Literature DB >> 6090930

Intracellular ATP directly blocks K+ channels in pancreatic B-cells.

D L Cook, C N Hales.   

Abstract

It is known that glucose-induced depolarization of pancreatic B-cells is due to reduced membrane K+-permeability and is coupled to an increase in the rate of glycolysis, but there has been no direct evidence linking specific metabolic processes or products to the closing of membrane K+ channels. During patch-clamp studies of proton inhibition of Ca2+-activated K+ channels [GK(Ca)] in B-cells, we identified a second K+-selective channel which is rapidly and reversibly inhibited by ATP applied to the cytoplasmic surface of the membrane. This channel is spontaneously active in excised patches and frequently coexists with GK(Ca) channels yet is insensitive to membrane potential and to intracellular free Ca2+ and pH. Blocking of the channel is ATP-specific and appears not to require metabolism of the ATP. This ATP-sensitive K+ channel [GK(ATP)] may be a link between metabolism and membrane K+-permeability in pancreatic B-cells.

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Year:  1984        PMID: 6090930     DOI: 10.1038/311271a0

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  357 in total

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4.  BAY K 8644 stimulates glucose-dependent rise of cytoplasmic Ca2+ in hyperpolarized pancreatic beta-cells.

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Journal:  Proc Natl Acad Sci U S A       Date:  1992-07-15       Impact factor: 11.205

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7.  The voltage-dependent block of ATP-sensitive potassium channels of frog skeletal muscle by caesium and barium ions.

Authors:  J M Quayle; N B Standen; P R Stanfield
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8.  Cooperative binding of ATP and MgADP in the sulfonylurea receptor is modulated by glibenclamide.

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10.  ATP-sensitive K-channels in HIT T15 beta-cells studied by patch-clamp methods, 86Rb efflux and glibenclamide binding.

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