AI Article Synopsis
- Rat thymocytes have two distinct Na+/Mg2+ exchangers, HANao and LANao, which differ in their affinities for external sodium (Na+o) and mechanisms of operation.
- The HANao exchanger is a one-to-one antiporter that is insensitive to external magnesium (Mg2+o), while LANao operates as a "ping-pong" antiporter and is significantly inhibited by Mg2+o.
- The study enhances understanding of how these exchangers are stimulated by internal magnesium levels and how they interact with sodium and magnesium ions under different conditions.
Article Abstract
Rat thymocytes showed two Na+/Mg2+ exchangers with high- and low- affinities for external Na+ (Na+o) at physiological internal Mg2+content. The total internal Mg2+ content (Mg2+it) was enhanced by loading with MgCl2 and the ionophore A-23187. Under these conditions, Na+/Mg2+ exchangers were dramatically stimulated by the Mg2+it increase. Na+-induced Mg2+ effluxes were independent of Cl-o or H+. The Na+/Mg2+ exchangers, which we named HANao (high affinity for Na+o) and LANao (low affinity for Na+o), were dissected in Mg2+-loaded thymocytes according to their kinetics and stoichiometries. HANao, which showed an apparent dissociation constant for Na+o (KNa H) = 9.2 +/- 1.6 mmol l(-1) Na+o and a maximal Na+ influx rate (VNa(Na H)max) = 30.5 +/- 6.1 mmol (l cells)(-1) h(-1), was a 1Na+:1Mg2+ simultaneous antiporter insensitive to external magnesium (Mg2+o) whereas that LANao, with KNa L = 65.1 +/- 8.6 mmol l(-1) Na+ and a VNa(Na L)max = 79.5 +/- 14.3 mmol (l cells)(-1) Na+ h(-1), was a 2Na+:1Mg2+ "ping-pong" antiporter which was strongly inhibited by Mg2+o. At physiological concentration of Mg2+o (1 mM), the Na+/Mg2+ exchange through the LANao was inhibited by approximately 50%. Amiloride (10(-4) M) inhibited at similar extent both Na+ and Mg2+ fluxes at high and at low Na+o.
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