Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
3080802 | Neuromuscular Disorders | 2007 | 9 Pages |
Abstract
Corticosteroids improve muscle function in boys with Duchenne muscular dystrophy and mdx mice possibly via effects on T-cell and B-cells. We quantified T-cell/B-cell functional effects and refined prednisolone's therapeutic mechanism in mdx mice. RAG2â/â mice, which produce no T-cells or B-cells, were crossed with mdx mice, which lack dystrophin protein. Strength testing (3-36 weeks) was performed on treated and control groups of male mdx RAG2â/âand mdx RAG2+/â mice. Longitudinal grip strength testing and hanging wire testing were assessed. Voluntary wheel running and creatine kinase level were measured. The absence of T-cells/B-cells (RAG2â/â mutation) caused no physiologic improvement. Prednisolone improved performance in mdx mice, independent of RAG2 gene expression (+ or â/â). Prednisolone treatment increased the frequency of muscle calcification, while RAG2 genotype had no effect. There was no change in fiber type proportions due to RAG2 genotype or prednisolone treatment. Thus, T-cells and/or B-cells (and immunoglobulins), while demonstrable in mdx mouse muscle, are playing a negligible role in their mdx-related functional outcome. Prednisolone's therapeutic effect is through T-cell/B-cell independent mechanisms in mdx mice.
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Authors
Paul T. Golumbek, Richard M. Keeling, Anne M. Connolly,