Real-time three-dimensional imaging of lipid signal transduction: apical membrane insertion of epithelial Na+ channels

doi:10.1152/ajpcell.00226.2004

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Real-time three-dimensional imaging of lipid signal transduction: apical membrane insertion of epithelial Na⁺ channels

Bonnie L. Blazer-Yost,¹ Judith C. Vahle,¹ Jason M. Byars,²^,3 and Robert L. Bacallao²^,3

¹Department of Biology, Indiana University-Purdue University at Indianapolis; ²Division of Nephrology, Indiana University School of Medicine; and ³Richard Roudebusch Veterans Affairs Medical Center, Indianapolis, Indiana 46202

Submitted 7 May 2004 ; accepted in final form 21 July 2004

In the distal tubule, Na⁺ resorption is mediated by epithelialNa⁺ channels (ENaC). Hormones such as aldosterone, vasopressin,and insulin modulate ENaC membrane targeting, assembly, and/orkinetic activity, thereby regulating salt and water homeostasis.Insulin binds to a receptor on the basal membrane to initiatea signal transduction cascade that rapidly results in an increasein apical membrane ENaC. Current models of this signaling pathwayenvision diffusion of signaling intermediates from the basalto the apical membrane. This necessitates diffusion of severalhigh-molecular-weight signaling elements across a three-dimensionalspace. Transduction of the insulin signal involves the phosphoinositidepathway, but how and where this lipid-based signaling pathwaycontrols ENaC activity is not known. We used tagged channels,biosensor lipid probes, and intravital imaging to investigatethe role of lipids in insulin-stimulated Na⁺ flux. Insulin-stimulateddelivery of intracellular ENaC to apical membranes was concurrentwith plasma membrane-limited changes in lipid composition. Notably,in response to insulin, phosphatidylinositol 3,4,5-trisphosphate(PIP₃) formed in the basolateral membrane, rapidly diffusedwithin the bilayer, and crossed the tight junction to enterthe apical membrane. This novel signaling pathway takes advantageof the fact that the lipids of the plasma membrane's inner leafletare not constrained by the tight junction. Therefore, diffusionof PIP₃ as a signal transduction intermediate occurs withina planar surface, thus facilitating swift responses and confiningand controlling the signaling pathway.

phosphatidylinositol 3,4,5-trisphosphate; insulin-stimulated Na⁺ transport; metabolic syndrome; real-time confocal imaging

Address for reprint requests and other correspondence: B. L. Blazer-Yost, Biology Dept., SL 358, Indiana Univ.-Purdue Univ. at Indianapolis, 723 W. Michigan St., Indianapolis, IN 46202 (E-mail: bblazer{at}iupui.edu)

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