Literature DB >> 25987250

Runx2 Expression in Smooth Muscle Cells Is Required for Arterial Medial Calcification in Mice.

Mu-En Lin1, Theodore Chen1, Elizabeth M Leaf1, Mei Y Speer2, Cecilia M Giachelli3.   

Abstract

Arterial medial calcification (AMC) is a hallmark of aging, diabetes, and chronic kidney disease. Smooth muscle cell (SMC) transition to an osteogenic phenotype is a common feature of AMC, and is preceded by expression of runt-related transcription factor 2 (Runx2), a master regulator of bone development. Whether SMC-specific Runx2 expression is required for osteogenic phenotype change and AMC remains unknown. We therefore created an improved targeting construct to generate mice with floxed Runx2 alleles (Runx2(f/f)) that do not produce truncated Runx2 proteins after Cre recombination, thereby preventing potential off-target effects. SMC-specific deletion using SM22-recombinase transgenic allele mice (Runx2(ΔSM)) led to viable mice with normal bone and arterial morphology. After vitamin D overload, arterial SMCs in Runx2(f/f) mice expressed Runx2, underwent osteogenic phenotype change, and developed severe AMC. In contrast, vitamin D-treated Runx2(ΔSM) mice had no Runx2 in blood vessels, maintained SMC phenotype, and did not develop AMC. Runx2 deletion did not affect serum calcium, phosphate, fibroblast growth factor-23, or alkaline phosphatase levels. In vitro, Runx2(f/f) SMCs calcified to a much greater extent than those derived from Runx2(ΔSM) mice. These data indicate a critical role of Runx2 in SMC osteogenic phenotype change and mineral deposition in a mouse model of AMC, suggesting that Runx2 and downstream osteogenic pathways in SMCs may be useful therapeutic targets for treating or preventing AMC in high-risk patients.
Copyright © 2015 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 25987250      PMCID: PMC4484217          DOI: 10.1016/j.ajpath.2015.03.020

Source DB:  PubMed          Journal:  Am J Pathol        ISSN: 0002-9440            Impact factor:   4.307


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