Literature DB >> 27867037

Cardiac Fibroblasts Adopt Osteogenic Fates and Can Be Targeted to Attenuate Pathological Heart Calcification.

Indulekha C L Pillai1, Shen Li1, Milagros Romay2, Larry Lam3, Yan Lu1, Jie Huang1, Nathaniel Dillard1, Marketa Zemanova1, Liudmilla Rubbi3, Yibin Wang4, Jason Lee5, Ming Xia6, Owen Liang6, Ya-Hong Xie6, Matteo Pellegrini3, Aldons J Lusis7, Arjun Deb8.   

Abstract

Mammalian tissues calcify with age and injury. Analogous to bone formation, osteogenic cells are thought to be recruited to the affected tissue and induce mineralization. In the heart, calcification of cardiac muscle leads to conduction system disturbances and is one of the most common pathologies underlying heart blocks. However the cell identity and mechanisms contributing to pathological heart muscle calcification remain unknown. Using lineage tracing, murine models of heart calcification and in vivo transplantation assays, we show that cardiac fibroblasts (CFs) adopt an osteoblast cell-like fate and contribute directly to heart muscle calcification. Small-molecule inhibition of ENPP1, an enzyme that is induced upon injury and regulates bone mineralization, significantly attenuated cardiac calcification. Inhibitors of bone mineralization completely prevented ectopic cardiac calcification and improved post injury heart function. Taken together, these findings highlight the plasticity of fibroblasts in contributing to ectopic calcification and identify pharmacological targets for therapeutic development.
Copyright © 2017 Elsevier Inc. All rights reserved.

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Year:  2016        PMID: 27867037      PMCID: PMC5291784          DOI: 10.1016/j.stem.2016.10.005

Source DB:  PubMed          Journal:  Cell Stem Cell        ISSN: 1875-9777            Impact factor:   25.269


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