Abstract P1039: Soluble Extracellular Matrix Protein Induces Senescence In Aortic Valve Interstitial Cells To Up-regulate Valvular Osteogenic Activity

Background: Calcific aortic valve disease (CAVD) is the most prevalent heart valve disease in the elderly, and elevated osteogenic activity of aortic valve interstitial cells (AVICs) play a critical role in CAVD progression to severe aortic valve stenosis. While soluble extracellular matrix (ECM) proteins, including biglycan and matrilin 2, have been found to up-regulate the osteogenic activity in human AVICs, the mechanism underlying the cellular and molecular mechanisms remain unclear. As greater densities of senescent AVICs were observed in human calcified aortic valves, we tested the hypothesis that soluble ECM protein induces senescence in AVICs to up-regulate valvular osteogenic activity. Methods and Results: Human AVICs were isolated from normal and CAVD aortic valves. Levels of P16 and P21 were assessed by immunoblotting, and senescent changes is identified using senescence-associated β-galactosidase (SA-β-gal) staining. AVICs from diseased valves displayed higher levels of P16 and P21, greater SA-β-gal staining and active calcium deposition. Soluble matrilin 2 (2.0 μg/ml) up-regulated the expression of P16 and P21, and enhanced SA-β-gal staining in normal AVICs, leading to greater calcium deposition. Further, knockdown of P16 markedly reduced calcium deposition in AVICs exposed to soluble matrilin 2. The impact of soluble matrlin 2 is associated with activation of the M6PR-ERK1/2 pathway. Blocking or knockdown of M6PR (M6P, 10 mM or siRNA, 1.0 nM), or inhibition of ERK1/2 (PD98059, 25 μM) attenuated the effect of soluble matrilin 2 on AVIC senescence and resultant up-regulation of osteogenic activity. Conclusion: AVICs from aortic valves of patients with CAVD have higher levels of senescence activity. Soluble matrilin 2, via the M6PR-ERK1/2 pathway, induces AVIC senescence to promote the osteogenic activity. Targeting the D-M6PR-ERK1/2 pathway may suppress AVIC senescence and attenuate aortic valve calcification associated with CAVD progression.