Abstract
AbstractOBJECTIVEVascular calcification (VC) significantly contributes to cardiovascular morbidity and mortality and escalates with age. However, effective pharmaceutical interventions are lacking, and the molecular mechanisms linking aging to VC remain elusive. This study explores the role of nuclear factor erythroid 2-related factor 2 (NRF2) in VC, specifically focusing on the interplay between vascular senescence and oxidative stress (OS).APPROACH AND RESULTSUsing a chronological aging mouse model, we noted a significant decline in the expression and activity of Nrf2 in the aortas of aged mice, coinciding with increased medial VC. Administering NRF2 activators effectively reduced this calcification. In the vascular smooth muscle cell (VSMC)-specific Nrf2 knockout (Nrf2SMCKO) models, created using adenine and Vitamin D, there was an increase in calcium deposition within the aortic medial layer, alongside heightened VSMC senescence and OS. Furthermore, NRF2 knockout exacerbated VC in aortic rings and primary VSMCs in high-phosphate conditions, while Nrf2 overexpression in VSMCs inhibited calcium deposition by alleviating cell senescence and OS. RNAseq analysis of the aortas fromNrf2SMCKOand control mice highlighted a significant downstream regulator of Inhibitor of DNA Binding 2 (ID2). Our results show that reduced NRF2 levels lead to increased VSMC senescence, characterized by heightened p16 expression and diminished ID2 expression. Inhibiting ID2 negated NRF2’s protective effects against VSMC senescence and VC.CONCLUSIONThis study emphasizes the critical role of NRF2 dysfunction in the nexus of vascular senescence, OS, and VC. It proposes the NRF2-ID2 axis in VSMCs as a promising therapeutic target for reducing VC and mitigating age-related cardiovascular diseases.HighlightsDecline in NRF2 activity is linked to increased vascular calcification (VC) and aging.VSMC-specificNrf2knockout causes a remarkable exacerbation of arterial calcification.NRF2 alleviates VC by inhibiting oxidative stress and VSMC senescence.ID2 contributes to the protective role of NRF2 in VSMC senescence and VC.
Publisher
Cold Spring Harbor Laboratory