Spontaneous Coronary Vasospasm in <i> K <sub>ATP</sub> </i> Mutant Mice Arises From a Smooth Muscle–Extrinsic Process
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- Rahul Kakkar
- From the Department of Medicine (R.K., M.S., M.H., E.M.M.) and Committee on Cell Physiology (D.A.S.), The University of Chicago, Ill; and the Department of Medicine (B.Y., N.-Q.S., K.G., J.C.M.), University of Wisconsin, Madison.
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- Bin Ye
- From the Department of Medicine (R.K., M.S., M.H., E.M.M.) and Committee on Cell Physiology (D.A.S.), The University of Chicago, Ill; and the Department of Medicine (B.Y., N.-Q.S., K.G., J.C.M.), University of Wisconsin, Madison.
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- Douglas A. Stoller
- From the Department of Medicine (R.K., M.S., M.H., E.M.M.) and Committee on Cell Physiology (D.A.S.), The University of Chicago, Ill; and the Department of Medicine (B.Y., N.-Q.S., K.G., J.C.M.), University of Wisconsin, Madison.
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- Matthew Smelley
- From the Department of Medicine (R.K., M.S., M.H., E.M.M.) and Committee on Cell Physiology (D.A.S.), The University of Chicago, Ill; and the Department of Medicine (B.Y., N.-Q.S., K.G., J.C.M.), University of Wisconsin, Madison.
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- Nian-Qing Shi
- From the Department of Medicine (R.K., M.S., M.H., E.M.M.) and Committee on Cell Physiology (D.A.S.), The University of Chicago, Ill; and the Department of Medicine (B.Y., N.-Q.S., K.G., J.C.M.), University of Wisconsin, Madison.
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- Kevin Galles
- From the Department of Medicine (R.K., M.S., M.H., E.M.M.) and Committee on Cell Physiology (D.A.S.), The University of Chicago, Ill; and the Department of Medicine (B.Y., N.-Q.S., K.G., J.C.M.), University of Wisconsin, Madison.
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- Michele Hadhazy
- From the Department of Medicine (R.K., M.S., M.H., E.M.M.) and Committee on Cell Physiology (D.A.S.), The University of Chicago, Ill; and the Department of Medicine (B.Y., N.-Q.S., K.G., J.C.M.), University of Wisconsin, Madison.
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- Jonathan C. Makielski
- From the Department of Medicine (R.K., M.S., M.H., E.M.M.) and Committee on Cell Physiology (D.A.S.), The University of Chicago, Ill; and the Department of Medicine (B.Y., N.-Q.S., K.G., J.C.M.), University of Wisconsin, Madison.
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- Elizabeth M. McNally
- From the Department of Medicine (R.K., M.S., M.H., E.M.M.) and Committee on Cell Physiology (D.A.S.), The University of Chicago, Ill; and the Department of Medicine (B.Y., N.-Q.S., K.G., J.C.M.), University of Wisconsin, Madison.
Abstract
<jats:p> In the vasculature, ATP-sensitive potassium channels (K <jats:sub>ATP</jats:sub> ) channels regulate vascular tone. Mice with targeted gene disruptions of K <jats:sub>ATP</jats:sub> subunits expressed in vascular smooth muscle develop spontaneous coronary vascular spasm and sudden death. From these models, it was hypothesized that the loss of K <jats:sub>ATP</jats:sub> channel activity in arterial vascular smooth muscle was responsible for coronary artery spasm. We now tested this hypothesis using a transgenic strategy where the full-length sulfonylurea receptor containing exon 40 was expressed under the control of a smooth muscle–specific SM22α promoter. Two transgenic founder lines were generated and independently bred to sulfonylurea receptor 2 (SUR2) null mice to generate mice that restored expression of K <jats:sub>ATP</jats:sub> channels in vascular smooth muscle. Transgenic expression of the sulfonylurea receptor in vascular smooth muscle cells was confirmed by detecting mRNA and protein from the transgene. Functional restoration was determined by recording pinacidil-based K <jats:sub>ATP</jats:sub> current by whole cell voltage clamping of isolated aortic vascular smooth muscle cells isolated from the transgenic restored mice. Despite successful restoration of K <jats:sub>ATP</jats:sub> channels in vascular smooth muscle, transgene-restored SUR2 null mice continued to display frequent episodes of spontaneous ST segment elevation, identical to the phenotype seen in SUR2 null mice. As in SUR2 null mice, ST segment elevation was frequently followed by atrioventricular heart block. ST segment elevation and coronary perfusion pressure in the restored mice did not differ significantly between transgene-negative and transgene-positive SUR2 null mice. We conclude that spontaneous coronary vasospasm and sudden death in SUR2 null mice arises from a coronary artery vascular smooth muscle–extrinsic process. </jats:p>
Journal
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- Circulation Research
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Circulation Research 98 (5), 682-689, 2006-03-17
Ovid Technologies (Wolters Kluwer Health)
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Details 詳細情報について
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- CRID
- 1361137043436677888
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- NII Article ID
- 30022676155
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- ISSN
- 15244571
- 00097330
- http://id.crossref.org/issn/00097330
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- Data Source
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- Crossref
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