Abstract
Background: High circulating levels of lipoprotein(a) [Lp(a)] are associated with increased risk of calcific aortic stenosis (CAS). Targeting Lp(a) metabolism holds promise for therapeutic interventions. However, the precise mechanisms by which Lp(a) accumulates on aortic valves still not fully understood. Hypothesis: Lp(a) could be synthesized in situ in human aortic valves under specific stimuli, such as calcification, in addition to being taken up from plasma via membrane receptors, including the newly identified receptor Major Facilitator Superfamily Domain Containing 5 (MFSD5). Methods: Immunohistochemistry was used to detect the Lp(a) and its receptor MFSD5 in human aortic valves from CAS patients or controls, which were non-CAS patients. Plasma Lp(a) levels were measured in individuals undergoing aortic valve resection. Human valvular interstitial cells (VICs) were cultured in procalcifying medium, with or without Lp(a) (10uM) for 14 and 21 days. Von-kossa or Alizarin Red staining were used to assess valve calcification. Expression of Lp(a) and MFSD5 was analyzed with quantitative RT-PCR and western blot. Results: Lp(a) was nearly absent in control valve site, whereas it was abundantly present in valve site from CAS patients (p<0.05). The higher the level of Lp(a) detected, the greater the extent of calcification noted in valve site. The mRNA and protein levels of Lp(a) extracted from calcified human valves were significantly higher compared to controls. However, the concentration of plasma Lp(a) did not affect the expression of Lp(a) in valve site (p>0.05). In vitro studies showed that Lp(a) mRNA was minimally detectable in normal VICs, but was significantly upregulated following exposure to procalcifying medium (p < 0.05). Lp(a) incubation led to severer calcification than that induced by procalcifying medium alone (p < 0.05). As MFSD5 was a newly identified receptor of Lp(a), we also test its expression. MDFS5 was increased in human calcified valve (p<0.05) and calcified VICs (p<0.05). These results showed that the Lp(a) in valve could be increased by either uptake from serum or by synthesized locally by proper stimuli. Conclusion: Our study has shown that the degree of aortic valve calcification is correlated with the level of Lp(a) in the valve site rather than in serum. We also verified MFSD5 was the receptor of Lp(a) on human valve. Targeting Lp(a) accumulation at the valve site may offer a more effective strategy for the prevention or treatment of CAS.
Published Version
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