Journal of Lipid Research (Jan 1981)

The metabolism of native and malondialdehyde-altered low density lipoproteins by human monocyte-macrophages

  • I Shechter,
  • A M Fogelman,
  • M E Haberland,
  • J Seager,
  • M Hokom,
  • P A Edwards

Journal volume & issue
Vol. 22, no. 1
pp. 63 – 71

Abstract

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We have recently shown that cultured human monocyte-macrophages degraded 125I-labeled low density lipoprotein (125I-nativeee-LDL) by a saturable high-affinity process with maximal velocity at 25-30 microgram protein/ml (Fogelman et al., 1980, Proc. Nat. Acad. Sci. USA. 77:2214-2218). We now describe studies of the binding of 125I-native-LDL at 4 degrees C and the effects of chloroquine, Ca2+ concentration, and reductive methylation on high-affinity 125I-native-LDL degradation that indicate that native-LDL is processed by the monocyte-macrophages via the classic LDL receptor pathway. The high-affinity degradation of 125I-native-LDL increased substantially when monocyte-macrophages were exposed to the lipoprotein deficient-fraction of serum (LPDS) for periods as brief as 4 hours, and was 25-fold greater than that of lymphocytes. Freshly isolated monocytes that had never been exposed to LPDS also demonstrated high-affinity degradation of 125I-nativ-LDL. When these monocytes were cultured for 7 days in a medium containing native-LDL at a concentration (186 microgram protein/ml) greatly in excess of that apparently needed to saturate the high-affinity process, there was more than a 10-fold increase in 125I-native-LDL high-affinity degradation. LDL modified by treatment with malondialdehyde was processed by a second high-affinity cell surface receptor that appears identical to the “scavenger” receptor that processes acetylated LDL (Goldstein, et al., 1979, Proc. Nat. Acad. Sci. USA. 76: 333-337).

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