OBJECTIVE: The aim was to examine the regulation of the cardiac Na(+)-independent Cl(-)/HCO(3)(-) exchanger (AE) mRNA isoform expression in association to the enhanced AE activity in the hypertrophied myocardium of spontaneously hypertensive rats (SHR). METHODS: AE activity was determined by the initial rates of the pH(i) recovery from imposed intracellular alkalinization (forward mode of exchange) and the pH(i) rise induced by Cl(-) removal (reverse mode). Net HCO(3)(-) (J(HCO(3)(-))) efflux and influx were respectively determined. AE mRNA isoforms were analyzed by Northern blot with specific probes to detect AE1, AE2 and AE3 mRNAs. RESULTS: Initial J(HCO(3)(-)) efflux after imposed alkaline load (pH(i) congruent with 7.5) was higher in SHR than in normotensive WKY rats (3.01+/-0.33, n=7, vs. 0.64+/-0.29 mM/min, n=5, P<0.05). J(HCO(3)(-)) influx induced by Cl(-) deprivation was also increased in SHR, 4.24+/-0.56 mM/min (n=10) versus 2.31+/-0.26 (n=10, P<0.05) in WKY. In arbitrary units, the 4.1-kb AE1 mRNA decreased in SHR (0.15+/-0.01, n=7) compared to WKY (0.29+/-0.06, n=7, P<0.05), whereas the 3.6-kb mRNA did not change. AE2 mRNAs were similarly expressed in WKY and SHR. Cardiac specific AE3 (cAE3) mRNA decreased in SHR, 1.10+/-0.16 arbitrary units (n=8) versus 1.79+/-0.24, (n=8, P<0.05) in WKY. Full length AE3 (flAE3) mRNA increased from 0.69+/-0.06 (WKY, n=8) to 1.25+/-0.19 arbitrary units in SHR (n=8, P<0.05). CONCLUSIONS: The increase in flAE3 mRNA expression in cardiac tissue from the SHR is an adaptive change of the hypertrophied myocardium that might be in connection with the increased activity of the AE.
OBJECTIVE: The aim was to examine the regulation of the cardiac Na(+)-independent Cl(-)/HCO(3)(-) exchanger (AE) mRNA isoform expression in association to the enhanced AE activity in the hypertrophied myocardium of spontaneously hypertensiverats (SHR). METHODS: AE activity was determined by the initial rates of the pH(i) recovery from imposed intracellular alkalinization (forward mode of exchange) and the pH(i) rise induced by Cl(-) removal (reverse mode). Net HCO(3)(-) (J(HCO(3)(-))) efflux and influx were respectively determined. AE mRNA isoforms were analyzed by Northern blot with specific probes to detect AE1, AE2 and AE3 mRNAs. RESULTS: Initial J(HCO(3)(-)) efflux after imposed alkaline load (pH(i) congruent with 7.5) was higher in SHR than in normotensive WKY rats (3.01+/-0.33, n=7, vs. 0.64+/-0.29 mM/min, n=5, P<0.05). J(HCO(3)(-)) influx induced by Cl(-) deprivation was also increased in SHR, 4.24+/-0.56 mM/min (n=10) versus 2.31+/-0.26 (n=10, P<0.05) in WKY. In arbitrary units, the 4.1-kb AE1 mRNA decreased in SHR (0.15+/-0.01, n=7) compared to WKY (0.29+/-0.06, n=7, P<0.05), whereas the 3.6-kb mRNA did not change. AE2 mRNAs were similarly expressed in WKY and SHR. Cardiac specific AE3 (cAE3) mRNA decreased in SHR, 1.10+/-0.16 arbitrary units (n=8) versus 1.79+/-0.24, (n=8, P<0.05) in WKY. Full length AE3 (flAE3) mRNA increased from 0.69+/-0.06 (WKY, n=8) to 1.25+/-0.19 arbitrary units in SHR (n=8, P<0.05). CONCLUSIONS: The increase in flAE3 mRNA expression in cardiac tissue from the SHR is an adaptive change of the hypertrophied myocardium that might be in connection with the increased activity of the AE.
Authors: Nabeel J Al Moamen; Vikram Prasad; Ilona Bodi; Marian L Miller; Michelle L Neiman; Valerie M Lasko; Seth L Alper; David F Wieczorek; John N Lorenz; Gary E Shull Journal: J Mol Cell Cardiol Date: 2010-11-04 Impact factor: 5.000
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