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NF-κB/MAPK activation underlies ACVR1-mediated inflammation in human heterotopic ossification
Emilie Barruet, Blanca M. Morales, Corey J. Cain, Amy N. Ton, Kelly L. Wentworth, Tea V. Chan, Tania A. Moody, Mariëlle C. Haks, Tom H.M. Ottenhoff, Judith Hellman, Mary C. Nakamura, Edward C. Hsiao
Emilie Barruet, Blanca M. Morales, Corey J. Cain, Amy N. Ton, Kelly L. Wentworth, Tea V. Chan, Tania A. Moody, Mariëlle C. Haks, Tom H.M. Ottenhoff, Judith Hellman, Mary C. Nakamura, Edward C. Hsiao
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Clinical Research and Public Health Bone biology Inflammation

NF-κB/MAPK activation underlies ACVR1-mediated inflammation in human heterotopic ossification

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Abstract

BACKGROUND. Inflammation helps regulate normal growth and tissue repair. Although bone morphogenetic proteins (BMPs) and inflammation are known contributors to abnormal bone formation, how these pathways interact in ossification remains unclear. METHODS. We examined this potential link in patients with fibrodysplasia ossificans progressiva (FOP), a genetic condition of progressive heterotopic ossification caused by activating mutations in the Activin A type I receptor (ACVR1/ALK2). FOP patients show exquisite sensitivity to trauma, suggesting that BMP pathway activation may alter immune responses. We studied primary blood, monocyte, and macrophage samples from control and FOP subjects using multiplex cytokine, gene expression, and protein analyses; examined CD14+ primary monocyte and macrophage responses to TLR ligands; and assayed BMP, TGF-β activated kinase 1 (TAK1), and NF-κB pathways. RESULTS. FOP subjects at baseline without clinically evident heterotopic ossification showed increased serum IL-3, IL-7, IL-8, and IL-10. CD14+ primary monocytes treated with the TLR4 activator LPS showed increased CCL5, CCR7, and CXCL10; abnormal cytokine/chemokine secretion; and prolonged activation of the NF-κB pathway. FOP macrophages derived from primary monocytes also showed abnormal cytokine/chemokine secretion, increased TGF-β production, and p38MAPK activation. Surprisingly, SMAD phosphorylation was not significantly changed in the FOP monocytes/macrophages. CONCLUSIONS. Abnormal ACVR1 activity causes a proinflammatory state via increased NF-κB and p38MAPK activity. Similar changes may contribute to other types of heterotopic ossification, such as in scleroderma and dermatomyositis; after trauma; or with recombinant BMP-induced bone fusion. Our findings suggest that chronic antiinflammatory treatment may be useful for heterotopic ossification.

Authors

Emilie Barruet, Blanca M. Morales, Corey J. Cain, Amy N. Ton, Kelly L. Wentworth, Tea V. Chan, Tania A. Moody, Mariëlle C. Haks, Tom H.M. Ottenhoff, Judith Hellman, Mary C. Nakamura, Edward C. Hsiao

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Figure 3

Increased proinflammatory monocyte subsets in FOP subjects with no clinically ongoing flare.

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Increased proinflammatory monocyte subsets in FOP subjects with no clini...
Whole blood samples from control and FOP subjects were collected, analyzed, and sorted via flow cytometry. (A) The gating strategy for identification of monocytes. (B) Total monocytes in the whole blood were not different between control and FOP subjects. (C) The intermediate monocytes (CD14+/CD16+) were significantly increased in FOP subjects with no flare. The nonclassical monocytes (CD14+/CD16+) were significantly decreased in all FOP subjects. Supplemental Table 3 shows the distribution of the subjects (Control, n = 15; No Flare, n = 5; Flare, n = 6). *P < 0.05, by Student’s t test. (D) Monocyte subtypes were sorted, and RNA was extracted. Gene expression analysis of monocyte receptors. CD14, CCR2, and CD163 were decreased in the CD14+CD16+ and CD14loCD16+ population in both control and FOP monocytes. INHBA (a subunit of Activin A) was significantly increased in the CD14+CD16+ monocytes of both control and FOP. (E) TLR2 and TLR4 were not increased in FOP monocytes, while CXCR4, a potential marker of premature monocytes, and AP1 were significantly increased in FOP CD14+CD16– monocytes compared with control. Supplemental Table 4 shows the distribution of the subjects (Control, n = 4; FOP, n ≥ 3). *P < 0.05, **P < 0.01, by 2-way ANOVA Sidak or Tukey’s multiple comparison test. Error bars represent mean ± 1 SD.

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