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  • Angiotensin II (AT1) receptors and NADPH oxidase regulate Cl- current elicited by beta1 integrin stretch in rabbit ventricular myocytes.

Angiotensin II (AT1) receptors and NADPH oxidase regulate Cl- current elicited by beta1 integrin stretch in rabbit ventricular myocytes.

The Journal of general physiology (2004-09-01)
David M Browe, Clive M Baumgarten
RESUMO

Direct stretch of beta1 integrin activates an outwardly rectifying, tamoxifen-sensitive Cl(-) current (Cl(-) SAC) via focal adhesion kinase (FAK) and/or Src. The characteristics of Cl(-) SAC resemble those of the volume-sensitive Cl(-) current, I(Cl,swell). Because myocyte stretch releases angiotensin II (AngII), which binds AT1 receptors (AT1R) and stimulates FAK and Src in an autocrine-paracrine loop, we tested whether AT1R and their downstream signaling cascade participate in mechanotransduction. Paramagnetic beads coated with mAb for beta1-integrin were applied to myocytes and pulled upward with an electromagnet while recording whole-cell anion current. Losartan (5 microM), an AT1R competitive antagonist, blocked Cl(-) SAC but did not significantly alter the background Cl(-) current in the absence of integrin stretch. AT1R signaling is mediated largely by H(2)O(2) produced from superoxide generated by sarcolemmal NADPH oxidase. Diphenyleneiodonium (DPI, 60 microM), a potent NADPH oxidase inhibitor, rapidly and completely blocked both Cl(-) SAC elicited by stretch and the background Cl(-) current. A structurally unrelated NADPH oxidase inhibitor, 4-(2-aminoethyl) benzenesulfonyl fluoride (AEBSF, 0.5 and 2 mM), also rapidly and completely blocked Cl(-) SAC as well as a large fraction of the background Cl(-) current. With continuing integrin stretch, Cl(-) SAC recovered upon washout of AEBSF (2 mM). In the absence of stretch, exogenous AngII (5 nM) activated an outwardly rectifying Cl(-) current that was rapidly and completely blocked by DPI (60 microM). Moreover, exogenous H(2)O(2) (10, 100, and 500 microM), the eventual product of NADPH oxidase activity, also activated Cl(-) SAC in the absence of stretch, whereas catalase (1,000 U/ml), an H(2)O(2) scavenger, attenuated the response to stretch. Application of H(2)O(2) during NADPH oxidase inhibition by either DPI (60 microM) or AEBSF (0.5 mM) did not fully reactivate Cl(-) SAC, however. These results suggest that stretch of beta1-integrin in cardiac myocytes elicits Cl(-) SAC by activating AT1R and NADPH oxidase and, thereby, producing reactive oxygen species. In addition, NADPH oxidase may be intimately coupled to the channel responsible for Cl(-) SAC, providing a second regulatory pathway.