Bernardo V. Álvarez scite author profile

Myocardial stretch produces an increase in developed force (DF) that occurs in two phases: the first (rapidly occurring) is generally attributed to an increase in myofilament calcium responsiveness and the second (gradually developing) to an increase in [Ca(2+)](i). Rat ventricular trabeculae were stretched from approximately 88% to approximately 98% of L(max), and the second force phase was analyzed. Intracellular pH, [Na(+)](i), and Ca(2+) transients were measured by epifluorescence with BCECF-AM, SBFI-AM, and fura-2, respectively. After stretch, DF increased by 1.94+/-0.2 g/mm(2) (P<0.01, n = 4), with the second phase accounting for 28+/-2% of the total increase (P<0.001, n = 4). During this phase, SBFI(340/380) ratio increased from 0.73+/-0.01 to 0.76+/-0.01 (P<0.05, n = 5) with an estimated [Na(+)](i) rise of approximately 6 mmol/L. [Ca(2+)](i) transient, expressed as fura-2(340/380) ratio, increased by 9.2+/-3.6% (P<0.05, n = 5). The increase in [Na(+)](i) was blocked by 5-(N-ethyl-N-isopropyl)-amiloride (EIPA). The second phase in force and the increases in [Na(+)](i) and [Ca(2+)](i) transient were blunted by AT(1) or ET(A) blockade. Our data indicate that the second force phase and the increase in [Ca(2+)](i) transient after stretch result from activation of the Na(+)/H(+) exchanger (NHE) increasing [Na(+)](i) and leading to a secondary increase in [Ca(2+)](i) transient. This reflects an autocrine-paracrine mechanism whereby stretch triggers the release of angiotensin II, which in turn releases endothelin and activates the NHE through ET(A) receptors.

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Direct Extracellular Interaction between Carbonic Anhydrase IV and the Human NBC1 Sodium/Bicarbonate Co-Transporter

Álvarez

et al. 2003

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Sodium/bicarbonate co-transporters (NBC) are crucial in the regulation of intracellular pH (pH(i)) and HCO(3)(-) metabolism. Electrogenic NBC1 catalyzes HCO(3)(-) fluxes in mammalian kidney, pancreas, and heart cells. Carbonic anhydrase IV (CAIV), which is also present in these tissues, is glycosylphosphatidyl inositol-anchored to the outer surface of the plasma membrane where it catalyzes the hydration-dehydration of CO(2)/HCO(3)(-). The physical and functional interactions of CAIV and NBC1 were investigated. NBC1 activity was measured by changes of pH(i) in NBC1-transfected HEK293 cells subjected to acid loads. Cotransfection of CAIV with NBC1 increased the rate of pH(i) recovery by 44 +/- 3%, as compared to NBC1-alone. In contrast, CAIV did not increase the functional activity of G767T-NBC1 (mutated on the fourth extracellular loop (EC4) of NBC1), and G767T-NBC1, unlike wild-type NBC1, did not interact with CAIV in glutathione-S-transferase pull-down assays. This indicates that G767 of NBC1 is directly involved in CAIV interaction. NBC1-mediated pH(i) recovery rate after acid load was inhibited by 40 +/- 7% when coexpressed with the inactive human CAII mutant, V143Y. V143Y CAII competes with endogenous CAII for interaction with NBC1 at the inner surface of the plasma membrane, which indicates that NBC1/CAII interaction is needed for full pH(i) recovery activity. We conclude that CAIV binds EC4 of NBC1, and this interaction is essential for full NBC1 activity. The tethering of CAII and CAIV close to the NBC1 HCO(3)(-) transport site maximizes the transmembrane HCO(3)(-) gradient local to NBC1 and thereby activates the transport rate.

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