Respiration and Parturition Affected by Conditional Overexpression of the Ca 2+ -Activated K + Channel Subunit, SK3-Reference-Cited by-同舟云学术

Respiration and Parturition Affected by Conditional Overexpression of the Ca 2+ -Activated K + Channel Subunit, SK3

Published:2000-09-15 Issue:5486 Volume:289 Page:1942-1946
ISSN:0036-8075
Container-title:Science
language:en
Short-container-title:Science

Author:

Bond Chris T.¹,Sprengel Rolf²,Bissonnette John M.³,Kaufmann Walter A.⁴,Pribnow David⁵,Neelands Torben¹,Storck Thorsten²,Baetscher Manfred⁶,Jerecic Jasna²,Maylie James³,Knaus Hans-Günther⁴,Seeburg Peter H.²,Adelman John P.¹

Affiliation:

1. Vollum Institute,

2. Department of Molecular Neuroscience, Max-Planck-Institute for Medical Research, D-69120 Heidelberg, Germany.

3. Department of Obstetrics and Gynecology,

4. Institute of Biochemical Pharmacology, University of Innsbruck, A-6020 Innsbruck/Tyrol, Austria.

5. Department of Cell and Developmental Biology,

6. Department of Molecular and Medical Genetics, Oregon Health Sciences University, Portland, OR 97201, USA.

Abstract

In excitable cells, small-conductance Ca 2+ -activated potassium channels (SK channels) are responsible for the slow after-hyperpolarization that often follows an action potential. Three SK channel subunits have been molecularly characterized. The SK3 gene was targeted by homologous recombination for the insertion of a gene switch that permitted experimental regulation of SK3 expression while retaining normal SK3 promoter function. An absence of SK3 did not present overt phenotypic consequences. However, SK3 overexpression induced abnormal respiratory responses to hypoxia and compromised parturition. Both conditions were corrected by silencing the gene. The results implicate SK3 channels as potential therapeutic targets for disorders such as sleep apnea or sudden infant death syndrome and for regulating uterine contractions during labor.

Publisher

American Association for the Advancement of Science (AAAS)

Subject

Multidisciplinary

Reference34 articles.

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4. Mechanism of calcium gating in small-conductance calcium-activated potassium channels

5. Mice harboring the regulatory cassette in the SK3 gene were developed as follows. The murine SK3 locus was isolated from a 129/SV genomic library (courtesy of M. Low Vollum Institute). Nucleotide sequence analysis revealed an open reading frame (ORF) 5′ to the initiator methionine used for heterologous expression studies of rat SK3 (3) extending the SK3 sequence by 174 amino acids to a methionine that is preceded by in-frame translational stop codons similar to the human SK3 sequence (29). The regulatory cassette was inserted into SK3 genomic DNA by homologous recombination in a position 42 base pairs (bp) upstream of the most 5′ methionine codon and the targeting construct was electroporated into mouse J1 embryonic stem (ES) cells (gift of R. Jaenisch Whitehead Institute Boston MA). Sequence analysis of the targeted SK3 allele showed that a deletion had eliminated 40 codons from the putative NH 2 -terminal coding region deleting most of a predicted polymorphic polyglutamine stretch. Expression in Xenopus oocytes of SK3 mRNA containing the extended ORF with or without the encoded polyglutamine repeat did not alter current amplitudes calcium sensitivity or pharmacology. Injection of this ES cell clone into C57Bl/6 blastocysts gave rise to chimeric offspring and the targeted allele was transmitted in crosses to C57Bl/6 females.

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