2010
DOI: 10.1242/jcs.064808
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Sarcolemmal nNOS anchoring reveals a qualitative difference between dystrophin and utrophin

Abstract: SummaryDuchenne muscular dystrophy (DMD) is a lethal muscle disease caused by dystrophin deficiency. In normal muscle, dystrophin helps maintain sarcolemmal stability. Dystrophin also recruits neuronal nitric oxide synthase (nNOS) to the sarcolemma. Failure to anchor nNOS to the membrane leads to functional ischemia and aggravates muscle disease in DMD. Over the past two decades, a great variety of therapeutic modalities have been explored to treat DMD. A particularly attractive approach is to increase utrophi… Show more

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Cited by 80 publications
(94 citation statements)
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References 52 publications
(88 reference statements)
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“…Mice lacking sarcolemmal nNOS exhibit dramatically reduced cage activity after mild exercise (47). Although sarcolemmal nNOS localization is not rescued by the endogenous utrophin overexpression in mdx muscle or by transgenic utrophin overexpression in Fiona-mdx muscle (34), we show that postexercise activity in mdx mice is partially rescued by transgenic utrophin overexpression. Whereas mdx mice lose almost all physical activity after mild exercise, Fiona-mdx mice retain approximately half of WT physical activity levels after mild exercise.…”
Section: Discussionmentioning
confidence: 63%
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“…Mice lacking sarcolemmal nNOS exhibit dramatically reduced cage activity after mild exercise (47). Although sarcolemmal nNOS localization is not rescued by the endogenous utrophin overexpression in mdx muscle or by transgenic utrophin overexpression in Fiona-mdx muscle (34), we show that postexercise activity in mdx mice is partially rescued by transgenic utrophin overexpression. Whereas mdx mice lose almost all physical activity after mild exercise, Fiona-mdx mice retain approximately half of WT physical activity levels after mild exercise.…”
Section: Discussionmentioning
confidence: 63%
“…Interestingly, the mini-Dys-TG-mdx mouse, which shows rescued microtubule morphology (Fig. 1E) but lacks the nNOS binding domain (34), exhibited postexercise activity that mirrored the activity of the Fiona-mdx mouse (P = 0.685), suggesting that microtubule lattice disorganization does not contribute to exercise-induced inactivity.…”
Section: Microtubule Disorganization and Nnos Mislocalization Correlamentioning
confidence: 92%
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