Bone and Mineral Research Unit, Hospital Universitario Central de Asturias, Instituto de Investigación Sanitaria del Principado de Asturias (ISPA), 33011 Oviedo, Spain.
Redes de Investigación Cooperativa Orientadas a Resultados en Salud (RICORS), RICORS2040 (Kidney Disease), 28040 Madrid, Spain.
Nutrients. 2022 Jun 22;14(13):2589. doi: 10.3390/nu14132589.
In chronic kidney disease, systemic inflammation and high serum phosphate (P) promote the de-differentiation of vascular smooth muscle cells (VSMC) to osteoblast-like cells, increasing the propensity for medial calcification and cardiovascular mortality. Vascular microRNA-145 (miR-145) content is essential to maintain VSMC contractile phenotype. Because vitamin D induces aortic miR-145, uremia and high serum P reduce it and miR-145 directly targets osteogenic osterix in osteoblasts, this study evaluated a potential causal link between vascular miR-145 reductions and osterix-driven osteogenic differentiation and its counter-regulation by vitamin D. Studies in aortic rings from normal rats and in the rat aortic VSMC line A7r5 exposed to calcifying conditions corroborated that miR-145 reductions were associated with decreases in contractile markers and increases in osteogenic differentiation and calcium (Ca) deposition. Furthermore, miR-145 silencing enhanced Ca deposition in A7r5 cells exposed to calcifying conditions, while miR-145 overexpression attenuated it, partly through increasing α-actin levels and reducing osterix-driven osteogenic differentiation. In mice, 14 weeks after the induction of renal mass reduction, both aortic miR-145 and α-actin mRNA decreased by 80% without significant elevations in osterix or Ca deposition. Vitamin D treatment from week 8 to 14 fully prevented the reductions in aortic miR-145 and attenuated by 50% the decreases in α-actin, despite uremia-induced hyperphosphatemia. In conclusion, vitamin D was able to prevent the reductions in aortic miR-145 and α-actin content induced by uremia, reducing the alterations in vascular contractility and osteogenic differentiation despite hyperphosphatemia.
在慢性肾脏疾病中,系统性炎症和高血清磷酸盐(P)促进血管平滑肌细胞(VSMC)向成骨样细胞去分化,增加中膜钙化和心血管死亡率的倾向。血管微小 RNA-145(miR-145)含量对于维持 VSMC 收缩表型至关重要。由于维生素 D 可诱导主动脉 miR-145,尿毒症和高血清 P 降低其含量,并且 miR-145 直接靶向成骨细胞中的成骨特异性转录因子 2(osterix),本研究评估了血管 miR-145 减少与 osterix 驱动的成骨分化之间的潜在因果关系及其对维生素 D 的反调节作用。在正常大鼠的主动脉环和暴露于钙化条件的大鼠主动脉平滑肌细胞系 A7r5 中的研究证实,miR-145 的减少与收缩标志物的减少和成骨分化的增加以及钙(Ca)沉积有关。此外,在暴露于钙化条件的 A7r5 细胞中,miR-145 沉默增强了 Ca 沉积,而 miR-145 过表达则减弱了 Ca 沉积,部分原因是通过增加α-肌动蛋白水平并减少 osterix 驱动的成骨分化。在小鼠中,在诱导肾脏质量减少后的 14 周,主动脉 miR-145 和 α-肌动蛋白 mRNA 分别减少了 80%,而 osterix 或 Ca 沉积没有显著增加。从第 8 周到第 14 周,维生素 D 治疗完全阻止了主动脉 miR-145 的减少,并使 α-肌动蛋白的减少减少了 50%,尽管尿毒症引起了高磷酸盐血症。总之,尽管尿毒症引起高磷酸盐血症,维生素 D 能够预防尿毒症引起的主动脉 miR-145 和α-肌动蛋白含量减少,减少血管收缩性和成骨分化的改变。