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Am J Physiol. 1997 Nov;273(5 Pt 1):C1516-25.

Functional characterization of the neuronal-specific K-Cl cotransporter: implications for [K+]o regulation.

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1
Department of Human Physiology, University of California, School of Medicine, Davis 95616, USA.

Abstract

The neuronal K-Cl cotransporter isoform (KCC2) was functionally expressed in human embryonic kidney (HEK-293) cell lines. Two stably transfected HEK-293 cell lines were prepared: one expressing an epitope-tagged KCC2 (KCC2-22T) and another expressing the unaltered KCC2 (KCC2-9). The KCC2-22T cells produced a glycoprotein of approximately 150 kDa that was absent from HEK-293 control cells. The 86Rb influx in both cell lines was significantly greater than untransfected control HEK-293 cells. The KCC2-9 cells displayed a constitutively active 86Rb influx that could be increased further by 1 mM N-ethylmaleimide (NEM) but not by cell swelling. Both furosemide [inhibition constant (Ki) approximately 25 microM] and bumetanide (Ki approximately 55 microM) inhibited the NEM-stimulated 86Rb influx in the KCC2-9 cells. This diuretic-sensitive 86Rb influx in the KCC2-9 cells, operationally defined as KCC2 mediated, required external Cl- but not external Na+ and exhibited a high apparent affinity for external Rb+(K+) [Michaelis constant (Km) = 5.2 +/- 0.9 (SE) mM; n = 5] but a low apparent affinity for external Cl- (Km > 50 mM). On the basis of thermodynamic considerations as well as the unique kinetic properties of the KCC2 isoform, it is hypothesized that KCC2 may serve a dual function in neurons: 1) the maintenance of low intracellular Cl- concentration so as to allow Cl- influx via ligand-gated Cl- channels and 2) the buffering of external K+ concentration ([K+]o) in the brain.

PMID:
9374636
[Indexed for MEDLINE]
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