Epithelial Na+ channels are regulated by flow

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Epithelial Na⁺ channels are regulated by flow

Lisa M. Satlin¹^,^*, Shaohu Sheng²^,^*, Craig B. Woda¹, and Thomas R. Kleyman²

¹ Department of Pediatrics, Mount Sinai School of Medicine, New York, New York 10029-6574; and ² Department of Medicine, University of Pittsburgh, Pittsburgh, Pennsylvania 15261

Na⁺ absorption in the renal cortical collecting duct (CCD) is mediated by apical epithelial Na⁺ channels (ENaCs). The CCD is subject to continuous variationsin intraluminal flow rate that we speculate alters hydrostaticpressure, membrane stretch, and shear stress. Although ENaCs sharelimited sequence homology with putative mechanosensitive ion channelsin Caenorhabditis elegans, controversy exists as to whether ENaCsare regulated by biomechanical forces. We examined the effectof varying the rate of fluid flow on whole cell Na⁺ currents (I_Na) in oocytes expressing mouse $alpha$ , $beta$ , $gamma$ -ENaC (mENaC)and on net Na⁺ absorption in microperfused rabbit CCDs. Oocytes injected withmENaC but not water responded to the initiation of superfusateflow (to 4-6 ml/min) with a reversible threefold stimulation ofI_Na without a change in reversal potential. The increase in I_Nawas variable among oocytes. CCDs responded to a threefold increasein rate of luminal flow with a twofold increase in the rate ofnet Na⁺ absorption. An increase in luminal viscosity achieved by additionof 5% dextran to the luminal perfusate did not alter the rateof net Na⁺ absorption, suggesting that shear stress does not influence Na⁺ transport in the CCD. In sum, our data suggest that flow stimulationof ENaC activity and Na⁺ absorption is mediated by an increase in hydrostatic pressureand/or membrane stretch. We propose that intraluminal flow ratemay be an important regulator of channel activity in theCCD.

epithelial sodium channel; ROMK; collecting duct; transepithelial transport; oocyte

^* L. M. Satlin and S. Sheng contributed equally to thisstudy.

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				V. Bhalla and K. R. Hallows Mechanisms of ENaC Regulation and Clinical Implications J. Am. Soc. Nephrol., October 1, 2008; 19(10): 1845 - 1854. [Abstract] [Full Text] [PDF]

				G. Estilo, W. Liu, N. Pastor-Soler, P. Mitchell, M. D. Carattino, T. R. Kleyman, and L. M. Satlin Effect of aldosterone on BK channel expression in mammalian cortical collecting duct Am J Physiol Renal Physiol, September 1, 2008; 295(3): F780 - F788. [Abstract] [Full Text] [PDF]

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				T. Morimoto, W. Liu, C. Woda, M. D. Carattino, Y. Wei, R. P. Hughey, G. Apodaca, L. M. Satlin, and T. R. Kleyman Mechanism underlying flow stimulation of sodium absorption in the mammalian collecting duct Am J Physiol Renal Physiol, September 1, 2006; 291(3): F663 - F669. [Abstract] [Full Text] [PDF]

				D. Olteanu, B. K. Yoder, W. Liu, M. J. Croyle, E. A. Welty, K. Rosborough, J. M. Wyss, P. D. Bell, L. M. Guay-Woodford, M. O. Bevensee, et al. Heightened epithelial Na+ channel-mediated Na+ absorption in a murine polycystic kidney disease model epithelium lacking apical monocilia Am J Physiol Cell Physiol, April 1, 2006; 290(4): C952 - C963. [Abstract] [Full Text] [PDF]

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				D. J. Benos Sensing Tension: Recognizing ENaC as a Stretch Sensor Hypertension, November 1, 2004; 44(5): 616 - 617. [Full Text] [PDF]

				P. A. Ortiz, N. J. Hong, and J. L. Garvin Luminal flow induces eNOS activation and translocation in the rat thick ascending limb Am J Physiol Renal Physiol, August 1, 2004; 287(2): F274 - F280. [Abstract] [Full Text] [PDF]

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