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Supersulfides contribute to joint homeostasis and bone regeneration

再生(生物学) 平衡 细胞生物学 接头(建筑物) 生物 工程类 建筑工程
作者
Michio Maemura,Masanobu Morita,Seiryo Ogata,Yoichi Miyamoto,Tomoaki Ida,Kazuhiro Shibusaka,Soichiro Negishi,Masahiro Hosonuma,Taku Saito,Jun Yoshitake,Tsuyoshi Takata,Tetsuro Matsunaga,Eikan Mishima,Uladzimir Barayeu,Takaaki Akaike,Fumiko Yano
出处
期刊:Redox biology [Elsevier BV]
卷期号:81: 103545-103545
标识
DOI:10.1016/j.redox.2025.103545
摘要

The physiological functions of supersulfides, inorganic and organic sulfides with sulfur catenation, have been extensively studied. Their synthesis is mainly mediated by mitochondrial cysteinyl-tRNA synthetase (CARS2) that functions as a principal cysteine persulfide synthase. This study aimed to investigate the role of supersulfides in joint homeostasis and bone regeneration. Using Cars2AINK/+ mutant mice, in which the KIIK motif of CARS2 essential for supersulfide production was replaced with AINK, we evaluated the role of supersulfides in fracture healing and cartilage homeostasis during osteoarthritis (OA). Tibial fracture surgery was performed on the wild-type (Cars2+/+) and Cars2AINK/+ mice littermates. Bulk RNA-seq analysis for the osteochondral regeneration in the fracture model showed increased inflammatory markers and reduced osteogenic factors, indicative of impaired bone regeneration, in Cars2AINK/+ mice. Destabilization of the medial meniscus (DMM) surgery was performed to produce the mouse OA model. Histological analyses with Osteoarthritis Research Society International and synovitis scores revealed accelerated OA progression in Cars2AINK/+ mice compared with that in Cars2+/+ mice. To assess the effects of supersulfides on OA progression, glutathione trisulfide (GSSSG) or saline was periodically injected into the mouse knee joints after the DMM surgery. Thus, supersulfides derived from CARS2 and GSSSG exogenously administered significantly inhibited inflammation and lipid peroxidation of the joint cartilage, possibly through suppression of ferroptosis, during OA development. This study represents a significant advancement in understanding anti-inflammatory and anti-oxidant functions of supersulfides in skeletal tissues and may have a clinical relevance for the bone healing and OA therapeutics.

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