AHA CDA 11/1/2019 - 10/31/2022

Description

Raw patch-clamp data over the years of work on AHA Career Development Award on the topic of "Importance of collecting duct ClC-Kb/2 channel for urinary electrolyte excretion" Overall, I demonstrated that ClC-K2/b function in the ICs is primarily regulated by dietary Cl- intake in an Ang II-dependent manner. Transcellular ClC-K2/b-mediated Cl- flux reduces the ENaC-generated driving force for K+ secretion (see Principal Scheme) switching the CD transport profile from Na+/K+ exchange during hyperkalemia (only aldosterone is elevated) to NaCl reabsorption during hypovolemia (both aldosterone and Ang II are high). Overstimulation of ENaC and ClC-K2/b by chronically elevated Ang II causes renal salt conservation contributing to Ang II-induced hypertension.

Steps to reproduce

Using a patch-clamp setup in the cell-attached/whole cell mode. Recordings are of ENaC and ClC-K channels at standard voltages. Recordings were performed on split-opened collecting duct tubules isolated from mouse kidney.

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