AI Article Synopsis
- sPLA2s are found in atherosclerotic plaques and are emerging as important targets for therapy and biomarkers due to their role in atherosclerosis development.
- Research shows that LDL-X, a modified form of LDL caused by sPLA2, triggers proinflammatory responses in endothelial cells by activating various cellular pathways, including the unfolded protein response (UPR).
- The study reveals that LDL-X activates UPR through calcium depletion, impacts cytoskeleton organization, and promotes inflammation by increasing levels of cytokines like IL-6 and IL-8.
Article Abstract
Secreted phospholipases A2 (sPLA2s) are present in atherosclerotic plaques and are now considered novel attractive therapeutic targets and potential biomarkers as they contribute to the development of atherosclerosis through lipoprotein-dependent and independent mechanisms. We have previously shown that hGX-sPLA2-phospholipolyzed LDL (LDL-X) induces proinflammatory responses in human umbilical endothelial cells (HUVECs); here we explore the molecular mechanisms involved. Global transcriptional gene expression profiling of the response of endothelial cells exposed to either LDL or LDL-X revealed that LDL-X activates multiple distinct cellular pathways including the unfolded protein response (UPR). Mechanistic insight showed that LDL-X activates UPR through calcium depletion of intracellular stores, which in turn disturbs cytoskeleton organization. Treatment of HUVECs and aortic endothelial cells (HAECs) with LDL-X led to activation of all 3 proximal initiators of UPR: eIF-2alpha, IRE1alpha, and ATF6. In parallel, we observed a sustained phosphorylation of the p38 pathway resulting in the phosphorylation of AP-1 downstream targets. This was accompanied by significant production of the proinflammatory cytokines IL-6 and IL-8. Our study demonstrates that phospholipolyzed LDL uses a range of molecular pathways including UPR to initiate endothelial cell perturbation and thus provides an LDL oxidation-independent mechanism for the initiation of vascular inflammation in atherosclerosis.
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| http://dx.doi.org/10.1096/fj.09-146852 | DOI Listing |
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