Functional characterization of two distinct Mg2+ extrusion mechanisms in cardiac sarcolemmal vesicles |
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Authors: | Christie Cefaratti Andrea M P Romani |
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Institution: | (1) Department of Physiology and Biophysics, School of Medicine, Case Western Reserve University, 10900 Euclid Avenue, Cleveland, OH 44106-4970, USA |
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Abstract: | Cardiac ventricular myocytes extrude a sizeable amount of their total Mg2+ content upon stimulation by β-adrenergic agonists. This extrusion occurs within a few minutes from the application of the
agonist, suggesting the operation of rapid and abundantly represented Mg2+ transport mechanisms in the cardiac sarcolemma. The present study was aimed at characterizing the operation of these transport
mechanisms under well defined conditions. Male Sprague-Dawley rats were used to purify a biochemical standardized preparation
of sealed rat cardiac sarcolemmal vesicles. This experimental model has the advantage that trans-sarcolemmal cation transport
can be studied under specific extra- and intra-vesicular ionic conditions, in the absence of intracellular organelles, and
buffering or signaling components. Magnesium ion (Mg2+) transport was assessed by atomic absorbance spectrophotometry. The results reported here indicate that: (1) sarcolemma vesicles
retained trapped intravesicular Mg2+ in the absence of extravesicular counter-ions; (2) the addition of Na+ or Ca2+ induced a rapid and concentration-dependent Mg2+ extrusion from the vesicles; (3) co-addition of maximal concentrations of Na+ and Ca2+ resulted in an additive Mg2+ extrusion; (4) Mg2+ extrusion was blocked by addition of amiloride or imipramine; (5) pre-treatment of sarcolemma vesicles with alkaline phosphatase
at the time of preparation completely abolished Na+- but not Ca2+-induced Mg2+ extrusion; (6) Na+-dependent Mg2+ transport could be restored by stimulating vesicles loaded with protein kinase A catalytic subunit and ATP with membrane-permeant
cyclic-AMP analog; (7) extra-vesicular Mg2+ could be accumulated in exchange for intravesicular Na+ via a mechanism inhibited by amiloride or alkaline phosphatase treatment; (8) Mg2+ accumulation could be restored via cAMP/protein kinase A protocol. Overall, these data provide compelling evidence for the
operation of distinct Na+- and Ca2+-dependent Mg2+ extrusion mechanisms in sarcolemma vesicles. The Na+-dependent mechanism appears to be specifically activated via protein kinase A/cAMP-dependent phosphorylation process, and
can operate in either direction based upon the cation concentration gradient across the sarcolemma. The Ca2+-dependent mechanism, instead, only mediates Mg2+ extrusion in a cAMP-independent manner. |
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Keywords: | Magnesium Sarcolemma vesicles Protein kinase A cAMP Na+– Mg2+ exchanger PKI |
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