Disturbed energy metabolism and muscular dystrophy caused by pure creatine deficiency are reversible by creatine intake
Journal article
Nabuurs, C. I., Choe, C. U., Veltien, A., Kan, H. E., Van Loon, Luc, Rodenburg, R. J. T., Matschke, J., Wieringa, B., Kemp, G. J., Isbrandt, D. and Heerschap, A.. (2013). Disturbed energy metabolism and muscular dystrophy caused by pure creatine deficiency are reversible by creatine intake. Journal of Physiology. 591(2), pp. 571 - 592. https://doi.org/10.1113/jphysiol.2012.241760
Authors | Nabuurs, C. I., Choe, C. U., Veltien, A., Kan, H. E., Van Loon, Luc, Rodenburg, R. J. T., Matschke, J., Wieringa, B., Kemp, G. J., Isbrandt, D. and Heerschap, A. |
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Abstract | Creatine (Cr) plays an important role in muscle energy homeostasis by its participation in the ATP–phosphocreatine phosphoryl exchange reaction mediated by creatine kinase. Given that the consequences of Cr depletion are incompletely understood, we assessed the morphological, metabolic and functional consequences of systemic depletion on skeletal muscle in a mouse model with deficiency of l-arginine:glycine amidinotransferase (AGAT−/−), which catalyses the first step of Cr biosynthesis. In vivo magnetic resonance spectroscopy showed a near-complete absence of Cr and phosphocreatine in resting hindlimb muscle of AGAT−/− mice. Compared with wild-type, the inorganic phosphate/β-ATP ratio was increased fourfold, while ATP levels were reduced by nearly half. Activities of proton-pumping respiratory chain enzymes were reduced, whereas F1F0-ATPase activity and overall mitochondrial content were increased. The Cr-deficient AGAT−/− mice had a reduced grip strength and suffered from severe muscle atrophy. Electron microscopy revealed increased amounts of intramyocellular lipid droplets and crystal formation within mitochondria of AGAT−/− muscle fibres. Ischaemia resulted in exacerbation of the decrease of pH and increased glycolytic ATP synthesis. Oral Cr administration led to rapid accumulation in skeletal muscle (faster than in brain) and reversed all the muscle abnormalities, revealing that the condition of the AGAT−/− mice can be switched between Cr deficient and normal simply by dietary manipulation. Systemic creatine depletion results in mitochondrial dysfunction and intracellular energy deficiency, as well as structural and physiological abnormalities. The consequences of AGAT deficiency are more pronounced than those of muscle-specific creatine kinase deficiency, which suggests a multifaceted involvement of creatine in muscle energy homeostasis in addition to its role in the phosphocreatine–creatine kinase system. |
Year | 2013 |
Journal | Journal of Physiology |
Journal citation | 591 (2), pp. 571 - 592 |
Publisher | Wiley-Blackwell Publishing Ltd. |
ISSN | 0022-3751 |
Digital Object Identifier (DOI) | https://doi.org/10.1113/jphysiol.2012.241760 |
Scopus EID | 2-s2.0-84872420412 |
Page range | 571 - 592 |
Research Group | Mary MacKillop Institute for Health Research |
Publisher's version | File Access Level Controlled |
Place of publication | United Kingdom |
https://acuresearchbank.acu.edu.au/item/8839y/disturbed-energy-metabolism-and-muscular-dystrophy-caused-by-pure-creatine-deficiency-are-reversible-by-creatine-intake
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