The international journal of biochemistry & cell biology
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Int. J. Biochem. Cell Biol. · Oct 2005
ReviewInsulin-like growth factor-1 and muscle wasting in chronic heart failure.
Chronic heart failure is a clinical syndrome of cardiac origin, which affects various organ systems. It is associated with metabolic abnormalities leading to a catabolic syndrome in advanced stages of the disease. As in several other chronic diseases, skeletal muscle dysfunction and structural muscle abnormalities result in progressive muscle wasting and cachexia. ⋯ This suppression occurs in the presence of normal serum levels of insulin-like growth factor-1. In addition to catabolic effects of proinflammatory cytokines, these recent findings are consistent with reduced anabolism involving altered local insulin-like growth factor-1 levels in progressive muscle atrophy in chronic heart failure. This article describes local effects of insulin-like growth factor-1 on skeletal muscle function and morphology, its role in stem cell recruitment and muscle regeneration as well as its regulation in circumstances of muscle inflammation and wasting.
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Int. J. Biochem. Cell Biol. · Oct 2005
ReviewMuscle glutamine depletion in the intensive care unit.
Glutamine is primarily synthesized in skeletal muscle and enables transfer of nitrogen to splanchnic tissues, kidneys and immune system. Discrepancy between increasing rates of glutamine utilization at whole body level and relative impairment of de novo synthesis in skeletal muscle leads to systemic glutamine deficiency and characterizes critical illness. Glutamine depletion at whole body level may contribute to gut, liver and immune system disfunctions, whereas its intramuscular deficiency may directly contribute to lean body mass loss. ⋯ Enteral glutamine administration preferentially increases glutamine disposal in splanchnic tissues, whereas parenteral supplementation provides glutamine to the whole organism. Nonetheless, systemic administration was ineffective in preventing muscle depletion, due to a relative inability of skeletal muscle to seize glutamine from the bloodstream. Intramuscular glutamine depletion could be potentially counteracted by promoting de novo glutamine synthesis with pharmacological or nutritional interventions.