Electrophysiological responses to angiotensin II of isolated rat adrenal glomerulosa cells

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Electrophysiological responses to angiotensin II of isolated rat adrenal glomerulosa cells

SJ Quinn, MC Cornwall and GH Williams

The membrane response of isolated rat glomerulosa cells to the application of angiotensin II (A II) has been studied using intracellular voltage measurements. The membrane response is biphasic. The first, brief phase involves an increase in membrane conductance and a hyperpolarization from the resting membrane potential. The second, long-lasting phase is characterized by a large decrease in membrane conductance and a depolarization from the resting membrane potential. The reversal potential for the second phase is -94 +/- 1.2 mV, and a linear relationship between reversal potential and external K+ indicates that the A II-mediated response is predominantly inhibition of K+ permeability. The A II response can be elicited when external Ca2+ is replaced by Sr2+ or Ba2+, but the response is inhibited when Mn2+ is added to the bath or when stimulated in a Ca2+-free solution. A II appears to inhibit at least two conductances, when the cell is stimulated by long current steps. External application of A II inhibited the Ca2+ regenerative response found in glomerulosa cells in a dose-dependent manner. The rate of rise of the regenerative response was greatly attenuated by A II; half-maximal inhibition was produced by about 10(-9) M A II. In addition, rectification, evident at voltages more positive than -60 mV during current stimulation, was also inhibited. In conclusion, A II causes rat glomerulosa cells to depolarize due to the inhibition of resting K+ permeability. Action potential activity is not observed during A II-mediated membrane depolarization; rather, both Ca2+ and K+ conductances appear to be inhibited during A II application.

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Endocrinology	Endocrine Reviews	J. Clin. End. & Metab.
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				A. SPAT and L. HUNYADY Control of Aldosterone Secretion: A Model for Convergence in Cellular Signaling Pathways Physiol Rev, April 1, 2004; 84(2): 489 - 539. [Abstract] [Full Text] [PDF]

				N. Lalevee, V. Resin, S. Arnaudeau, N. Demaurex, and M. F. Rossier Intracellular Transport of Calcium from Plasma Membrane to Mitochondria in Adrenal H295R Cells: Implication for Steroidogenesis Endocrinology, October 1, 2003; 144(10): 4575 - 4585. [Abstract] [Full Text] [PDF]

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				G. Czirják, T. Fischer, A. Spät, F. Lesage, and P. Enyedi TASK (TWIK-Related Acid-Sensitive K+ Channel) Is Expressed in Glomerulosa Cells of Rat Adrenal Cortex and Inhibited by Angiotensin II Mol. Endocrinol., June 1, 2000; 14(6): 863 - 874. [Abstract] [Full Text]

				X.-L. Chen, D. A. Bayliss, R. J. Fern, and P. Q. Barrett A role for T-type Ca2+ channels in the synergistic control of aldosterone production by ANG II and K+ Am J Physiol Renal Physiol, May 1, 1999; 276(5): F674 - F683. [Abstract] [Full Text] [PDF]

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				M. F. Rossier, H. B. C. Aptel, C. P. Python, M. M. Burnay, M. B. Vallotton, and A. M. Capponi Inhibition of Low Threshold Calcium Channels by Angiotensin II in Adrenal Glomerulosa Cells through Activation of Protein Kinase C J. Biol. Chem., June 23, 1995; 270(25): 15137 - 15142. [Abstract] [Full Text] [PDF]

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Electrophysiological responses to angiotensin II of isolated rat adrenal glomerulosa cells