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The Epithelial Sodium Channel α subunit (α ENaC) alternatively spliced form "b" in Dahl rats: What's next?



Abstract
Background: The amiloride-sensitive Epithelial Sodium Channel (ENaC) is critical in maintaining Na+ balance,
extracellular fluid volume and long term blood pressure control. ENaC is composed of three main subunits α, β, & γ. While α ENaC is critical for channel functionality, β & γ ENaC maximize channel function. To date, there are four alternatively spliced forms of the α subunit of ENaC (α ENaC-a, -b, -c, & -d) that have been published in rats, in addition to the major α ENaC transcript. While α ENaC-a, -c & -d transcripts are low abundance transcripts compared to fulllength α ENaC, α ENaC-b is a higher abundance and salt-sensitive transcript compared to full-length α ENaC.
Presentation of the hypothesis: α ENaC-b protein, which is preferentially produced in Dahl R rats, to a greater extent on high salt diet, exerts a dominant negative effect on full-length α ENaC subunit by physically binding to and trapping full-length α ENaC subunit in the endoplasmic reticulum, and finally accelerating full-length α ENaC proteolytic degradation in a dose-dependent manner. Testing the hypothesis: 1) To examine the mRNA and protein abundance of α ENaC-b relative to α ENaC full-length i kidney, lung, and taste tissues of Dahl rats. 2) To compare the expression (mRNA and protein) of α ENaC-b in kidneys of Dahl S and R rats on regular and high salt diet. 3) To examine the putative binding of α ENaC-b proteins to full-length α ENaC in vitro and to determine the impact of such binding on full-length α ENaC expression in vitro.
Implications of the hypothesis: Our studies will be the first to demonstrate the over-expression of salt-sensitive α ENaC-b spliced form in kidney tissues of Dahl R rats at the expense of full-length α ENaC. The current proposal will provide highly novel insights into the putative mechanisms leading to ENaC hypoactivity in high-salt-fed Dahl R rats. Finally, findings from the present proposal will uncover a new mechanism by which alternative splicing may control the regulation of ENaC expression/function.



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Judul Seri
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No. Panggil
Artikel
Penerbit Springer : Canada.,
Deskripsi Fisik
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Bahasa
English
ISBN/ISSN
doi: 10.1186/1755-76
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NONE
Tipe Isi
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Tipe Media
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Tipe Pembawa
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Edisi
International Archives of Medicine 2010, 3:14
Subyek
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