Objective To summarize the molecular biological research progress of non-coding RNAs modulating osteoarthritis (OA), and provide a reference basis for biological study and clinical treatment of OA. Methods Recent domestic and foreign related literature about the regulation of OA pathological process by non-coding RNAs was widely reviewed. Results Non-coding RNAs can be divided into three types based on the length of RNA. A lot of non-coding RNAs participating in OA pathological process are screened out by high throughput sequencing technology and microarray technology, and it is verified that these non-coding RNAs involve in the regulation of OA by RT-PCR. The mechanism of OA mediated target is clarified by knocking-down and overexpressing of the most prominent expressed non-coding RNAs in OA. There are the complicated gene expressed network topology in non-coding RNAs, and between non-coding RNAs and coding RNAs. It provides a basis for clearing the effect of gene structure and function, and finding the definite therapeutic target of OA. Conclusion There is preliminary study on molecular biological mechanism of non-coding RNAs mediating OA, but the key structure or sequence of non-coding RNAs, formation and interaction of effecting composite structure about mediating OA are unknown, and it needs further study.
Circular RNAs (circRNAs) are a novel class of non-coding RNAs, which are more stable than linear RNAs for their closed circular structure by covalent bond. CircRNAs exist in a large variety of cells and regulate the expressions of target genes. Moreover, circRNAs are closely related to various diseases and have a potential value as biomarkers and prognostic markers clinically. In this article, the classification and biological functions of circRNA molecules (including being as microRNA sponges, regulating gene transcription, regulating RNA binding protein and the potential translation function) are summarized, and the latest research progress of circRNAs in rheumatoid arthritis is reviewed.
Pulmonary fibrosis is a kind of chronic and fibrotic lung disease caused by a variety of reasons, and its main pathological characteristic is excessive scar formation after the destruction of normal lung tissue structure, which eventually leads to respiratory insufficiency. Although the research on the pathophysiological mechanism of pulmonary fibrosis has made great progress, its pathogenesis has not been fully elucidated, and it is still clinically incurable. In recent years, studies have shown that non-coding RNAs are involved in the pathogenesis of pulmonary fibrosis, therefore, this article summarizes the related research progress of non-coding RNA in regulation of pulmonary fibrosis by affecting epithelial-mesenchymal transition, fibroblast activation and function of macrophages, in order to provide new ideas for the treatment of pulmonary fibrosis.
Objective To summarize the regulatory effect of non-coding RNA (ncRNA) on type H vessels angiogenesis of bone. Methods Recent domestic and foreign related literature about the regulation of ncRNA in type H vessels angiogenesis was widely reviewed and summarized. ResultsType H vessels is a special subtype of bone vessels with the ability to couple bone formation. At present, the research on ncRNA regulating type H vessels angiogenesis in bone diseases mainly focuses on microRNA, long ncRNA, and small interfering RNA, which can affect the expressions of hypoxia inducible factor 1α, platelet derived growth factor BB, slit guidance ligand 3, and other factors through their own unique ways of action, thus regulating type H vessels angiogenesis and participating in the occurrence and development of bone diseases. ConclusionAt present, the mechanism of ncRNA regulating bone type H vessels angiogenesis has been preliminarily explored. With the deepening of research, ncRNA is expected to be a new target for the diagnosis and treatment of vascular related bone diseases.