EP1 Disruption Attenuates End-Organ Damage in a Mouse Model of Hypertension

Prostaglandin E2 is a major prostanoid found in the kidney and vasculature contributing to the regulation of blood pressure. The prostaglandin E2 receptor EP1 has been shown to contribute to hypertension by mediating angiotensin II-dependent vasoconstriction, although its precise role is incompletel...

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Bibliographic Details
Published in:Hypertension (Dallas, Tex. 1979) Tex. 1979), 2012-11, Vol.60 (5), p.1184-1191
Main Authors: Bartlett, Christina S, Boyd, Kelli L, Harris, Raymond C, Zent, Roy, Breyer, Richard M
Format: Article
Language:English
Subjects:
Angiotensin II
Animals
Antihypertensive Agents - pharmacology
Aortic Aneurysm - genetics
Aortic Aneurysm - physiopathology
Arterial hypertension. Arterial hypotension
Biological and medical sciences
Blood and lymphatic vessels
Blood Pressure - drug effects
Blood Pressure - genetics
Blood Pressure - physiology
Cardiology. Vascular system
Clinical manifestations. Epidemiology. Investigative techniques. Etiology
Desoxycorticosterone
Disease Models, Animal
Female
Humans
Hydralazine - pharmacology
Hypertension - etiology
Hypertension - genetics
Hypertension - physiopathology
Kaplan-Meier Estimate
Kidney - metabolism
Kidney - pathology
Kidney - physiopathology
Male
Medical sciences
Mice
Mice, Inbred C57BL
Mice, Knockout
Nephrectomy
Receptors, Prostaglandin E, EP1 Subtype - deficiency
Receptors, Prostaglandin E, EP1 Subtype - genetics
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Summary:Prostaglandin E2 is a major prostanoid found in the kidney and vasculature contributing to the regulation of blood pressure. The prostaglandin E2 receptor EP1 has been shown to contribute to hypertension by mediating angiotensin II-dependent vasoconstriction, although its precise role is incompletely characterized. Disruption of the EP1 receptor in C57BL/6J mice reduced the incidence of mortality during severe hypertension induced by uninephrectomy, deoxycorticosterone acetate, and angiotensin II. Mortality was dependent on all components of the model. Death was a result of aortic aneurysm rupture or occurred after development of anasarca, each of which was reduced in EP1−/− mice. Mean arterial pressure was increased in treated EP1+/+ and EP1−/− mice; however, this elevation was significantly lower in EP1−/− mice. Blood pressure reduction via administration of hydralazine phenocopied EP1−/− mice. Thus, reduction in blood pressure by disruption of EP1 reduced incidence of mortality and decreased organ damage, suggesting that EP1 receptor blockade may be a viable target for antihypertensive therapy.
ISSN:0194-911X
1524-4563
DOI:10.1161/HYPERTENSIONAHA.112.199026