Avaliação do padrão de degeneração e regeneração muscular em diferentes modelos murinos para distrofias musculares progressivas / Study of degeneration and regeneration pathways, in mice models for muscular dystrophies

AUTOR(ES)

Paula Cristina Gorgueira Onofre Oliveira

DATA DE PUBLICAÇÃO

2009

RESUMO

The muscular dystrophies are a heterogeneous group of genetic diseases characterized by progressive and irreversible degeneration of skeletal muscles. Muscle weakness is the consequence of an imbalance between successive cycles of degeneration and regeneration, with further replacement of the degraded muscle fibers by adipose and connective tissues. Several factors are involved these processes and the respective functional pathways are still not well known. Myf5, MyoD, Myf6 and myogenin are important factors responsible for the myogenesis and regeneration in the muscle. One important marker for the degeneration is TGF-1, which is an inflammatory cytokine with a possible role in the stimulation of fibrosis in the dystrophic muscle through the activation of genes related to the expression of collagen. The main objective of this project was to study the factors involved in the degeneration and regeneration pathways, in mice models for muscular dystrophies, carrying different defects in muscle proteins, to better understand the involved pathophysiological mechanisms, aiming future therapies. This was done through three strategies: 1-) The study of the therapeutic potential of transplantation of bone marrow mesenchymal-eGFP transformed stem cells, in Lama2dy-2J/J (a2 laminin deficient mice) and Largemyd (mice with defect in the glycosilation of -DG) ; 2-) The analyses of the relative expression of genes involved in regeneration and degeneration, in different mice models for muscular dystrophies; 3-) The study of the roles of dystrophin and 2-laminin proteins in the organization of the dystrophin-glycoprotein complex in muscle sarcolemma through the generation of a new mouse model, double-mutant for these two proteins. In the first approach, bone marrow mesenchymal stem cells expressing eGFP protein were intravenously injected in Lama2dy-2J/J and Largemyd mice, but these cells were not localized in the muscle of the tested animals after 3 months of experiment. Complementary studies showed that MSC and C2C12 cells expressing eGFP, when directly injected in the muscle of these models, were retained for only a few days, suggesting a rejection against cells expressing eGFP in the dystrophic muscle. Functional analysis showed a high variability among the tested mice, which is similar to the significant clinical variability observed in human patients with muscular dystrophies. In the second approach we quantified the expression of genes involved in degeneration and regeneration pathways in the dystrophic models mdx, SJL/J, Lama2dy-2J/J and Largemyd, and correlated these data with muscle histopathological pattern of each model. The result suggests that TGFβ-1 gene is activated in the dystrophic process in all the stages of degeneration while the activation of the expression of the PCOL gene possibly occurs in earliest stages of this process. We also observed that each physiopathological mechanism acted differently in the activation of regeneration, with differences in the induction of proliferation of satellite cells, but with no alterations in stimulation to differentiation. Dysfunction of satellite cells can therefore be an important additional mechanism of pathogenesis in the dystrophic muscle. In the third approach we generated a new dystrophic mouse model, carrying two simultaneous deficiencies of the proteins dystrophin and 2-laminin, by crossing mdx and Lama2dy-2J/J strains. In the offspring, the proportion of affected double-mutant mice was within the expected mendelian proportion, showing therefore, the viability of these defects with life. Only 4 alive animals were obtained up to the present date, and they are being followed for clinical characterization. The phenotype of this double-mutant mouse is very severe, presenting significant weakness, starting earlier and progressing faster that the parental strains. When more affected animals will be available, additional protein studies will be done to verify the effect of these two deficiencies in the organization of the DGC complex and its effect on the cascades of muscle degeneration and regeneration.

ASSUNTO(S)

progressive muscular dystrophies modelos murinos mouse models distrofias musculares progressivas expressão gênica gene expression

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