Activin-A enhances mTOR signaling to promote aberrant chondrogenesis in fibrodysplasia ossificans progressiva
Kyosuke Hino, … , Junya Toguchida, Makoto Ikeya
Kyosuke Hino, … , Junya Toguchida, Makoto Ikeya
Published July 31, 2017
Citation Information: J Clin Invest. 2017;127(9):3339-3352. https://doi.org/10.1172/JCI93521.
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Research Article

Activin-A enhances mTOR signaling to promote aberrant chondrogenesis in fibrodysplasia ossificans progressiva

Abstract

Fibrodysplasia ossificans progressiva (FOP) is a rare and intractable disease characterized by extraskeletal bone formation through endochondral ossification. Patients with FOP harbor point mutations in ACVR1, a type I receptor for BMPs. Although mutated ACVR1 (FOP-ACVR1) has been shown to render hyperactivity in BMP signaling, we and others have uncovered a mechanism by which FOP-ACVR1 mistransduces BMP signaling in response to Activin-A, a molecule that normally transduces TGF-β signaling. Although Activin-A evokes enhanced chondrogenesis in vitro and heterotopic ossification (HO) in vivo, the underlying mechanisms have yet to be revealed. To this end, we developed a high-throughput screening (HTS) system using FOP patient–derived induced pluripotent stem cells (FOP-iPSCs) to identify pivotal pathways in enhanced chondrogenesis that are initiated by Activin-A. In a screen of 6,809 small-molecule compounds, we identified mTOR signaling as a critical pathway for the aberrant chondrogenesis of mesenchymal stromal cells derived from FOP-iPSCs (FOP-iMSCs). Two different HO mouse models, an FOP model mouse expressing FOP-ACVR1 and an FOP-iPSC–based HO model mouse, revealed critical roles for mTOR signaling in vivo. Moreover, we identified ENPP2, an enzyme that generates lysophosphatidic acid, as a linker of FOP-ACVR1 and mTOR signaling in chondrogenesis. These results uncovered the crucial role of the Activin-A/FOP-ACVR1/ENPP2/mTOR axis in FOP pathogenesis.

Authors

Kyosuke Hino, Kazuhiko Horigome, Megumi Nishio, Shingo Komura, Sanae Nagata, Chengzhu Zhao, Yonghui Jin, Koichi Kawakami, Yasuhiro Yamada, Akira Ohta, Junya Toguchida, Makoto Ikeya

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Figure 6

Enhanced mTOR signaling in chondrogenic induction of FOP-iMSCs.

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Enhanced mTOR signaling in chondrogenic induction of FOP-iMSCs. (A and B...
(A and B) Knockdown experiments of mTORC complex components assessed by GAG/DNA (A) and Alcian blue staining (B) in a 2DCI assay of FOP-iMSCs. Scale bar: 200 μm. (C and D) Phosphorylation of SMAD1/5/8 (C) and SMAD2/3 (D) in FOP-iMSCs. Serum-starved FOP-iMSCs were pretreated with 10 nM rapamycin (Rapa), 1 μM DMH1, or 1 μM SB-431542 for 1 hour, and after a 1-hour stimulation with Activin-A, the cells were harvested. (E) p-S6 was enhanced in FOP-iMSCs compared with resFOP-iMSCs In 2DCI assays, p-S6 was enhanced in Activin-A–stimulated FOP-iMSCs compared with levels detected in resFOP-iMSCs. The strength of resFOP at each time point was set at 1. (F) Enhanced p-S6 was inhibited by mTOR (Rapa), PI3K (LY), or AKT (Ipa) inhibitors 24 hours after treatment with Activin-A and inhibitors in FOP-iMSCs. Treatment with 10 μM DMH1, 10 μM BIRB 796 (BIRB), 10 μM LY294002 (LY), 1 μM ipatasertib (Ipa), or 10 nM rapamycin was used. Results represent the mean ± SEM. n = 3 (A and CF). *P < 0.05, **P < 0.01, and ***P < 0.001, by Dunnett’s multiple comparisons t test compared with the DMSO-treated control stimulated with Activin-A (C, D, and F); with the siRNA-transfected negative control, with or without Activin-A stimulation (A); and by Student’s t test compared with resFOP-iMSCs stimulated with Activin-A (E). Data are representative of 2 independent experiments (A, B, E, and F).