Calcific aortic valve disease (CAVD) primarily involves osteogenic differentiation in human aortic valve interstitial cells (hVICs). Schisandrol B (SolB), a natural bioactive constituent, has known therapeutic effects on inflammatory and fibrotic disorders. However, its impact on valve calcification has not been reported. We investigated the effect of SolB on osteogenic differentiation of hVICs. Transcriptome sequencing was used to analyze potential molecular pathways affected by SolB treatment. The study also included an in vivo murine model using aortic valve wire injury surgery to observe SolB's effect on valve calcification. SolB inhibited the osteogenic differentiation of hVICs, reversing the increase in calcified nodule formation and osteogenic proteins. In the murine model, SolB significantly decreased the peak velocity of the aortic valve post-injury and reduced valve fibrosis and calcification. Transcriptome sequencing identified the p53 signaling pathway as a key molecular target of SolB, demonstrating its role as a molecular glue in the mouse double minute 2 (MDM2)-p53 interaction, thereby promoting p53 ubiquitination and degradation, which further inhibited p53-related inflammatory and senescence response. These results highlighted therapeutic potential of SolB for CAVD via inhibiting p53 signaling pathway and revealed a new molecular mechanism of SolB which provided a new insight of theraputic mechanism for CAVD.
Keywords: CAVD; MDM2-p53 interaction; Osteogenic differentiation; Schisandrol B; p53 signaling pathway.
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