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Thesis

English

ID: <

10670/1.7543r0

>

Where these data come from
Differentiation of skeletal muscle-derived stem cells into beta pancreatic lineage

Abstract

Type 1 Diabetes (T1D) is characterized by high and poorly controlled glucose levels due to the destruction of insulin-secreting pancreatic ß-cells. However, current ß-cell replacement therapies, involving pancreas and pancreatic islet transplantation are technically demanding and limited by donor availability. While embryonic stem cells and induced pluripotent stem cells are intensely investigated, neither can be used due to safety issues. Skeletal muscle-derived stem cells (MDSC) are an attractive alternative cell source as they have the potential to undergo multilineage differentiation into beating pacemaker-like cells and neuronal cells. Hence, it is hypothesised that they can differentiate into pancreatic lineages. This led to the goals of this study, which were (1) to investigate the potential of MDSC to differentiate into mature insulin expressing cells in vitro and (2) to reduce hyperglycemia in mouse model type 1 diabetes. In this study, MDSC were isolated from mouse via a serial pre-plating based on the adhesive characteristics of cultured cells, in which the cells of interest adhered to plates at a later time for in vitro differentiation, while the non-adherence undifferentiated MDSC were used for in vivo study. The MDSC were found to spontaneously differentiate into islet-like aggregates and expressed ß-cell markers in vitro, as determined by immunofluorescence and reverse transcription PCR analyses. This was further confirmed by immunoblotting analysis showing expression of proteins required for ß-cell function, such as Nkx6.1, MafA and Glut2. The differentiation of MDSC into islet-like clusters demonstrated glucose responsiveness in vitro. In streptozotocin-induced T1D mouse models, intraperitoneal injection of the undifferentiated MDSC did not restore the blood glucose levels of the diabetic mice to normoglycemia despite successful engraftment of MDSC into the pancreatic tissues. Taken together, these data show that MDSC may serve as an alternative source of stem cells for the treatment of diabetes.

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