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Title: Hypothyroidism prolongs and increases mdx muscle precursor proliferation and delays myotube formation in normal and dystrophic limb muscle. Author: McIntosh LM, Anderson JE. Journal: Biochem Cell Biol; 1995; 73(3-4):181-90. PubMed ID: 7576492. Abstract: Hypothyroidism (induced by 8 weeks of oral 0.05% propylthiouracil) heightened the phenotype of mdx mouse dystrophin-deficient myopathy to more closely resemble human Duchenne muscular dystrophy. Muscle repair after crush injury to the tibialis anterior muscle (TA) in hypothyroid mdx mice showed decreased myotube formation and delayed debris removal. To investigate whether reduced muscle precursor cell proliferation can account for the effects of hypothyroidism on repair from injury, immunocytochemistry for neural cell adhesion molecule (NCAM) on muscle precursor cells and autoradiography to detect DNA synthesis were performed in control and mdx TA. The proportions of labelled polymorphonuclear leukocyte nuclei (PMN), myotube nuclei (MN), and total mononuclear cell nuclei (TLN, the majority being muscle precursors) were counted in defined areas of regenerating TA after 2 and 4 days recovery. MN and the numbers of activated satellite cell nuclei on intact fibers were counted in surviving areas. In the same muscle, earlier phases of regeneration were observed in areas distal than proximal to the injury. At 2 days of regeneration, labelled PMN were increased in treated compared with untreated mdx TA. In distal areas at 4 days, fewer muscle precursors had recently fused to myotubes in treated than in untreated mdx. In proximal areas 4 days (relatively late in repair), TLN data suggested that muscle precursor proliferation was greater in hypothyroid compared with untreated mdx TA. NCAM immunostaining was consistent with proliferation data and confirmed that there were more muscle precursors in mdx than in control regenerating muscle. These results suggest that hypothyroidism prolongs and increases the phase of replication by mdx muscle precursors and delays precursor fusion into myotubes in regeneration.[Abstract] [Full Text] [Related] [New Search]