2007
DOI: 10.2353/ajpath.2007.060505
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Oxidative Phenotype Protects Myofibers from Pathological Insults Induced by Chronic Heart Failure in Mice

Abstract: The fiber specificity of skeletal muscle abnormalities in chronic heart failure (CHF) has not been defined. We show here that transgenic mice (8 weeks old) with cardiac-specific overexpression of calsequestrin developed CHF (50.9% decrease in fractional shortening and 56.4% increase in lung weight, P<0.001), cachexia (37.8% decrease in body weight, P<0.001), and exercise intolerance (69.3% decrease in running distance to exhaustion, P<0.001) without a significant change in muscle fiber-type composition. Slow o… Show more

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Cited by 92 publications
(108 citation statements)
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“…Although chronic inflammation and insulin resistance are associated with many types of cachexia, the diverse chronic diseases that induce skeletal muscle catabolism may have both common and unique regulatory mechanisms related to the wasting process. There is evidence that muscle phenotype differentially regulates muscle catabolism with many wasting diseases (30), with primarily fast glycolytic muscle mass being more susceptible to loss compared with slow oxidative muscle (8,32,59). These results differ from disuse-induced muscle atrophy (i.e., bed-rest, spaceflight) where slow-oxidative muscle fibers initially undergo a greater atrophy (12).…”
contrasting
confidence: 52%
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“…Although chronic inflammation and insulin resistance are associated with many types of cachexia, the diverse chronic diseases that induce skeletal muscle catabolism may have both common and unique regulatory mechanisms related to the wasting process. There is evidence that muscle phenotype differentially regulates muscle catabolism with many wasting diseases (30), with primarily fast glycolytic muscle mass being more susceptible to loss compared with slow oxidative muscle (8,32,59). These results differ from disuse-induced muscle atrophy (i.e., bed-rest, spaceflight) where slow-oxidative muscle fibers initially undergo a greater atrophy (12).…”
contrasting
confidence: 52%
“…An important question related to muscle wasting with several disease states is how a muscle's capacity for oxidative metabolism influences its catabolic susceptibility (32,59). We report here that the reduction of muscle mass in our tumorbearing mice is associated with a loss of overall muscle oxidative capacity in both primarily red and white hindlimb skeletal muscle.…”
Section: Discussionmentioning
confidence: 65%
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“…En effet, les mĂ©diateurs du catabolisme protĂ©ique sont les cytokines pro-inflammatoires : tumor necrosis factor-α (TNF-␣), interleukine-1 (IL-1), interleukine-6 (IL-6), interleukine-8 (IL-8), interfĂ©ron-y (INF-y). Cependant, le maintien d'un phĂ©notype musculaire oxydatif pourrait protĂ©ger les fibres musculaires des agressions, comme cela est dĂ©montrĂ© dans des modĂšles d'insuffisance cardiaque chronique chez la souris [28,39]. Par consĂ©quent, prĂ©server la masse et la fonction musculaires en maintenant le mĂ©tabolisme mitochondrial oxydatif est un point clĂ© de la prise en charge du patient BPCO.…”
Section: Physiopathologie De La Perte Musculaire Dans La Bpcounclassified
“…51 More recent investigations suggest that the catabolic response of muscle to a given pathological stimulus as a function of fiber type involvement is complex. Where the specificity of impact of disease processes was examined in regard to affected fiber types, Li et al 52 indicated that fast glycolytic Type IIb fibers were selectively atrophied in skeletal muscle of patients with chronic heart failure. This response also was observed in studies where subjects with left ventricular dysfunction presented Type IIb-specific fiber atrophy.…”
Section: Articlementioning
confidence: 99%