Abstract

Angiotensin II regulation of L-type calcium currents in cardiac muscle is controversial and the underlying signaling events are not completely understood. Moreover, the possible role of auxiliary subunit composition of the channels in Angiotensin II modulation of L-type calcium channels has not yet been explored. In this work we study the role of Cavβ subunits and the intracellular signaling responsible for L-type calcium current modulation by Angiotensin II. In cardiomyocytes, Angiotensin II exposure induces rapid inhibition of L-type current with a magnitude that is correlated with the rate of current inactivation. Semi-quantitative PCR of cardiomyocytes at different days of culture reveals changes in the Cavβ subunits expression pattern that are correlated with the rate of current inactivation and with Angiotensin II effect. Over-expression of individual b subunits in heterologous systems reveals that the magnitude of Angiotensin II inhibition is dependent on the Cavβ subunit isoform, with Cavβ1bcontaining channels being more strongly regulated. Cavβ2acontaining channels were insensitive to modulation and this effect was partially due to the N-terminal palmitoylation sites of this subunit. Moreover, PLC or diacylglycerol lipase inhibition prevents the Angiotensin II effect on L-type calcium channels, while PKC inhibition with chelerythrine does not, suggesting a role of arachidonic acid in this process. Finally, we show that in intact cardiomyocytes the magnitude of calcium transients on spontaneous beating cells is modulated by Angiotensin II in a Cavβ subunit-dependent manner. These data demonstrate that Cavβ subunits alter the magnitude of inhibition of L-type current by Angiotensin II.

Highlights

  • Angiotensin II (AngII) is a well known hormone that plays a crucial role in physiology and physiopathology by regulating the function of many cell types.[1]

  • Macroscopic barium currents were recorded from dispersed beating cardiomyocytes using the nystatin perforated patch-clamp method to ensure minimal disruption of the cytosolic environment

  • Donotdistribute. we examined whether changes in residual current after a 250 ms pulse (R250), and AngII sensitivity could be attributable to different days in culture

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Summary

Introduction

Angiotensin II (AngII) is a well known hormone that plays a crucial role in physiology and physiopathology by regulating the function of many cell types.[1]. We postulate that the effect of AngII over L-type calcium current is significantly dependent on CaVβ subunits and arachidonic acid production.

Results
Conclusion

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