ABSTRACT
BACKGROUND:Osteoarthritis is a common chronic inflammation of joints caused by degenerative changes of articular cartilage.More and more studies have shown that mechanical stress is closely related to the development of osteoarthritis.The Hippo pathway is not only involved in the development of tissue cells,but also an effecting factor of mechanical stress,which is involved in the regulation of bone metabolism and cartilage metabolism. OBJECTIVE:Regulation of the Hippo pathway may become one of the new targets for intervention in osteoarthritis.Therefore,this paper reviewed the research on the effect of mechanical stress regulation of the Hippo pathway on osteoarthritis to provide ideas for the pathogenesis of osteoarthritis and provide a new theoretical basis for the treatment of osteoarthritis. METHODS:PubMed,Web of Science,Embase,CNKI,VIP,and WanFang databases were used for a literature search for articles published from inception to 2023 concerning the influence of mechanical stress on osteoarthritis and mechanical stress,Hippo pathway,and osteoarthritis.A total of 75 articles were finally reviewed. RESULTS AND CONCLUSION:(1)Different mechanical stresses may play different roles in cell proliferation,apoptosis and differentiation,osteoarthritis inflammation,and vascular homeostasis in osteoarthritis.(2)Hard extracellular matrix,low cell density,medium shear force,medium tensile force,and compression force can achieve cell proliferation,osteogenic differentiation,and vascular homeostasis,and inhibit inflammatory response by activating YAP/TAZ.(3)Soft extracellular matrix,high cell density,excessive shear force,excessive tensile force,and compressive force inhibit cell proliferation,enhance cartilage differentiation,disrupt vascular homeostasis,and promote inflammation through inactivation of YAP/TAZ,thus promoting the process of osteoarthritis.
ABSTRACT
Osteoporosis (OP) is a skeletal metabolic disease characterized by bone loss and destruction of bone microstructure. Changes in estrogen levels are not the only pathogenic factors for the occurrence and development of OP. MicroRNA (miRNA) plays an important regulatory role in cells. The complementary sequences of miRNA and targeted mRNA combine to inhibit the expression of targeted mRNA through post-transcriptional regulation, forming a complex regulatory network. Research suggests that miRNA is closely related to the occurrence and development of various diseases, including inflammatory diseases, metabolic diseases, and cancer. Targeted mRNA participates in post-transcriptional gene expression regulation in OP, mainly regulating the balance among bone construction, bone resorption, and osteoblast differentiation. Therefore, miRNA-based gene therapy is a rapidly developing disease treatment strategy. Traditional Chinese medicine can improve bone metabolism by intervening in miRNA differential expression to target and regulate osteogenic/osteoclast differentiation. This article summarized the targeting effects of miRNAs in physiological and developmental processes such as bone cell proliferation, differentiation, survival, and apoptosis, reviewed and classified their mechanisms of action and targets, and sorted out the current treatment methods of traditional Chinese medicine for preventing and treating OP and drugs that exert bone protective functions through miRNAs. This review is expected to provide theoretical reference and research guidance for future research on OP treatment by regulating miRNA.
ABSTRACT
Bone homeostasis is based on the dynamic balance of bone formation and bone resorption. An imbalance in bone homeostasis is a major contributor to many skeletal diseases, including osteoporosis. Changes in the composition and diversity of the gut microbiota (GM) are supposed to have a significant impact on bone homeostasis and are closely correlated with changes in bone mass and bone microarchitecture. The "gut-immune" axis, which is formed by the interaction between the host intestinal immune system and GM, is essential for maintaining bone homeostasis, as well as regulating the body's immunological response and maintaining immune homeostasis throughout the intestine and body. The article reviews recent advances in the study of GM, the immune system, and their synergistic impact on bone homeostasis.