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Knockout of the Na,K-ATPase α2-isoform in the cardiovascular system does not alter basal blood pressure but prevents ACTH-induced hypertension
Author(s) -
Tara N. Rindler,
Iva Dostanic,
Valerie M. Lasko,
Michelle L. Nieman,
Jonathan Neumann,
John N. Lorenz,
Jerry B. Lingrel
Publication year - 2011
Publication title -
american journal of physiology-heart and circulatory physiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.524
H-Index - 197
eISSN - 1522-1539
pISSN - 0363-6135
DOI - 10.1152/ajpheart.00121.2011
Subject(s) - knockout mouse , blood pressure , endocrinology , medicine , vascular smooth muscle , basal (medicine) , hemodynamics , gene isoform , biology , chemistry , smooth muscle , receptor , biochemistry , gene , insulin
The α(2)-isoform of Na,K-ATPase (α(2)) is thought to play a role in blood pressure regulation, but the specific cell type(s) involved have not been identified. Therefore, it is important to study the role of the α(2) in individual cell types in the cardiovascular system. The present study demonstrates the role of vascular smooth muscle α(2) in the regulation of cardiovascular hemodynamics. To accomplish this, we developed a mouse model utilizing the Cre/LoxP system to generate a cell type-specific knockout of the α(2) in vascular smooth muscle cells using the SM22α Cre. We achieved a 90% reduction in the α(2)-expression in heart and vascular smooth muscle in the knockout mice. Interestingly, tail-cuff blood pressure analysis reveals that basal systolic blood pressure is unaffected by the knockout of α(2) in the knockout mice. However, knockout mice do fail to develop ACTH-induced hypertension, as seen in wild-type mice, following 5 days of treatment with ACTH (Cortrosyn; wild type = 119.0 ± 6.8 mmHg; knockout = 103.0 ± 2.0 mmHg). These results demonstrate that α(2)-expression in heart and vascular smooth muscle is not essential for regulation of basal systolic blood pressure, but α(2) is critical for blood pressure regulation under chronic stress such as ACTH-induced hypertension.

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