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JOURNAL ARTICLE
RESEARCH SUPPORT, NON-U.S. GOV'T
Functional and metabolic effects of extracellular magnesium in normoxic and ischemic myocardium.
American Journal of Physiology 1998 September
Metabolic and functional responses to extracellular Mg2+ concentration ([Mg2+]o) were studied in perfused rat heart. Elevations of [Mg2+]o from 1.2 to 2.4, 5.0, and 8.0 mM dose dependently reduced contractile function and myocardial oxygen consumption (MVO2) up to 80%. Intracellular Mg2+ concentration ([Mg2+]i) remained stable (0.45-0.50 mM) during perfusion with 1.2-5. 0 mM [Mg2+]o but increased to 0.81 +/- 0.14 mM with 8.0 mM [Mg2+]o. Myocardial ATP was unaffected by [Mg2+]o, phosphocreatine (PCr) increased up to 25%, and Pi declined by up to 50%. Free energy of ATP hydrolysis (DeltaGATP) increased from -60 to -64 kJ/mol. Adenosine efflux declined in parallel with changes in MVO2 and [AMP]. At comparable workload and MVO2, the effects of [Mg2+]o on cytosolic free energy were mimicked by reduced extracellular Ca2+ concentration ([Ca2+]o) or Ca2+ antagonism with verapamil. Moreover, functional and energetic effects of [Mg2+]o were reversed by elevated [Ca2+]o. Despite similar reductions in preischemic function and MVO2, metabolic and functional recovery from 30 min of global ischemia was enhanced in hearts treated with 8.0 mM [Mg2+]o vs. 2.0 microM verapamil. It is concluded that 1) 1.2-8.0 mM [Mg2+]o improves myocardial cytosolic free energy indirectly by reducing metabolic rate and Ca2+ entry; 2) [Mg2+]i does not respond rapidly to elevations in [Mg2+]o from 1.2 to 5.0 mM and is uninvolved in acute functional and metabolic responses to [Mg2+]o; 3) adenosine formation in rat heart is indirectly reduced during elevated [Mg2+]o; and 4) 8.0 mM [Mg2+]o provides superior protection during ischemia-reperfusion compared with functionally equipotent Ca2+ channel blockade.
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