Validation of a Radiography-Based Quantification Designed to Longitudinally Monitor Soft Tissue Calcification in Skeletal Muscle

Heterotopic ossification (HO) consists of ectopic bone formation within soft tissues following surgery or trauma and can have debilitating consequences, but no definitive cure is available. Here we show that HO was essentially prevented in mice receiving nuclear retinoic acid receptor γ (RARγ) agonists. Side effects were minimal, and there was no significant rebound effect. To uncover mechanisms, mesenchymal stem cells were treated with RARγ agonist and transplanted into nude mice. Whereas control cells formed ectopic bone masses, the RARγ agonist-pretreated cells did not, suggesting that they had lost their skeletogenic potentials. Indeed, the cells became unresponsive to rBMP-2 and exhibited reduction of Smad1/5/8 phosphorylation and overall Smad levels. As importantly, the RARγ agonists blocked HO in transgenic mice expressing constitutive-active ALK2Q207D mutant that is related to ALK2R206H found in Fibrodysplasia Ossificans Progressiva patients. The data indicate that the RARγ agonists are potent inhibitors of HO and could also be as effective against congenital HO.

Heterotopic ossification (HO), the abnormal formation of true marrow-containing bone within extraskeletal soft tissues, is a serious bony disorder that may be either acquired or hereditary. We utilized an animal model of the genetic disorder fibrodysplasia ossificans progressiva to examine the cellular mechanisms underlying HO. We found that HO in these animals was triggered by soft tissue injuries and that the effects were mediated by macrophages. Spreading of HO beyond the initial injury site was mediated by an abnormal adaptive immune system. These observations suggest that dysregulation of local stem/progenitor cells could be a common cellular mechanism for typical HO irrespective of the signal initiating the bone formation.

Using bone decalcified with 0-6 N hydrochloric acid as an inducing agent, the inductive capacity of different soft tissue sites was investigated. Muscle and fascia regularly permitted the induction of bone, while spleen, liver and kidney suppressed bone induction. Bone formation could be induced in these organs if living autologous fascia was implanted together with the inducing agent; while bone formation was inhibited when living autologous spleen tissue was implanted with the inducing agent to normally favourable sites. The administration of systemic heparin and the diphosphonate ethane-1-hydroxyl, 1-diphosphonic acid (EHDP) suppressed bone induction. It is suggested that for bone induction to occur in soft tissues, three conditions must be present: 1) an inducing agent; 2) an osteogenic precursor cell; and 3) an environment which is permissive to osteogenesis. The presence of osteogenic inhibitors in spleen, liver and kidney is postulated.