Oxidized LDLs Induce Massive Apoptosis of Cultured Human Endothelial Cells Through a Calcium-Dependent Pathway: Prevention by Aurintricarboxylic Acid

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Arteriosclerosis, Thrombosis, and Vascular Biology. 1997;17:331-339

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(Arteriosclerosis, Thrombosis, and Vascular Biology. 1997;17:331-339.)
© 1997 American Heart Association, Inc.

Articles

Oxidized LDLs Induce Massive Apoptosis of Cultured Human Endothelial Cells Through a Calcium-Dependent Pathway

Prevention by Aurintricarboxylic Acid

Isabelle Escargueil-Blanc; Olivier Meilhac; Marie-Therese Pieraggi; Jean-Francois Arnal; Robert Salvayre; Anne Negre-Salvayre

the Laboratory of Biochemistry, INSERM Unit 466, and the Laboratory of Physiology, INSERM Unit 397 (J.-F.A.), Faculty of Medicine in Rangueil, University Paul Sabatier, Toulouse, France.

Correspondence to Dr A. Negre-Salvayre or Prof R. Salvayre, Laboratoire de Biochimie Maladies Metaboliques, INSERM U-466, CHU Rangueil, 1 Ave J. Poulhes, 31054 Toulouse Cedex, France.

Oxidized LDLs are thought to play a central role in atherogenesis.Among their wide variety of biological properties, oxidizedLDLs exhibit a cytotoxic effect on cultured vascular cells.Toxic doses of mildly oxidized LDLs elicited massive apoptosisin both primary and immortalized cultures of endothelial cellsas shown by characteristic morphological and biochemical changes.Cytoplasmic and nucleic modifications (eg, chromatin condensationand nucleus fragmentation) were visualized by using electronand fluorescence microscopy of intact cells labeled by the fluorescentDNA probe SYTO-11. DNA fragmentation was quantified by ultracentrifugationof chromatin fragments, evaluated in situ by using the TUNEL(Terminal transferase-mediated dUTP-biotin nick end labeling)procedure, and visualized by electrophoresis of radiolabeledDNA fragments showing the characteristic apoptotic ladder. Apoptoticcells became rapidly detached and underwent postapoptotic necrosisthat led to cell disintegration. Apoptosis was subsequent toa sustained and delayed peak of cytosolic calcium. Both thecalcium peak and apoptosis were blocked by chelating the extracellularcalcium with EGTA or by inhibiting the calcium influx by thecalcium-channel blockers nifedipine and nisoldipine, thus suggestingthat the apoptotic process induced by oxidized LDLs is clearlycalcium dependent. Aurintricarboxylic acid, an inhibitor ofendonucleases, also blocked the apoptotic process without blockingthe calcium peak. These results suggest that toxic doses ofmildly oxidized LDLs induce massive apoptosis of endothelialcells through a calcium-dependent mechanism and that this apoptoticprocess can be prevented by inhibiting the rise of cytosoliccalcium or by inhibiting cellular endonucleases by aurintricarboxylicacid.

Key Words: apoptosis • necrosis • endonuclease • oxidized LDL • calcium

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