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Current Drug Targets

Editor-in-Chief

ISSN (Print): 1389-4501
ISSN (Online): 1873-5592

The Ca2+-Activated K+ Channel of Intermediate Conductance:A Molecular Target for Novel Treatments?

Author(s): B. S. Jensen, D. Strobaek, S.-P. Olesen and P. Christophersen

Volume 2, Issue 4, 2001

Page: [401 - 422] Pages: 22

DOI: 10.2174/1389450013348173

Price: $65

Abstract

This review discusses the Ca2+-activated K+ channels of intermediate conductance (IK channels), and their historical discovery in erythrocytes, their classical biophysical characteristics, physiological function, molecular biology as well as their role as possible molecular targets for pharmacological intervention in various diseases. The first described Ca2+-activated K+ channel ever - the so-called Gardos channel from human erythrocytes - is an IK channel. The “I” denominates the intermediate conductance that distinguishes the IK channels from the related Ca2+- activated K+ channels of small (SK) or large (BK) conductance. The recent cloning of the human IK channel gene (KCNN4) enabled a detailed mapping of the expression in various tissues. IK channel expression is found predominately in cells of the blood, in epithelia and endothelia. An important physiological role of IK channels is to set the membrane potential at fairly negative values and thereby to build up large electrical gradients for the passive transport of ions such as Cl- efflux driving water and Na+ secretion from epithelia, and Ca2+ influx controlling Tlymphocyte proliferation. The molecular cloning of IK and SK channels has revealed that both channels gain their Ca2+-sensitivity from tightly bound calmodulin (CaM). The IK channel is potently blocked by the scorpion toxin charybdotoxin (ChTx) and the antimycotic clotrimazole (CLT). CLT has been in clinical trials for the treatment of sickle cell disease, diarrhea and ameliorates the symptoms of rheumatoid arthritis. However, inhibition of cytochrome P450 enzymes by CLT limits its therapeutic value, but new drug candidates are entering the stage. It is discussed whether pharmacological modulation of IK channels may be beneficial in sickle cell anemia, cystic fibrosis, secretory diarrhea, craft-versus-host disease and autoimmune diseases.


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