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Uraemic extracellular vesicles augment osteogenic transdifferentiation of vascular smooth muscle cells via enhanced AKT signalling and PiT‐1 expression
Author(s) -
Freise Christian,
Querfeld Uwe,
Ludwig Antje,
Hamm Bernd,
Schnorr Jörg,
Taupitz Matthias
Publication year - 2021
Publication title -
journal of cellular and molecular medicine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.44
H-Index - 130
eISSN - 1582-4934
pISSN - 1582-1838
DOI - 10.1111/jcmm.16572
Subject(s) - vascular smooth muscle , osteopontin , osteocalcin , protein kinase b , transdifferentiation , chemistry , exosome , calcification , medicine , endocrinology , microbiology and biotechnology , phosphorylation , biology , microrna , alkaline phosphatase , microvesicles , biochemistry , cell , gene , enzyme , smooth muscle
Extracellular vesicles (EV) function as messengers between endothelial cells (EC) and vascular smooth muscle cells (VSMC). Since chronic kidney disease (CKD) increases the risk for vascular calcifications, we investigated whether EV derived from uraemic milieu‐stimulated EC and derived from uraemic rats impact the osteogenic transdifferentiation/calcification of VSMC. For that purpose, human EC were treated with urea and indoxyl sulphate or left untreated. Experimental uraemia in rats was induced by adenine feeding. ‘Uraemic’ and control EV (EV UR ; EV CTRL ) were isolated from supernatants and plasma by using an exosome isolation reagent. Rat VSMC were treated with a pro‐calcifying medium (CM) with or without EV supplementation. Gene expressions, miRNA contents and protein expressions were determined by qPCR and Western blots, respectively. Calcifications were determined by colorimetric assays. Delivery of miRNA inhibitors/mimics to EV and siRNA to VSMC was achieved via transfection. EV CTRL and EV UR differed in size and miRNA contents. Contrary to EV CTRL , EC‐ and plasma‐derived EV UR significantly increased the pro‐calcifying effects of CM, including altered gene expressions of osterix, runx2, osteocalcin and SM22α. Further, EV UR enhanced the protein expression of the phosphate transporter PiT‐1 in VSMC and induced a phosphorylation of AKT and ERK. Knock down of PiT‐1 and individual inhibition of AKT and ERK signalling in VSMC blocked the pro‐calcifying effects of EV UR . Similar effects were achieved by inhibition of miR‐221/‐222 and mimicking of miR‐143/‐145 in EV UR . In conclusion, EV UR might represent an additional puzzle piece of the complex pathophysiology of vascular calcifications in CKD.

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