Task3 potassium channel gene invalidation causes low renin and salt-sensitive arterial hypertension.

نویسندگان

  • David Penton
  • Sascha Bandulik
  • Frank Schweda
  • Sophia Haubs
  • Philipp Tauber
  • Markus Reichold
  • Lu Dang Cong
  • Abeer El Wakil
  • Thomas Budde
  • Florian Lesage
  • Enzo Lalli
  • Maria-Christina Zennaro
  • Richard Warth
  • Jacques Barhanin
چکیده

Task1 and Task3 potassium channels (Task: tandem of P domains in a weak inward rectifying K(+) channel-related acid-sensitive K(+) channel) are believed to control the membrane voltage of aldosterone-producing adrenal glomerulosa cells. This study aimed at understanding the role of Task3 for the control of aldosterone secretion. The adrenal phenotype of Task3(-/-) mice was investigated using electrophysiology, adrenal slices, and blood pressure measurements. Primary adrenocortical cells of Task3(-/-) mice were strongly depolarized compared with wild-type (-52 vs. -79 mV), and in fresh adrenal slices Ca(2+) signaling of Task3(-/-) glomerulosa cells was abnormal. In living Task3(-/-) mice, the regulation of aldosterone secretion showed specific deficits: Under low Na(+) and high K(+) diets, protocols known to increase aldosterone, and under standard diet, Task3 inactivation was compensated and aldosterone was normal. However, high Na(+) and low K(+) diets, two protocols known to lower aldosterone, failed to lower aldosterone in Task3(-/-) mice. The physiological regulation of aldosterone was disturbed: aldosterone-renin ratio, an indicator of autonomous aldosterone secretion, was 3-fold elevated at standard and high Na(+) diets. Isolated adrenal glands of Task3(-/-) produced 2-fold more aldosterone. As a consequence, Task3(-/-) mice showed salt-sensitive arterial hypertension (plus 10 mm Hg). In conclusion, Task3 plays an important role in the adaptation of aldosterone secretion to dietary salt intake.

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عنوان ژورنال:
  • Endocrinology

دوره 153 10  شماره 

صفحات  -

تاریخ انتشار 2012