Objective To review the regulation of microRNA-17-92 cluster on bone development, remodeling, and metabolism. Methods The related literature was reviewed. The clinical genetic phenotype, animal experiment, and cell research were illustrated so as to explore the possible regulatory mechanisms. Results MicroRNA-17-92 cluster is involved in physiological normal organs development, pathological neoplasm occurrence, and development. Recently, studies have shown that microRNA-17-92 cluster constitutes an intricate molecular signaling network with its upstream transcription factors and downstream targeting proteins, which controls bone development, remodeling, and metabolism exquisitely. Conclusion Present fundamental researches have certain understanding of the regulatory mechanisms of microRNA-17-92 cluster on bone development, remodeling, and metabolism. However, the exact mechanisms under these processes remain unknown.
Postmenopausal osteoporosis (PMOP) is a significant metabolic bone disease triggered by estrogen deficiency. Macrophages, as pivotal cells in bone metabolism regulation, participate in bone remodeling and inflammatory modulation through differentiation into osteoclasts and polarization phenotype switching. This article systematically reviews the mechanistic roles of macrophages in PMOP, encompassing their interactions with osteoclasts, polarization effects, immune-inflammatory responses, and impacts of oxidative stress. Furthermore, it explores the potential applications of macrophages in molecular diagnosis and pharmacological interventions for PMOP, while proposing future research directions.