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Abstract
Peripheral natural killer (NK) cells are reduced in patients with coronary artery disease and highly susceptible to apoptosis induced by oxidized lipids including 7β-hydroxycholesterol (7βOH) in vitro. The present study aimed to further explore the mechanisms behind 7βOH-mediated cytotoxicity to human NK cells. Human NK cells were purified and treated with 7βOH in different concentrations and times. Cell death, lysosomal and mitochondrial permeabilization and reactive oxygen species (ROS) production were then analysed. The 7βOH induced time and dose dependent apoptosis and necrosis in human NK cells, which was preceded by loss of lysosomal integrity and enhanced ROS production. At later time points, the mitochondrial membrane permeability in 7βOH-treated cells was significantly increased. The findings indicate that 7βOH induces human NK cell death through early lysosomal permeabilization and consequent oxidative stress. The data further suggest that 7βOH may induce immune disturbances in clinical settings such as atherosclerosis.