ENHANCED LDL OXIDATION BY MURINE MACROPHAGE FOAM CELLS AND THEIR FAILURE TO SECRETE NITRIC-OXIDE

Foam cells were produced in vitro by incubation of mouse peritoneal macrophages with acetylated or copper-oxidized LDL. Nitric oxide synthesis was stimulated by exposure of the cells to IFN gamma and LPS. Nitric oxide production, detected by measurement of nitrite in the culture medium, was unchanged in Ac-LDL loaded cells as compared with non-loaded cells. However, Ox-LDL foam cells produced 68-99%, less nitrite than non-loaded cells. Failure to detect nitric oxide synthase (NOS) products from macrophages previously loaded with Ox-LDL appeared to result from lack of NOS activity, as little active enzyme could be recovered from Ox-LDL loaded cells. However, addition of Ox-LDL to an active cell-free NOS preparation had no direct effect on enzymic activity. When native LDL was subsequently incubated with these various IFN gamma/LPS stimulated cells, cells pre-loaded with Ox-LDL promoted, on average, a 2-fold greater increase in oxidative modification of the LDL added than either non-loaded or Ac-LDL loaded cells. That is, there was an inverse correlation between NOS activity and the ability of the cells to promote LDL oxidation. Unstimulated Ox-LDL loaded foam cells also oxidized LDL better than unstimulated non-loaded or Ac-LDL loaded foam cells, and the extent of oxidative modification was generally greater than seen with the equivalent IFN gamma/LPS stimulated cells. This suggests that Ox-LDL loading also affects some additional factor(s) responsible for cell-mediated LDL oxidation.