• Proc. Natl. Acad. Sci. U.S.A. · Jan 2016

    Inhibition of Hif1α prevents both trauma-induced and genetic heterotopic ossification.

    • Shailesh Agarwal, Shawn Loder, Cameron Brownley, David Cholok, Laura Mangiavini, John Li, Christopher Breuler, Hsiao H Sung, Shuli Li, Kavitha Ranganathan, Joshua Peterson, Ronald Tompkins, David Herndon, Wenzhong Xiao, Dolrudee Jumlongras, Bjorn R Olsen, Thomas A Davis, Yuji Mishina, Ernestina Schipani, and Benjamin Levi.
    • Department of Surgery, University of Michigan, Ann Arbor, MI 48109;
    • Proc. Natl. Acad. Sci. U.S.A. 2016 Jan 19; 113 (3): E338-47.

    AbstractPathologic extraskeletal bone formation, or heterotopic ossification (HO), occurs following mechanical trauma, burns, orthopedic operations, and in patients with hyperactivating mutations of the type I bone morphogenetic protein receptor ACVR1 (Activin type 1 receptor). Extraskeletal bone forms through an endochondral process with a cartilage intermediary prompting the hypothesis that hypoxic signaling present during cartilage formation drives HO development and that HO precursor cells derive from a mesenchymal lineage as defined by Paired related homeobox 1 (Prx). Here we demonstrate that Hypoxia inducible factor-1α (Hif1α), a key mediator of cellular adaptation to hypoxia, is highly expressed and active in three separate mouse models: trauma-induced, genetic, and a hybrid model of genetic and trauma-induced HO. In each of these models, Hif1α expression coincides with the expression of master transcription factor of cartilage, Sox9 [(sex determining region Y)-box 9]. Pharmacologic inhibition of Hif1α using PX-478 or rapamycin significantly decreased or inhibited extraskeletal bone formation. Importantly, de novo soft-tissue HO was eliminated or significantly diminished in treated mice. Lineage-tracing mice demonstrate that cells forming HO belong to the Prx lineage. Burn/tenotomy performed in lineage-specific Hif1α knockout mice (Prx-Cre/Hif1α(fl:fl)) resulted in substantially decreased HO, and again lack of de novo soft-tissue HO. Genetic loss of Hif1α in mesenchymal cells marked by Prx-cre prevents the formation of the mesenchymal condensations as shown by routine histology and immunostaining for Sox9 and PDGFRα. Pharmacologic inhibition of Hif1α had a similar effect on mesenchymal condensation development. Our findings indicate that Hif1α represents a promising target to prevent and treat pathologic extraskeletal bone.

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