K-Cl Cotransporters, Cell Volume Homeostasis, and Neurological Disease

Authors

Kristopher K. Kahle
Arjun R. Khanna
Seth L. Alper
Norma C. Adragna, Wright State University - Main CampusFollow
Peter K. Lauf, Wright State University - Main CampusFollow
Dandan Sun
Eric Delpire

Document Type

Article

Publication Date

8-2015

Abstract

K⁺-Cl^– cotransporters (KCCs) were originally characterized as regulators of red blood cell (RBC) volume. Since then, four distinct KCCs have been cloned, and their importance for volume regulation has been demonstrated in other cell types. Genetic models of certain KCCs, such as KCC3, and their inhibitory WNK-STE20/SPS1-related proline/alanine-rich kinase (SPAK) serine-threonine kinases, have demonstrated the evolutionary necessity of these molecules for nervous system cell volume regulation, structure, and function, and their involvement in neurological disease. The recent characterization of a swelling-activated dephosphorylation mechanism that potently stimulates the KCCs has pinpointed a potentially druggable switch of KCC activity. An improved understanding of WNK/SPAK-mediated KCC cell volume regulation in the nervous system might reveal novel avenues for the treatment of multiple neurological diseases.

Repository Citation

Kahle, K. K., Khanna, A. R., Alper, S. L., Adragna, N. C., Lauf, P. K., Sun, D., & Delpire, E. (2015). K-Cl Cotransporters, Cell Volume Homeostasis, and Neurological Disease. Trends in Molecular Medicine, 21 (8), 513-523.
https://corescholar.libraries.wright.edu/ptox/83

DOI

10.1016/j.molmed.2015.05.008