Literature DB >> 16897043

ABCC8 and ABCC9: ABC transporters that regulate K+ channels.

Joseph Bryan1, Alvaro Muñoz, Xinna Zhang, Martina Düfer, Gisela Drews, Peter Krippeit-Drews, Lydia Aguilar-Bryan.   

Abstract

The sulfonylurea receptors (SURs) ABCC8/SUR1 and ABCC9/SUR2 are members of the C-branch of the transport adenosine triphosphatase superfamily. Unlike their brethren, the SURs have no identified transport function; instead, evolution has matched these molecules with K(+) selective pores, either K(IR)6.1/KCNJ8 or K(IR)6.2/KCNJ11, to assemble adenosine triphosphate (ATP)-sensitive K(+) channels found in endocrine cells, neurons, and both smooth and striated muscle. Adenine nucleotides, the major regulators of ATP-sensitive K(+) (K(ATP)) channel activity, exert a dual action. Nucleotide binding to the pore reduces the activity or channel open probability, whereas Mg-nucleotide binding and/or hydrolysis in the nucleotide-binding domains of SUR antagonize this inhibitory action to stimulate channel openings. Mutations in either subunit can alter this balance and, in the case of the SUR1/KIR6.2 channels found in neurons and insulin-secreting pancreatic beta cells, are the cause of monogenic forms of hyperinsulinemic hypoglycemia and neonatal diabetes. Additionally, the subtle dysregulation of K(ATP) channel activity by a K(IR)6.2 polymorphism has been suggested as a predisposing factor in type 2 diabetes mellitus. Studies on K(ATP) channel null mice are clarifying the roles of these metabolically sensitive channels in a variety of tissues.

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Year:  2006        PMID: 16897043     DOI: 10.1007/s00424-006-0116-z

Source DB:  PubMed          Journal:  Pflugers Arch        ISSN: 0031-6768            Impact factor:   3.657


  158 in total

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10.  Functional analyses of novel mutations in the sulfonylurea receptor 1 associated with persistent hyperinsulinemic hypoglycemia of infancy.

Authors:  S L Shyng; T Ferrigni; J B Shepard; A Nestorowicz; B Glaser; M A Permutt; C G Nichols
Journal:  Diabetes       Date:  1998-07       Impact factor: 9.461
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Review 5.  KATP Channels in the Cardiovascular System.

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Review 6.  Epac2-dependent rap1 activation and the control of islet insulin secretion by glucagon-like peptide-1.

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7.  Interaction of asymmetric ABCC9-encoded nucleotide binding domains determines KATP channel SUR2A catalytic activity.

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