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Abstract
BACKGROUND: Parkin dysfunction associated with the progression of parkinsonism contributes to a progressive systemic skeletal disease characterized by low bone mineral density. However, the role of parkin in bone remodeling has not yet been elucidated in detail.RESULT: We observed that decreased parkin in monocytes is linked to osteoclastic bone-resorbing activity. siRNA-mediated knockdown of parkin significantly enhanced the bone-resorbing activity of osteoclasts (OCs) on dentin without any changes in osteoblast differentiation. Moreover, Parkin-deficient mice exhibited an osteoporotic phenotype with a lower bone volume accompanied by increased OC-mediated bone-resorbing capacity displaying increased acetylation of alpha-tubulin compared to wild-type (WT) mice. Notably, compared to WT mice, the Parkin-deficient mice displayed increased susceptibility to inflammatory arthritis, reflected by a higher arthritis score and a marked bone loss after arthritis induction using K/BxN serum transfer, but not ovariectomy-induced bone loss. Intriguingly, parkin colocalized with microtubules and parkin-depleted-osteoclast precursor cells (Parkin-/- OCPs) displayed augmented ERK-dependent acetylation of alpha-tubulin due to failure of interaction with histone deacetylase 6 (HDAC6), which was promoted by IL-1beta signaling. The ectopic expression of parkin in Parkin-/- OCPs limited the increase in dentin resorption induced by IL-1beta, accompanied by the reduced acetylation of alpha-tubulin and diminished cathepsin K activity.CONCLUSION: These results indicate that a deficiency in the function of parkin caused by a decrease in parkin expression in OCPs under the inflammatory condition may enhance inflammatory bone erosion by altering microtubule dynamics to maintain OC activity.
View details for DOI 10.1186/s13578-023-00973-0
View details for PubMedID 36882866