Muscle carnosine in experimental autoimmune encephalomyelitis and multiple sclerosis
Charly Keytsman, Laura Blancquaert, Inez Wens, Maarten Missine, Pieter Van Noten, Frank Vandenabeele, Wim Derave, Bert O Eijnde, Charly Keytsman, Laura Blancquaert, Inez Wens, Maarten Missine, Pieter Van Noten, Frank Vandenabeele, Wim Derave, Bert O Eijnde
Abstract
Background: Muscle carnosine is related to contractile function (Ca++ handling) and buffering of exercise-induced acidosis. As these muscular functions are altered in Multiple Sclerosis (MS) it is relevant to understand muscle carnosine levels in MS.
Methods: Tibialis anterior muscle carnosine was measured in an animal MS model (EAE, experimental autoimmune encephalomyelitis, n = 40) and controls (CON, n = 40) before and after exercise training (EAEEX, CONEX, 10d, 1 h/d, 24 m/min treadmill running) or sedentary conditions (EAESED, CONSED). Human m. vastus lateralis carnosine of healthy controls (HC, n = 22) and MS patients (n = 24) was measured.
Results: EAE muscle carnosine levels were decreased (p < .0001) by ~ 40% to ~ 64% at 10d and 17d following EAE induction (respectively) regardless of exercise (p = .823). Similarly, human MS muscle carnosine levels were decreased (- 25%, p = .03).
Conclusion: Muscle carnosine concentrations in an animal MS model and MS patients are substantially reduced. In EAE exercise therapy does not restore this.
Keywords: Carnosine; Experimental autoimmune encephalomyelitis; Multiple sclerosis; Neuromuscular; Rehabilitation, muscle.
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Source: PubMed