Saracatinib is an efficacious clinical candidate for fibrodysplasia ossificans progressiva
Eleanor Williams, Jana Bagarova, Georgina Kerr, Dong-Dong Xia, Elsie S. Place, Devaveena Dey, Yue Shen, Geoffrey A. Bocobo, Agustin H. Mohedas, Xiuli Huang, Philip E. Sanderson, Arthur Lee, Wei Zheng, Aris N. Economides, James C. Smith, Paul B. Yu, Alex N. Bullock
Eleanor Williams, Jana Bagarova, Georgina Kerr, Dong-Dong Xia, Elsie S. Place, Devaveena Dey, Yue Shen, Geoffrey A. Bocobo, Agustin H. Mohedas, Xiuli Huang, Philip E. Sanderson, Arthur Lee, Wei Zheng, Aris N. Economides, James C. Smith, Paul B. Yu, Alex N. Bullock
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Research Article Bone biology Therapeutics

Saracatinib is an efficacious clinical candidate for fibrodysplasia ossificans progressiva

Abstract

Currently, no effective therapies exist for fibrodysplasia ossificans progressiva (FOP), a rare congenital syndrome in which heterotopic bone is formed in soft tissues owing to dysregulated activity of the bone morphogenetic protein (BMP) receptor kinase ALK2 (also known as ACVR1). From a screen of known biologically active compounds, we identified saracatinib as a potent ALK2 kinase inhibitor. In enzymatic and cell-based assays, saracatinib preferentially inhibited ALK2, compared with other receptors of the BMP/TGF-β signaling pathway, and induced dorsalization in zebrafish embryos consistent with BMP antagonism. We further tested the efficacy of saracatinib using an inducible ACVR1Q207D-transgenic mouse line, which provides a model of heterotopic ossification (HO), as well as an inducible ACVR1R206H-knockin mouse, which serves as a genetically and physiologically faithful FOP model. In both models, saracatinib was well tolerated and potently inhibited the development of HO, even when administered transiently following soft tissue injury. Together, these data suggest that saracatinib is an efficacious clinical candidate for repositioning in FOP treatment, offering an accelerated path to clinical proof-of-efficacy studies and potentially significant benefits to individuals with this devastating condition.

Authors

Eleanor Williams, Jana Bagarova, Georgina Kerr, Dong-Dong Xia, Elsie S. Place, Devaveena Dey, Yue Shen, Geoffrey A. Bocobo, Agustin H. Mohedas, Xiuli Huang, Philip E. Sanderson, Arthur Lee, Wei Zheng, Aris N. Economides, James C. Smith, Paul B. Yu, Alex N. Bullock

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Figure 4

In vivo efficacy of saracatinib in the ACVR1Q207D-transgenic mouse model of FOP.

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In vivo efficacy of saracatinib in the ACVR1Q207D-transgenic mouse model...
Neonatal CAG-Z-eGFP-caALK2-transgenic mice were injected with Ad.Cre (1 × 108 PFU i.m. P7) and treated with 25 mg/kg/d saracatinib or vehicle orally for 28 days. (A) All mice expressed the eGFP reporter in the injected left hindlimb, and 100% of vehicle-treated mice (6 of 6) developed radiographic HO and severe loss of passive range of motion (original magnification, ×0.8). (B) Treatment with saracatinib essentially abrogated radiographic HO in 4/4 mice, preserving range of motion (2-way ANOVA with Sidak’s test for multiple comparisons; P = NS, days 1–7; **P < 0.01, days 8–10; ***P < 0.001, days 11–28; all vs. vehicle treatment), data depicted as median ± IQR, n as indicated. (C) Treatment with saracatinib had no significant impact on normal growth based on weight gain as compared with controls (2-way ANOVA, P = NS), data depicted as mean ± SEM, n as indicated. (D) Representative hindlimb scoring system. All range of motion scoring was performed by 2 separate operators who were blinded to the treatment condition of the animal.