Hasan Almulla scite author profile

Hasan Almulla

2Publications

26Citation Statements Received

155Citation Statements Given

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University of Edinburgh

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Sodium-dependent recovery of ionised magnesium concentration following magnesium load in rat heart myocytes

Almulla

Bush

Steele

et al. 2005

Pflugers Arch - Eur J Physiol

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Our objectives were to investigate regulation of intracellular ionised Mg2+ concentration ([fMg2+]i) in cardiac muscle and cardiac Na+/Mg2+ antiport stoichiometry. [fMg2+]i was measured at 37 degrees C in isolated rat ventricular myocytes with mag-fura-2. Superfusion of myocytes with Na+ and Ca2+ free solutions containing 30 mM Mg2+ for 15 min more than doubled [fMg2+]i from its basal level (0.75 mM). Re-addition of Na+ caused [fMg2+]i to fall exponentially with time to basal level, the rate increasing linearly with [Na+]. Log(recovery rate) increased linearly with log([Na+]), the slope of 1.06 (95% confidence limits, 0.94-1.17) suggesting one Na+ ion is exchanged for each Mg2+. [fMg2+]i recovery was complete even if the membrane potential was depolarised to 0 mV or if superfusate [Mg2+] was increased to 3 mM. Recovery was rapid in normal Tyrode (0.3 min(-1)) with a Q10 of 2.2. It was completely inhibited by 200 microM imipramine but was unaffected by 20 microM KB-R7943 or 1 microM SEA0400, suggesting the Na+ /Ca2+ antiporter is not involved. Membrane depolarisation by increasing superfusate [K+] to 70 mM, or voltage clamp to 0 mV, increased recovery rate in Na+ containing solutions more than threefold. We conclude [fMg2+]i recovery is by Mg2+ efflux on a 1 Na+:1 Mg2+ antiport.

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Loading rat heart myocytes with Mg²⁺ using low‐[Na⁺] solutions

Almulla

Bush

Steele

et al. 2006

The Journal of Physiology

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Hasan Almulla

Sodium-dependent recovery of ionised magnesium concentration following magnesium load in rat heart myocytes

Loading rat heart myocytes with Mg²⁺ using low‐[Na⁺] solutions

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Hasan Almulla

Sodium-dependent recovery of ionised magnesium concentration following magnesium load in rat heart myocytes

Loading rat heart myocytes with Mg2+ using low‐[Na+] solutions

Contact Info

Product

Resources

About

Loading rat heart myocytes with Mg²⁺ using low‐[Na⁺] solutions