Aims

The decrease in the number of satellite cells (SCs), contributing to myofibre formation and reconstitution, and their proliferative capacity, leads to muscle loss, a condition known as sarcopenia. Resistance training can prevent muscle loss; however, the underlying mechanisms of resistance training effects on SCs are not well understood. We therefore conducted a comprehensive transcriptome analysis of SCs in a mouse model.

Objectives

Osteoporosis is a metabolic disease resulting in progressive loss of bone mass as measured by bone mineral density (BMD). Physical exercise has a positive effect on increasing or maintaining BMD in postmenopausal women. The contribution of exercise to the regulation of osteogenesis in osteoblasts remains unclear. We therefore investigated the effect of exercise on osteoblasts in ovariectomized mice.

Introduction: Core binding factor 1 (Cbfa1) is one of the most important transcription factors that direct the osteogenesis of mesenchymal stem cells and osteoblastic functions. It is likely that the factors controlling Cbfa1 expression would trigger the early steps of osteoblast differentiation.

Materials and Methods: By using reporter gene assay for 4.5 kb Cbfa1 promoter, it was found that the first 320 bp of Cbfa1 promoter are active in D1 cells. Within this region, electromobility shift assays delineated a 6 bp of CACATG bound specifically by the proteins from D1 cell nuclear extract. Antibody super-shift and DNA-coupling magnetic bead pull-down assay indicated that the protein bound to this sequence is USF2. Site-specific mutagenesis revealed that this sequences contributed mainly to the activity of 320 bp Cbfa1 promoter.

Discussion: In conclusion, USF2 is the major regulator for the expression of Cbfa1 gene.