Tubular transport responses to angiotensin

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Tubular transport responses to angiotensin

P. J. Harris and L. G. Navar

Angiotensin II (ANG II) is a powerful effector agent in the regulation of extracellular volume and exerts an important influence on renal sodium excretion. In addition to its effects on aldosterone secretion, ANG II acts directly on the kidney causing retention of sodium at low (physiological) doses and enhanced sodium excretion at high doses. The mechanism for these responses involves vasoconstrictor actions of ANG II on the renal vasculature and a direct action of the peptide on tubular reabsorption. Micropuncture and microperfusion studies have demonstrated that proximal tubular sodium and water transport are stimulated by physiological concentrations (10(-12) to 10(-10) M) of ANG II on the peritubular side, whereas higher doses (10(-7) M) cause inhibition. A luminal site of action in the proximal tubule has also been reported and additional more distal sites are indicated. [125I]ANG II binding sites on the brush border and basolateral membranes of proximal tubule cells have high affinity (Kd in the nanomolar range) for ANG II and lower affinity for ANG III. The biphasic action of ANG II is exerted directly on the epithelial cells and appears to be electroneutral. The data indicate that ANG II binds to receptors on the basolateral cell membrane and alters the rate of entry of sodium through the luminal membrane to increase or decrease, depending on the concentration of peptide. Several possible cellular mechanisms that could mediate these responses are discussed.

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				Y.-J. Lee, I.-K. Song, K.-J. Jang, J. Nielsen, J. Frokiaer, S. Nielsen, and T.-H. Kwon Increased AQP2 targeting in primary cultured IMCD cells in response to angiotensin II through AT1 receptor Am J Physiol Renal Physiol, January 1, 2007; 292(1): F340 - F350. [Abstract] [Full Text] [PDF]

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				D. M. Boesch and J. L. Garvin Age-dependent activation of PKC isoforms by angiotensin II in the proximal nephron Am J Physiol Regulatory Integrative Comp Physiol, September 1, 2001; 281(3): R861 - R867. [Abstract] [Full Text] [PDF]

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				L. G. MELO, M. E. STEINHELPER, S. C. PANG, Y. TSE, and U. ACKERMANN ANP in regulation of arterial pressure and fluid-electrolyte balance: lessons from genetic mouse models Physiol Genomics, June 29, 2000; 3(1): 45 - 58. [Abstract] [Full Text] [PDF]

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				L. G. Melo, A. T. Veress, C. K. Chong, U. Ackermann, and H. Sonnenberg Salt-sensitive hypertension in ANP knockout mice is prevented by AT1 receptor antagonist losartan Am J Physiol Regulatory Integrative Comp Physiol, September 1, 1999; 277(3): R624 - R630. [Abstract] [Full Text] [PDF]

				E. MERVAALA, B. DEHMEL, V. GROSS, A. LIPPOLDT, J. BOHLENDER, A. F. MILIA, D. GANTEN, and F. C. LUFT Angiotensin-Converting Enzyme Inhibition and AT1 Receptor Blockade Modify the Pressure-Natriuresis Relationship by Additive Mechanisms in Rats with Human Renin and Angiotensinogen Genes J. Am. Soc. Nephrol., August 1, 1999; 10(8): 1669 - 1680. [Abstract] [Full Text]

				J. R. Ingelfinger, F. Jung, D. Diamant, L. Haveran, E. Lee, A. Brem, and S.-S. Tang Rat proximal tubule cell line transformed with origin-defective SV40 DNA: autocrine ANG II feedback Am J Physiol Renal Physiol, February 1, 1999; 276(2): F218 - F227. [Abstract] [Full Text] [PDF]

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				R. A.S. Santos, A. C. Simoes e Silva, A. J. Magaldi, M. C. Khosla, K. R. Cesar, K. T. Passaglio, and N. C.V. Baracho Evidence for a Physiological Role of Angiotensin-(1-7) in the Control of Hydroelectrolyte Balance Hypertension, April 1, 1996; 27(4): 875 - 884. [Abstract] [Full Text]

ARTICLES

Tubular transport responses to angiotensin

				V. Gross, A. Lippoldt, W. Schneider, and F. C. Luft Effect of Captopril and Angiotensin II Receptor Blockade on Pressure Natriuresis in Transgenic TGR(mRen-2)27 Rats Hypertension, September 1, 1995; 26(3): 471 - 479. [Abstract] [Full Text]