Contractile properties of skinned muscle fibres from young and adult normal and dystrophic (mdx) mice.

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Contractile properties of skinned muscle fibres from young and adult normal and dystrophic (mdx) mice.

D A Williams, S I Head, G S Lynch and D G Stephenson

Department of Physiology, University of Melbourne, Parkville, Victoria, Australia.

1. Single muscle fibres were enzymatically isolated from thesoleus and extensor digitorum longus (EDL) muscles of geneticallydystrophic mdx and normal (C57BL/10) mice aged 3-6 or 17-23weeks. 2. Fibres of both muscles were chemically skinned withthe non-ionic detergent Triton X-100 (2% v/v). Ca(2+)- and Sr(2+)-activatedcontractile responses were recorded and comparisons were madebetween several contractile parameters of various fibre typesof normal and dystrophic mice of similar age. 3. There wereno significant differences in the following contractile parametersof skinned fibres of normal and mdx mice of the same age: sensitivityto activating Ca2+ (pCa50) or Sr2+ (pSr50) and differentialsensitivity to the activating ions (pCa50-pSr50). However themaximum isometric tension (Po) and the frequency of myofibrillarforce oscillations in EDL fast-twitch fibres of young mdx micewere significantly lower than those of soleus fast-twitch fibresof the same animals, or fast-twitch fibres (EDL or soleus) ofnormal mice. 4. Age-related differences were apparent in somecontractile parameters of both normal and mdx mice. In particularthe steepness of force-pCa and force-pSr curves increased withage in normal mice, yet decreased with age in fibres of mdxmice. 5. A fluorescent probe, ethidium bromide, which interchelateswith DNA, was used with laser-scanning confocal microscopy todetermine the distribution of myonuclei in fibres. Fibres isolatedfrom either muscle type of normal animals displayed a characteristicperipheral spiral of myonuclei. Fibres from muscles of mdx micedisplayed three major patterns of nuclear distribution; thenormal peripheral spiral, long central strands of nuclei, anda mixture of these two patterns. 6. The contractile characteristicsof mdx fibres were not markedly influenced by the nuclear distributionpattern in that there were no discernible differences in themajor contractile parameters (the Hill coefficients nCa andnSr, which are associated with the steepness of the Ca2+ andSr2+ activation curves, pCa50, pSr50, pCa50-pSr50) of skinnedfibres possessing peripheral or central nuclei. However, exceptfor nSr, these values were all lower in individual fibres whichdisplayed similar proportions of central and peripheral nuclei.The presence of mixed nucleation and absence of fibres withembryonic contractile characteristics in mdx mice suggest thatthe dystrophin-negative fibres can repair locally occurringmuscle damage.

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