The Possible Role of Intracellular Ca2+ Accumulation for the Development of Immobilization Atrophy

J. M. C. Soares; J. A. R. Duarte; J. Carvalho; H.-J. Appell

doi:10.1055/s-2007-1021206

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Int J Sports Med 1993; 14(8): 437-439
DOI: 10.1055/s-2007-1021206

The Possible Role of Intracellular Ca²⁺ Accumulation for the Development of Immobilization Atrophy

J. M. C. Soares¹ , J. A. R. Duarte¹ , J. Carvalho¹ , H.-J. Appell²

¹Department of Sport Biology, Faculty of Sport Sciences, University of Porto, Portugal
²Institute for Experimental Morphology, German Sport University, Cologne, Germany

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Publication Date:
14 March 2008 (online)

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Abstract

Little is known about the cellular mechanisms which induce the development of skeletal muscle immobilization atrophy. Initial disturbances in cellular homeostasis seem to occur very early during immobilization. The aim of the study was to investigate whether loss of calcium homeostasis might be of etiological importance for atrophy. Therefore a calcium channel blocker (nifedipine) was administered to mice immobilized for four days, and their soleus muscle was investigated comparatively to immobilized animals without nifedipine. The immobilized muscles showed an atrophy of about 15% which was not the case in nifedipine-treated immobilized muscles. Ultrastruc-tural alterations (lysosomes, mitochondrial damage) were found predominantly in the immobilized muscles, but rarely with nifedipine. It was concluded that nifedipine protected the muscle fibers probably against calcium overload, thereby avoiding an autophagic response and an impairment of mitochondrial respiratory function.

Key words

Skeletal muscle - immobilization atrophy - nifedipine - calcium homeostasis

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