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1. Scleraxis-Lineage Cells Contribute to Ectopic Bone Formation in Muscle and Tendon.

Author

Agarwal S, Loder SJ, Cholok D, Peterson J, Li J, Breuler C, Cameron Brownley R, Hsin Sung H, Chung MT, Kamiya N, Li S, Zhao B, Kaartinen V, Davis TA, Qureshi AT, Schipani E, Mishina Y, and Levi B

Subjects

Activin Receptors, Type I metabolism, Animals, Integrases metabolism, Joints pathology, Male, Mesenchymal Stem Cells metabolism, Mice, Inbred C57BL, Mice, Transgenic, Ossification, Heterotopic etiology, Phenotype, Wounds and Injuries complications, Wounds and Injuries pathology, Basic Helix-Loop-Helix Transcription Factors metabolism, Cell Lineage, Muscles pathology, Ossification, Heterotopic pathology, Tendons pathology

Abstract

The pathologic development of heterotopic ossification (HO) is well described in patients with extensive trauma or with hyperactivating mutations of the bone morphogenetic protein (BMP) receptor ACVR1. However, identification of progenitor cells contributing to this process remains elusive. Here we show that connective tissue cells contribute to a substantial amount of HO anlagen caused by trauma using postnatal, tamoxifen-inducible, scleraxis-lineage restricted reporter mice (Scx-creERT2/tdTomato fl/fl ). When the scleraxis-lineage is restricted specifically to adults prior to injury marked cells contribute to each stage of the developing HO anlagen and coexpress markers of endochondral ossification (Osterix, SOX9). Furthermore, these adult preinjury restricted cells coexpressed mesenchymal stem cell markers including PDGFRα, Sca1, and S100A4 in HO. When constitutively active ACVR1 (caACVR1) was expressed in scx-cre cells in the absence of injury (Scx-cre/caACVR1 fl/fl ), tendons and joints formed HO. Postnatal lineage-restricted, tamoxifen-inducible caACVR1 expression (Scx-creERT2/caACVR1 fl/fl ) was sufficient to form HO after directed cardiotoxin-induced muscle injury. These findings suggest that cells expressing scleraxis within muscle or tendon contribute to HO in the setting of both trauma or hyperactive BMP receptor (e.g., caACVR1) activity. Stem Cells 2017;35:705-710., (© 2016 AlphaMed Press.)

Published

2017