Cytosolic phospholipase A2 alpha (cPLA2) is a calcium-dependent enzyme constitutively expressed by most human cells catalyzing the hydrolysis of membrane glycerophospholipids bearing arachidonic acid at the sn-2 position with production of downstream pro-inflammatory lipid mediators (Murakami and Kudo, 2002). Although cPLA2 seems to facilitate the release of pro-calcific matrix vesicles by hypertrophic chondrocytes during ossification (Wuthier et al., 1977), its involvement in pathological biomineralization has not yet been elucidated. Here, cPLA2 expression was assessed in the context of both pathological and experimentally induced mineralization affecting cardiovascular tissues and cultured aortic valve interstitial cells (AVICs). cPLA2 resulted to be expressed by fibroblasts, smooth muscle cells, macrophages, and activated endothelium populating both calcified aortic valves and atherosclerotic aorta walls. cPLA2 was also expressed by cultured AVICs, with enzyme expression rate correlating with mineralization rate, being enhanced by inflammation and high phosphate concentrations. For all calcific contexts, ultrastructural examination revealed mineralization to depend on progressive accumulation and release of acidic lipids, acting as major hydroxyapatite nucleators, followed by cell disgregation into a multitude of particles having calcium nucleation capability, according to peculiar degenerative patterns as those previously described (Ortolani et al., 2010).
In conclusion, enzyme expression and ultrastructural patterns being shared by both pathological and experimental calcific conditions suggests that cPLA2 might be actually involved in the etiopathogenesis of cardiovascular mineralization, besides representing a potential target for novel therapeutic strategies aimed to counteract the progression of cardiovascular calcific diseases.
References
[1] Murakami and Kudo. (2002) Phospholipase A2. J Biochem 131: 285-292.
[2] Wuthier et al. (1977) Biosynthesis of Matrix Vesicles in Epiphyseal Cartilage. Calcif Tiss Res 23: 135-139.
[3] Ortolani et al. (2010) Pro-calcific Responses by Aortic Valve Interstitial Cells in a Novel In Vitro Model Simulating Dystrophic Calcification. Ital J Anat Embryol 115: 135-139.
