ADH increases apical Na+, K+, 2Cl- entry in mouse medullary thick ascending limbs of Henle

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ADH increases apical Na+, K+, 2Cl- entry in mouse medullary thick ascending limbs of Henle

D. A. Molony, W. B. Reeves, S. C. Hebert and T. E. Andreoli

These studies were designed to evaluate the mechanism for the ADH-dependent increase in transcellular conductance (Gc, mS X cm-2), which accompanies hormone-dependent increases in the spontaneous transepithelial voltage (Ve, mV) and in the net rate of Cl- absorption in single medullary thick ascending limbs of Henle (mTALH) isolated from mouse kidney. The total transepithelial conductance (Ge, mS X cm-2) was measured with perfusing solutions containing 5 mM K+, zero Ba2+; Gc was that component of Ge blocked by luminal 20 mM Ba2+, zero K+. In paired experiments, antidiuretic hormone (ADH) increased Gc from 44.5 +/- 5.6 to 58.9 +/- 8.9 mS X cm-2 (delta = 14.3 +/- 5.5; P less than 0.02); however, in the presence of 10(-4) M luminal furosemide, ADH had no significant effect on Gc (delta = 5.0 +/- 4.3; NS). A set of similarly paired measurements together with paired observations on the effects of bath Cl- deletion, permitted an assessment of the effect of ADH on the magnitude of the fall in Gc on bath Cl- removal (delta GClc, mS X cm-2). delta GClc was clearly larger with ADH, 29.6 +/- 4.3, than without ADH, 19.2 +/- 1.0 (delta = 10.4 +/- 4.9; P less than 0.05). However, with luminal furosemide, ADH had no significant effect on delta GClc (delta = 1.7 +/- 4.5; NS). These results indicate that the ADH-dependent increase in Gc is secondary to increased salt entry across the apical membrane. We computed apical (ga, mS X cm-2) and basolateral (gb, mS X cm-2) membrane conductances from the Gc measurements and apical-to-basolateral membrane resistance ratios (Ra/Rb) obtained from cell impalement: the ADH-dependent Gc increase was due to an increase in gb, which was blocked entirely by luminal furosemide. We propose that ADH increases the number of functioning apical membrane Na+,K+,2Cl- transport units, and that gb increases because cell Cl- activity rises and depolarizes the basolateral membrane. Thus the calculated cellular Cl- activity was 16.3 mM without ADH, and 25 mM with ADH.

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				G. Gamba Molecular Physiology and Pathophysiology of Electroneutral Cation-Chloride Cotransporters Physiol Rev, April 1, 2005; 85(2): 423 - 493. [Abstract] [Full Text] [PDF]

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				M. A. KNEPPER, G.-H. KIM, P. FERNÁNDEZ-LLAMA, and C. A. ECELBARGER Regulation of Thick Ascending Limb Transport by Vasopressin J. Am. Soc. Nephrol., March 1, 1999; 10(3): 628 - 634. [Full Text]

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				P. Isenring, S. C. Jacoby, J. A. Payne, and B. Forbush III Comparison of Na-K-Cl Cotransporters. NKCC1, NKCC2, AND THE HEK CELL Na-K-Cl COTRANSPORTER J. Biol. Chem., May 1, 1998; 273(18): 11295 - 11301. [Abstract] [Full Text] [PDF]

				C. J. Winters, L. Zimniak, W. B. Reeves, and T. E. Andreoli Cl- channels in basolateral renal medullary membranes XII. Anti-rbClC-Ka antibody blocks MTAL Cl- channels Am J Physiol Renal Physiol, December 1, 1997; 273(6): F1030 - F1038. [Abstract] [Full Text] [PDF]

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ADH increases apical Na+, K+, 2Cl- entry in mouse medullary thick ascending limbs of Henle