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Literature DB >> 14992262

Electroneutral cation-chloride cotransporters in the central nervous system.

Adriana Mercado¹, David B Mount, Gerardo Gamba.

Abstract

Several members of the cation-chloride cotransporter (solute carrier family 12, SLC12) gene family are expressed within the central nervous system, with one family member, the K+-Cl- cotransporter KCC2, exclusive to neurons. These transporters are best known for their roles in cell volume regulation and epithelial salt transport, but are increasingly receiving attention in neuroscience. In particular, intracellular chloride activity and hence the neuronal response to GABA and glycine appears to be determined by a balance between chloride efflux and influx through KCC2 and the Na+-K+-2Cl- cotransporter NKCC1, respectively. This relationship has important implications for neuronal development, sensory perception, neuronal excitability, and the response to neuronal injury. Finally, the association between loss of function in the K+-Cl- cotransporter KCC3, with a severe peripheral neuropathy associated with agenesis of the corpus callosum, has revealed an unexpected role for K+-Cl- cotransport in the development and/or maintenance of both the central and peripheral nervous systems.

Entities: Chemical Disease Gene

Mesh：

Substances：

Year: 2004 PMID： 14992262 DOI： 10.1023/b:nere.0000010432.44566.21

Source DB: PubMed Journal: Neurochem Res ISSN： 0364-3190 Impact factor: 3.996

66 in total

1. Developmental regulation of the neuronal-specific isoform of K-Cl cotransporter KCC2 in postnatal rat brains.

Authors: J Lu; M Karadsheh; E Delpire
Journal: J Neurobiol Date: 1999-06-15

Review 2. Alternative splicing and diversity of renal transporters.

Authors: G Gamba
Journal: Am J Physiol Renal Physiol Date: 2001-11

3. Cation-Chloride Cotransporters in Neuronal Communication.

Authors: E. Delpire
Journal: News Physiol Sci Date: 2000-12

4. Alternatively spliced isoform of apical Na(+)-K(+)-Cl(-) cotransporter gene encodes a furosemide-sensitive Na(+)-Cl(-)cotransporter.

Authors: C Plata; P Meade; A Hall; R C Welch; N Vázquez; S C Hebert; G Gamba
Journal: Am J Physiol Renal Physiol Date: 2001-04

5. Cloning, characterization, and chromosomal location of a novel human K+-Cl- cotransporter.

Authors: K Hiki; R J D'Andrea; J Furze; J Crawford; E Woollatt; G R Sutherland; M A Vadas; J R Gamble
Journal: J Biol Chem Date: 1999-04-09 Impact factor: 5.157

6. Mice lacking the basolateral Na-K-2Cl cotransporter have impaired epithelial chloride secretion and are profoundly deaf.

Authors: M Flagella; L L Clarke; M L Miller; L C Erway; R A Giannella; A Andringa; L R Gawenis; J Kramer; J J Duffy; T Doetschman; J N Lorenz; E N Yamoah; E L Cardell; G E Shull
Journal: J Biol Chem Date: 1999-09-17 Impact factor: 5.157

7. Differential expression pattern of chloride transporters NCC, NKCC2, KCC1, KCC3, KCC4, and AE3 in the developing rat auditory brainstem.

Authors: Michael Becker; Hans Gerd Nothwang; Eckhard Friauf
Journal: Cell Tissue Res Date: 2003-04-24 Impact factor: 5.249

8. Deafness and renal tubular acidosis in mice lacking the K-Cl co-transporter Kcc4.

Authors: Thomas Boettger; Christian A Hübner; Hannes Maier; Marco B Rust; Franz X Beck; Thomas J Jentsch
Journal: Nature Date: 2002-04-25 Impact factor: 49.962

9. The K-Cl cotransporter KCC3 is mutant in a severe peripheral neuropathy associated with agenesis of the corpus callosum.

Authors: Heidi C Howard; David B Mount; Daniel Rochefort; Nellie Byun; Nicolas Dupré; Jianming Lu; Xuemo Fan; Luyan Song; Jean-Baptiste Rivière; Claude Prévost; Jürgen Horst; Alessandro Simonati; Beate Lemcke; Rick Welch; Roger England; Frank Q Zhan; Adriana Mercado; William B Siesser; Alfred L George; Michael P McDonald; Jean-Pierre Bouchard; Jean Mathieu; Eric Delpire; Guy A Rouleau
Journal: Nat Genet Date: 2002-10-07 Impact factor: 38.330

10. Molecular cloning and functional expression of the bumetanide-sensitive Na-K-Cl cotransporter.

Authors: J C Xu; C Lytle; T T Zhu; J A Payne; E Benz; B Forbush
Journal: Proc Natl Acad Sci U S A Date: 1994-03-15 Impact factor: 11.205

22 in total

Review 1. Ion channels and signaling in the pituitary gland.

Authors: Stanko S Stojilkovic; Joël Tabak; Richard Bertram
Journal: Endocr Rev Date: 2010-07-21 Impact factor: 19.871

2. NKCC1 upregulation disrupts chloride homeostasis in the hypothalamus and increases neuronal activity-sympathetic drive in hypertension.

Authors: Zeng-You Ye; De-Pei Li; Hee Sun Byun; Li Li; Hui-Lin Pan
Journal: J Neurosci Date: 2012-06-20 Impact factor: 6.167

Review 3. Two developmental switches in GABAergic signalling: the K+-Cl- cotransporter KCC2 and carbonic anhydrase CAVII.

Authors: Claudio Rivera; Juha Voipio; Kai Kaila
Journal: J Physiol Date: 2004-11-04 Impact factor: 5.182

4. Ionic mechanism of ouabain-induced swelling of leech Retzius neurons.

Authors: Paul Wilhelm Dierkes; Hans Joachim Wüsten; Guido Klees; Anja Müller; Peter Hochstrate
Journal: Pflugers Arch Date: 2005-12-10 Impact factor: 3.657

5. Altered neuronal chloride homeostasis and excitatory GABAergic signaling in human temporal lobe epilepsy.

Authors: Kristopher T Kahle; Kevin Staley
Journal: Epilepsy Curr Date: 2008 Mar-Apr Impact factor: 7.500

6. Altered chloride homeostasis removes synaptic inhibitory constraint of the stress axis.

Authors: Sarah A Hewitt; Jaclyn I Wamsteeker; Ebba U Kurz; Jaideep S Bains
Journal: Nat Neurosci Date: 2009-03-01 Impact factor: 24.884

Review 7. Living or dying in three quarter time: neonatal orchestration of hippocampal cell death pathways by androgens and excitatory GABA.

Authors: C D Foradori; R J Handa
Journal: Exp Neurol Date: 2008-05-11 Impact factor: 5.330