THE ROLE OF ENDOTHELIAL CELLS IN VASCULAR CALCIFICATION

Background and Aims. Chronic kidney disease (CKD) is a prevalent condition that affects millions of people. Patients with CKD have an increased cardiovascular risk, mostly due to vascular calcification (VC). By now, it’s quite clear how, in vitro and in vivo, vascular smooth muscle cells (VSMCs) actively participate to VC. In contrast to the wide studies on VSMCs, the role of endothelial cells (ECs) has been poorly investigated. It’s known that ECs have a dynamic nature and following particular stimuli they can trans-differentiate and acquire several different phenotypes through the endothelial-to-mesenchymal transition (EndMT). Methods. Human aortic ECs (HAECs) were challenged, in an in vitro calcification model, with 2, 2.5, 3, 3.5 mM Pi for up to 7 days. Early morphological changes, gene expression and cell migration were evaluated. Afterwards calcium deposition, genes and protein expression and ultrastructural changes were analyzed. Results. High-Pi, at a concentration of 3 mM, is able to induce EC calcium deposition. Calcification is dependent on calcium influx without influencing Pit-1 expression. During the first days of high-Pi treatment ECs change their morphology from cobblestone to spindle shape acquiring motility, as demonstrated by the 14% increased closure in the scratch wound healing test. EndMT master genes such as SNAIL and TWIST resulted up-regulated at day 3 together with an increased protein expression of mesenchymal markers such as N-Cadherin, α-SMA, SM22α, FSP-1 and Fibronectin. Starting from day 5 high-Pi induces osteoblastic differentiation with RUNX2 and BMP2 mRNA up-regulation up to day 7, osteopontin increased protein expression and positive Alcian Blu staining. In calcified ECs mesenchymal and endothelial markers, such as α-SMA, SM22α, FSP-1 and Fibronectin or vWF progressively decrease. Finally, uremic serum is able to exacerbate in vitro calcification, compared to healthy serum characterized by an increase in both mesenchymal and osteoblastic master genes such as TWIST and RUNX2. Conclusions. Our data demonstrate that in vitro high-Pi induces the EndMT process and simil osteoblastic trans-differentiation suggesting a potential role of endothelium in VC. The relevancy of endothelial calcification is suggested by the calcification exacerbation induced by uremic compared to healthy sera.