Increase of free Mg2+in the skeletal muscle of chronic fatigue syndrome patients
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In a previous study we evaluated muscle blood flow and muscle metabolism in patients diagnosed with chronic fatigue syndrome (CFS). To better understand muscle metabolism in CFS, we re-evaluated our data to calculate free Magnesium levels in skeletal muscle. Magnesium is an essential cofactor in a number of cell processes. A total of 20 CFS patients and 11 controls were evaluated. Phosphorus magnetic resonance spectroscopy from the medial gastrocnemius muscle was used to calculate free Mg2+ from the concentrations and chemical shifts of Pi, PCr, and beta ATP peaks. CFS patients had higher magnesium levels in their muscles relative to controls (0.47 + 0.07 vs 0.36 + 0.06 mM, P < 0.01), although there was no difference in the rate of phosphocreatine recovery in these subjects, as reported earlier. This finding was not associated with abnormal oxidative metabolism as measured by the rate of recovery of phosphocreatine after exercise. In summary, calculation of free Mg2+ levels from previous data showed CFS patients had higher resting free Mg2+ levels compared to sedentary controls.
KeywordsChronic Fatigue Syndrome Magnesium Level Muscle Metabolism Chronic Fatigue Syndrome Patient Sedentary Control
Muscle Mg2+in CFS
In a previous study we evaluated muscle blood flow and muscle metabolism in patients diagnosed with chronic fatigue syndrome (CFS) . In this study as well as others [2, 3, 4], it has not been clear whether muscle metabolism is abnormal in CFS. To better understand muscle metabolism in CFS, we re-evaluated our data to calculate free Magnesium levels in skeletal muscle.
Magnesium is an essential cofactor in a number of cell processes. Magnesium ions influence the equilibria of many reactions involved in cellular bioenergetics interacting with phosphorylated molecules and interfering with the kinetics of ion transport across plasma membranes. Most ATP in cells is bound to Mg2+ since MgATP2- is the active species in enzyme binding and the energy producing form in active transport and muscular contraction . Therefore, any alteration in free Mg2+ could have significant consequences in muscle metabolism. Evidence for changes in intracellular magnesium has been reported in a number of diseases [6, 7, 8, 9] and a previous study showed a free Mg2+ impairment in the skeletal muscle of patients with disorders of glycolytic metabolism .
Resting free magnesium levels were calculated from previously collected data . The subjects were CFS patients diagnosed based on the case definition of CFS were compared to inactive control subjects . Magnetic resonance spectroscopy was used to obtain phosphorus metabolites from the medial gastrocnemius muscle with a 2.1 Tesla magnet. The area of each metabolite signal was fitted to a Lorentzian line shape using a time-domain fitting program AMARES/JMRUI , the PCr and Pi concentration were calculated by assuming a normal ATP concentration of 8 mM. The cytosolic pH and [Mg2+] were calculated from the chemical shift of Pi and β-ATP respectively, both measured from the resonance of PCr, using an equation which takes into account the mutual influence between pH and [Mg2+] .
Resting metabolite values for control and CFS subjects. Values are means and SD.
N = 11
N = 20
Our analysis showed CFS patients to have higher magnesium levels in their muscles relative to controls, which is a unique observation. This was true for the population as a whole, although there was overlap in the two populations. This finding was not associated with abnormal oxidative metabolism as measured by the rate of recovery of phosphocreatine after exercise. It is not clear what the implications of having higher free magnesium levels are, since the alteration in free Mg2+ found in other pathologies usually refers to a lower concentration . Previous studies have outlined that free magnesium is related to intracellular pH, but in our study there was no difference in pH between CFS and controls, and there was no relationship between resting free magnesium and resting pH. It is known that a decrease in ATP content causes an increase of Mg2+ concentration, nevertheless the resting ATP level was normal in the skeletal muscle of our patients.
In summary, calculation of free Mg2+ levels from previous data showed CFS patients had higher resting free Mg2+ levels compared to sedentary controls. While this observation was not linked to abnormal muscle oxidative metabolism, further studies are needed to test whether free magnesium levels may indicated some as yet unexplained aspect of CFS.
Supported in part by NIH HL-65179 and by PRIN n° 2004058357.
We would like to thank Elizabeth Hess and Chelsea Albrecht for their help in analyzing the data.
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