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Literature DB >> 28935604

Molecular features and physiological roles of K⁺-Cl^- cotransporter 4 (KCC4).

A A Marcoux¹, A P Garneau², R Frenette-Cotton¹, S Slimani¹, F Mac-Way¹, P Isenring³.

Abstract

A K+-Cl- cotransport system was documented for the first time during the mid-seventies in sheep and goat red blood cells. It was then described as a Na+-independent and ouabain-insensitive ion carrier that could be stimulated by cell swelling and N-ethylmaleimide (NEM), a thiol-reacting agent. Twenty years later, this system was found to be dispensed by four different isoforms in animal cells. The first one was identified in the expressed sequence tag (EST) database by Gillen et al. based on the assumption that it would be homologous to the Na+-dependent K+-Cl- cotransport system for which the molecular identity had already been uncovered. Not long after, the three other isoforms were once again identified in the EST databank. Among those, KCC4 has generated much interest a few years ago when it was shown to sustain distal renal acidification and hearing development in mouse. As will be seen in this review, many additional roles were ascribed to this isoform, in keeping with its wide distribution in animal species. However, some of them have still not been confirmed through animal models of gene inactivation or overexpression. Along the same line, considerable knowledge has been acquired on the mechanisms by which KCC4 is regulated and the environmental cues to which it is sensitive. Yet, it is inferred to some extent from historical views and extrapolations.

Entities: Chemical Gene Species

Keywords: Abnormal cell growth; Animal models; Cation-Cl(−) cotransporter; Gastric secretion; K(+)-Cl(−) cotransporter; Renal tubular acidosis

Mesh：

Substances：

Year: 2017 PMID： 28935604 DOI： 10.1016/j.bbagen.2017.09.007

Source DB: PubMed Journal: Biochim Biophys Acta Gen Subj ISSN： 0304-4165 Impact factor: 3.770

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Cited

9 in total

1. Genetic and pharmacological inactivation of apical Na⁺-K⁺-2Cl^- cotransporter 1 in choroid plexus epithelial cells reveals the physiological function of the cotransporter.

Authors: Jeannine M C Gregoriades; Aaron Madaris; Francisco J Alvarez; Francisco J Alvarez-Leefmans
Journal: Am J Physiol Cell Physiol Date: 2018-12-21 Impact factor: 4.249

Review 2. Physiological roles and molecular mechanisms of K⁺ -Cl^- cotransport in the mammalian kidney and cardiovascular system: where are we?

Authors: A P Garneau; A A Marcoux; S Slimani; L E Tremblay; R Frenette-Cotton; F Mac-Way; P Isenring
Journal: J Physiol Date: 2019-02-09 Impact factor: 5.182

3. Integrated K+ channel and K+Cl- cotransporter functions are required for the coordination of size and proportion during development.

Authors: Jennifer S Lanni; David Peal; Laura Ekstrom; Haining Chen; Caroline Stanclift; Margot E Bowen; Adriana Mercado; Gerardo Gamba; Kristopher T Kahle; Matthew P Harris
Journal: Dev Biol Date: 2019-08-28 Impact factor: 3.582

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Journal: Nat Commun Date: 2022-02-10 Impact factor: 17.694

5. Whole-genome sequencing association analysis of quantitative red blood cell phenotypes: The NHLBI TOPMed program.

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Review 6. K⁺-Cl^- cotransporter 1 (KCC1): a housekeeping membrane protein that plays key supplemental roles in hematopoietic and cancer cells.

Authors: A P Garneau; S Slimani; L E Tremblay; M J Fiola; A A Marcoux; P Isenring
Journal: J Hematol Oncol Date: 2019-07-11 Impact factor: 17.388

Review 7. The Important Role of Ion Transport System in Cervical Cancer.

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Journal: Int J Mol Sci Date: 2021-12-29 Impact factor: 5.923

8. Cryo-EM structure of the potassium-chloride cotransporter KCC4 in lipid nanodiscs.

Authors: Michelle S Reid; David M Kern; Stephen Graf Brohawn
Journal: Elife Date: 2020-04-14 Impact factor: 8.140

9. Erythroid-specific inactivation of Slc12a6/Kcc3 by EpoR promoter-driven Cre expression reduces K-Cl cotransport activity in mouse erythrocytes.

Authors: Boris E Shmukler; Alicia Rivera; Katherine Nishimura; Ann Hsu; Jay G Wohlgemuth; Jeffrey S Dlott; L Michael Snyder; Carlo Brugnara; Seth L Alper
Journal: Physiol Rep Date: 2022-03