Objective To review the application of urine derived stem cells (USCs) in regeneration of musculoskeletal system. Methods The original literature about USCs in the regeneration of musculoskeletal system was extensively reviewed and analyzed. Results The source of USCs is noninvasive and extensive. USCs express MSCs surface markers with stable proliferative and multi-directional differentiation capabilities, and are widely used in bone, skin, nerve, and other skeletal and muscle system regeneration fields and show a certain repair capacity. Conclusion USCs from non-invasive sources have a wide application prospect in the regeneration of musculoskeletal system, but the definite biological mechanism of its repair needs further study.
ObjectiveTo investigate the multi-directional differentiation potential and other biological characteristics of chicken umbilical cord mesenchymal stem cells (UMSC), as well as their reparative effects on bleomycin (BLM)-induced lung injury in mice. MethodsAn acute lung injury model in mice was established by injecting BLM into the bronchus. UMSC were then transplanted via the tail vein. The reparative effects of UMSC on lung injury were evaluated through pathological section observation, survival and differentiation of transplanted cells in mice, and detection of hydroxyproline (HYP) content, among other indicators. ResultsThe UMSC successfully isolated in this study positively expressed specific surface markers CD29, CD44, CD90, and CD166, while the expression of CD34 and CD45 was negative. Induced UMSC could differentiate into adipocytes, osteocytes, chondrocytes, and alveolar epithelial cells. Animal experiments revealed that BLM-treated mice exhibited damaged alveolar structures, significant inflammatory cell infiltration, abnormal collagen deposition, and pulmonary fibrosis. However, after UMSC transplantation, the extent and severity of lung damage were reduced, and the HYP content in lung tissue decreased but remained higher than that of the control group. ConclusionUMSC can continuously proliferate and maintain their biological characteristics under in vitro culture conditions. They possess the ability to migrate to damaged sites and undergo directional differentiation, demonstrating a certain reparative effect on BLM-induced acute lung injury in mice.