Osteoclast‐Derived Autotaxin, a Distinguishing Factor for Inflammatory Bone Loss

Objective The severity of rheumatoid arthritis (RA) correlates directly with bone erosions arising from osteoclast (OC) hyperactivity. Despite the fact that inflammation may be controlled in patients with RA, those in a state of sustained clinical remission or low disease activity may continue to ac...

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Published in:Arthritis & rheumatology (Hoboken, N.J.) N.J.), 2019-11, Vol.71 (11), p.1801-1811
Main Authors: Flammier, Sacha, Peyruchaud, Olivier, Bourguillault, Fanny, Duboeuf, François, Davignon, Jean‐Luc, Norman, Derek D., Isaac, Sylvie, Marotte, Hubert, Tigyi, Gabor, Machuca‐Gayet, Irma, Coury, Fabienne
Format: Article
Language:English
Subjects:
Animals
Arthritis
Arthritis, Experimental - immunology
Arthritis, Experimental - metabolism
Arthritis, Experimental - pathology
Arthritis, Rheumatoid - immunology
Arthritis, Rheumatoid - metabolism
Arthritis, Rheumatoid - pathology
Biomedical materials
Bone loss
Bone remodeling
Bone Resorption - diagnostic imaging
Bone Resorption - immunology
Bone Resorption - metabolism
Calcaneus - diagnostic imaging
Computed tomography
Deactivation
Deprivation
Erosion control
Estrogens
Female
Femur - diagnostic imaging
Gene Knockdown Techniques
Histology
Human health and pathology
Humans
Hyperactivity
Inactivation
Inflammation
Life Sciences
Lipopolysaccharides
Male
Menopause
Mice
Mice, Transgenic
Osteoclasts - metabolism
Ovariectomy
Patients
Pharmacology
Phosphoric Diester Hydrolases - metabolism
Remission
Rheumatoid arthritis
Rhumatology and musculoskeletal system
Talus - diagnostic imaging
Transgenic mice
Tumor necrosis factor
Tumor Necrosis Factor-alpha - genetics
Tumor necrosis factor-TNF
X-Ray Microtomography
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Summary:Objective The severity of rheumatoid arthritis (RA) correlates directly with bone erosions arising from osteoclast (OC) hyperactivity. Despite the fact that inflammation may be controlled in patients with RA, those in a state of sustained clinical remission or low disease activity may continue to accrue erosions, which supports the need for treatments that would be suitable for long‐lasting inhibition of OC activity without altering the physiologic function of OCs in bone remodeling. Autotaxin (ATX) contributes to inflammation, but its role in bone erosion is unknown. Methods ATX was targeted by inhibitory treatment with pharmacologic drugs and also by conditional inactivation of the ATX gene Ennp2 in murine OCs (ΔATXCtsk). Arthritic and erosive diseases were studied in human tumor necrosis factor–transgenic (hTNF+/−) mice and mice with K/BxN serum transfer–induced arthritis. Systemic bone loss was also analyzed in mice with lipopolysaccharide (LPS)–induced inflammation and estrogen deprivation. Joint inflammation and bone erosion were assessed by histology and micro–computed tomography. The role of ATX in RA was also examined in OC differentiation and activity assays. Results OCs present at sites of inflammation overexpressed ATX. Pharmacologic inhibition of ATX in hTNF+/− mice, as compared to vehicle‐treated controls, significantly mitigated focal bone erosion (36% decrease; P < 0.05) and systemic bone loss (43% decrease; P < 0.05), without affecting synovial inflammation. OC‐derived ATX was revealed to be instrumental in OC bone resorptive activity and was up‐regulated by the inflammation elicited in the presence of TNF or LPS. Specific loss of ATX in OCs from mice subjected to ovariectomy significantly protected against the systemic bone loss and erosion that had been induced with LPS and K/BxN serum treatments (30% reversal of systemic bone loss [P < 0.01]; 55% reversal of erosion [P < 0.001]), without conferring bone‐protective properties. Conclusion Our results identify ATX as a novel OC factor that specifically controls inflammation‐induced bone erosions and systemic bone loss. Therefore, ATX inhibition offers a novel therapeutic approach for potentially preventing bone erosion in patients with RA.
ISSN:2326-5191
2326-5205
2326-5205
2326-5191
DOI:10.1002/art.41005