Severe Hyperaldosteronism in Neonatal Task3 Potassium Channel Knockout Mice Is Associated With Activation of the Intraadrenal Renin-Angiotensin System

Medientyp: E-Artikel

Titel: Severe Hyperaldosteronism in Neonatal Task3 Potassium Channel Knockout Mice Is Associated With Activation of the Intraadrenal Renin-Angiotensin System

Beteiligte: Bandulik, Sascha; Tauber, Philipp; Penton, David; Schweda, Frank; Tegtmeier, Ines; Sterner, Christina; Lalli, Enzo; Lesage, Florian; Hartmann, Michaela; Barhanin, Jacques; Warth, Richard

Erschienen: The Endocrine Society, 2013

Sprache: Englisch

DOI: 10.1210/en.2013-1101

ISSN: 0013-7227; 1945-7170

Schlagwörter: Endocrinology

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Beschreibung: Abstract Task3 K+ channels are highly expressed in the adrenal cortex and contribute to the angiotensin II and K+ sensitivity of aldosterone-producing glomerulosa cells. Adult Task3−/− mice display a partially autonomous aldosterone secretion, subclinical hyperaldosteronism, and salt-sensitive hypertension. Here, we investigated the age dependence of the adrenal phenotype of Task3−/− mice. Compared with adults, newborn Task3−/− mice displayed a severe adrenal phenotype with strongly increased plasma levels of aldosterone, corticosterone, and progesterone. This adrenocortical dysfunction was accompanied by a modified gene expression profile. The most strongly up-regulated gene was the protease renin. Real-time PCR corroborated the strong increase in adrenal renin expression, and immunofluorescence revealed renin-expressing cells in the zona fasciculata. Together with additional factors, activation of the local adrenal renin system is probably causative for the severely disturbed steroid hormone secretion of neonatal Task3−/− mice. The changes in gene expression patterns of neonatal Task3−/− mice could also be relevant for other forms of hyperaldosteronism.

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