL and LDL 2. An asymmetrical peak with a mean SF of 7.3 was demonstrated by these particles in the analytical ultracentrifuge. The over-all studies suggest that lipid deposition in atherosclerotic plaques is associated with the accumulation of lipoproteins with biochemical and ultrastructural properties unlike those of serum lipoproteins. The presence of these lipoproteins in the arteries may be a result of the interaction of serum and arterial lipoproteins with acid mucopolysaccharides and of lipoprotein synthesis and degradation in the arteries.

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