Abstract
Risk factors for atherosclerosis accelerate the senescence of vascular endothelial cells and promote atherogenesis by inducing vascular inflammation. A hallmark of endothelial senescence is the persistent up-regulation of pro-inflammatory genes. We identified CDC42 signaling as a mediator of chronic inflammation associated with endothelial senescence. Inhibition of CDC42 or NF-κB signaling attenuated the sustained up-regulation of pro-inflammatory genes in senescent human endothelial cells. Endothelium-specific activation of the p53/p21 pathway, a key mediator of senescence, also resulted in up-regulation of pro-inflammatory molecules in mice, which was reversed by Cdc42 deletion in endothelial cells. Likewise, endothelial-specific deletion of Cdc42 significantly attenuated chronic inflammation and plaque formation in atherosclerotic mice. While inhibition of NF-κB suppressed the pro-inflammatory responses in acute inflammation, the influence of Cdc42 deletion was less marked. Knockdown of cdc-42 significantly down-regulated pro-inflammatory gene expression and restored the shortened lifespan to normal in mutant worms with enhanced inflammation. These findings indicate that the CDC42 pathway is critically involved in senescence-associated inflammation and could be a therapeutic target for chronic inflammation in patients with age-related diseases without compromising host defenses.
Highlights
Chronic inflammation is characterized by the long-term presence of immune cells in affected tissues and is associated with age-related diseases such as cancer, neurodegenerative disorders, and cardiovascular disease [1]
The present findings provide evidence that the CDC42 pathway is critically involved in chronic inflammation induced by cellular aging signals
Inhibition of this pathway significantly attenuated the sustained up-regulation of inflammatory molecules in senescent human endothelial cells, as well as in murine models of cellular senescence and atherosclerosis, and in short-lived mutant worms
Summary
Chronic inflammation is characterized by the long-term presence of immune cells in affected tissues and is associated with age-related diseases such as cancer, neurodegenerative disorders, and cardiovascular disease [1]. The pro-inflammatory phenotype of senescent cells can be triggered by the DDR, leading to activation of NF-kB and stimulation of the production of inflammatory cytokines [4,7,8]. Senescence-associated chronic inflammation could promote tumor progression [6,11], as well as other age-related changes such as cataract and osteoporosis [12], by disrupting cell function and tissue architecture
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