Potential cell therapy for progressive muscular dystrophies using mesenchymal stem cells associated to IGF-1

Progressive muscular dystrophies are a clinically and genetically heterogeneous group of disorders caused by the deficiency or abnormal muscle proteins, resulting in progressive degeneration and loss of skeletal muscle function. Strategies for the development of a muscular dystrophy therapy have focused on the possibility of restoring the defective muscle protein by cell therapy or on delivery of growth factors to treat or ameliorate muscular pathology symptoms. Combining both strategies could be a very useful approach to enhance the efficiency of muscle repair. The aim of this study is to evaluate the therapeutic potential of human mesenchymal stem cells (MSCs) from umbilical cord tissue combined with IGF-1 for muscle regeneration. Firstly, we verified the myogenic potential of these cells in vitro. Our results demonstrated that the soluble factors released from mdx dystrophic muscle were able to promote the myogenic differentiation of MSCs. Moreover, we showed that IGF-1 is capable of enhancing considerably the myogenesis of human MSCs from UC in vitro. More interestingly, we showed that IGF-1 enhances the interaction of MSCs and DMD muscle cells in coculture and the restoration of dystrophin expression. Subsequently, our in vivo studies revealed that the association of IGF-1 and MSCs markedly reduced muscle inflammation and fibrosis, and significantly improved muscle strength in LAMA2dy/2j mice, a murine model for congenital muscular dystrophy. It is important to point out that human cells are not rejected even in xenotransplants without immunosuppression. In summary, our results suggest that a combinatorial strategy of both IGF-1 and MSCs could enhance the efficiency of muscle repair and, therefore, should be further tested as a potential therapeutic approach in muscular dystrophies. However it is important to repeat the experiments on canine dystrophic model (GRMD; Golden Retriever Muscular Dystrophy) - in order to enhance our knowledge about the mechanism involved in muscle repair and monitor any eventual long-term side effects, which could represent an important point to start the clinical trial in patients (AU)