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Literature DB >> 30496623

Prevention of Injury-Induced Osteoarthritis in Rodent Temporomandibular Joint by Targeting Chondrocyte CaSR.

Mian Zhang¹, Hongxu Yang¹, Xianghong Wan¹, Lei Lu¹, Jing Zhang¹, Hongyun Zhang¹, Tao Ye¹, Qian Liu¹, Mianjiao Xie¹, Xiaodong Liu¹, Shibin Yu¹, Shaoxiong Guo¹, Wenhan Chang², Meiqing Wang¹.

Abstract

Traumatic joint injuries produce osteoarthritic cartilage manifesting accelerated chondrocyte terminal differentiation and matrix degradation via unknown cellular and molecular mechanisms. Here we report the ability of biomechanical stress to increase expression of the calcium-sensing receptor (CaSR), a pivotal driver of chondrocyte terminal differentiation, in cultured chondrogenic cells subjected to fluid flow shear stress (FFSS) and in chondrocytes of rodent temporomandibular joint (TMJ) cartilage subjected to unilateral anterior cross-bite (UAC). In cultured ATDC5 cells or TMJ chondrocytes, FFSS induced Ca2+ loading and CaSR localization in endoplasmic reticulum (ER), casually accelerating cell differentiation that could be abrogated by emptying ER Ca2+ stores or CaSR knockdown. Likewise, acute chondrocyte-specific Casr knockout (KO) prevented the UAC-induced acceleration of chondrocyte terminal differentiation and matrix degradation in TMJ cartilage in mice. More importantly, local injections of CaSR antagonist, NPS2143, replicated the effects of Casr KO in preventing the development of osteoarthritic phenotypes in TMJ cartilage of the UAC-treated rats. Our study revealed a novel pathological action of CaSR in development of osteoarthritic cartilage due to aberrant mechanical stimuli and supports a therapeutic potential of calcilytics in preventing osteoarthritis in temporomandibular joints by targeting the CaSR.

Entities: Chemical

Keywords: CALCIUM-SENSING RECEPTOR; CHONDROCYTE DIFFERENTIATION; DENTAL MALOCCLUSION; OSTEOARTHRITIS; TEMPOROMANDIBULAR JOINT

Mesh：

Substances：

Year: 2019 PMID： 30496623 PMCID： PMC6482062 DOI： 10.1002/jbmr.3643

Source DB: PubMed Journal: J Bone Miner Res ISSN： 0884-0431 Impact factor: 6.390

47 in total

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