This study has demonstrated the toxicity to human monocyte‐macrophages of low‐density lipoprotein (LDL) which had been artificially oxidized using copper sulphate. The assays of cell damage used were tritiated adenine release, neutral red staining, lactate dehydrogenase leakage, and MTT dye reduction. Toxicity was concentration‐ and time‐dependent. Exposure to native LDL under the same conditions did not result in toxicity. Transmission electron microscopy of cells exposed to oxidized LDL showed characteristic changes of apoptosis, including chromatin condensation and a decrease in cell volume. There was extensive loss of cell surface protrusions and evidence of the phagocytosis of apoptotic cells by neighbouring monocyte‐macrophages. Apoptotic features preceded the increased membrane permeability revealed by the release of radioactivity from cells preloaded with tritiated adenine and by lactate dehydrogenase leakage. DNA fragmentation was indicated by nick end‐labelling using the terminal transferase enzyme (TUNEL). The number of TUNEL‐positive cells was markedly greater in cells exposed to oxidized LDL, compared with those incubated as no‐additions controls. Inhibition of de novo protein synthesis with cycloheximide and of Ca2+/Mg2+‐activated endonuclease activity with aurintricarboxylic acid or zinc ion did not inhibit the toxicity produced by oxidized LDL.
Human monocyte-macrophages were incubated for 24 h with low-density Hpoprotein (LDL) which had been previously oxidized for varying periods up to 24 h with copper ions, in the presence or absence of DL-ot-tocopberol or probucol. The release of radioactivity from cells preloaded with tritiated adenine was used as an assay of toxicity. Toxicity of oxidized LDL increased with duration of copper oxidation and with increasing evidence of lipid oxidation, measured by assay of thiobarbituric acid-reactive substances and by gas chromatography. Oxidation and toxicity were inhibited by DL-a-tocopherol (200/tM) and probucol (50 riM).
We have investigated the cytotoxic and chemotactic potencies of malondialdehyde (MDA), hexanal, 4-hydroxyhexenal (HHE), 4-hydroxynonenal (HNE) and 4-hydroxyoctenal (HOE), which are aldehydes found in oxidised low density lipoprotein (LDL), for human monocyte-macrophages. They were toxic in the following order: hexanal
This study has demonstrated the toxicity to human monocyte-macrophages of low-density lipoprotein (LDL) which had been artificially oxidized using copper sulphate. The assays of cell damage used were tritiated adenine release, neutral red staining, lactate dehydrogenase leakage, and MTT dye reduction. Toxicity was concentration- and time-dependent. Exposure to native LDL under the same conditions did not result in toxicity. Transmission electron microscopy of cells exposed to oxidized LDL showed characteristic changes of apoptosis, including chromatin condensation and a decrease in cell volume. There was extensive loss of cell surface protrusions and evidence of the phagocytosis of apoptotic cells by neighbouring monocyte-macrophages. Apoptotic features preceded the increased membrane permeability revealed by the release of radioactivity from cells preloaded with tritiated adenine and by lactate dehydrogenase leakage. DNA fragmentation was indicated by nick end-labelling using the terminal transferase enzyme (TUNEL). The number of TUNEL-positive cells was markedly greater in cells exposed to oxidized LDL, compared with those incubated as no-additions controls. Inhibition of de novo protein synthesis with cycloheximide and of Ca2+/Mg(2+)-activated endonuclease activity with aurintricarboxylic acid or zinc ion did not inhibit the toxicity produced by oxidized LDL.
Human monocyte-macrophage cultures were exposed to native low density lipoprotein (LDL) for up to 24 h in Ham's F10 medium and the extent of cell-mediated LDL oxidation was determined by measurement of electrophoretic mobility on agarose gels and measurement of lipids and oxidised lipids (including 7 beta-hydroxycholesterol) by GC. After an initial lag phase, which varied from 2-8 h, there was a steady increase in oxidation over 24 h. No-cell control incubations showed minimal increases in oxidation over 24 h. Significant toxicity, measured as release of radioactivity from macrophages pre-loaded with tritiated adenine, was observed in the cells when they oxidised LDL and the extent of radioactivity release correlated closely with the extent of LDL oxidation. Inhibition of oxidation using alpha-tocopherol or probucol reduced toxicity within the oxidising culture. This self-inflicted toxicity may help to explain the origin and enlargement of the lipid core of advanced atherosclerotic lesions.
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