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Literature DB >> 28630209

Functional TASK-3-Like Channels in Mitochondria of Aldosterone-Producing Zona Glomerulosa Cells.

Junlan Yao¹, David McHedlishvili¹, William E McIntire¹, Nick A Guagliardo¹, Alev Erisir¹, Craig A Coburn¹, Vincent P Santarelli¹, Douglas A Bayliss¹, Paula Q Barrett².

Abstract

Ca2+ drives aldosterone synthesis in the cytosolic and mitochondrial compartments of the adrenal zona glomerulosa cell. Membrane potential across each of these compartments regulates the amplitude of the Ca2+ signal; yet, only plasma membrane ion channels and their role in regulating cell membrane potential have garnered investigative attention as pathological causes of human hyperaldosteronism. Previously, we reported that genetic deletion of TASK-3 channels (tandem pore domain acid-sensitive K+ channels) from mice produces aldosterone excess in the absence of a change in the cell membrane potential of zona glomerulosa cells. Here, we report using yeast 2-hybrid, immunoprecipitation, and electron microscopic analyses that TASK-3 channels are resident in mitochondria, where they regulate mitochondrial morphology, mitochondrial membrane potential, and aldosterone production. This study provides proof of principle that mitochondrial K+ channels, by modulating inner mitochondrial membrane morphology and mitochondrial membrane potential, have the ability to play a pathological role in aldosterone dysregulation in steroidogenic cells.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: aldosterone; hyperaldosteronism; ion channels; mitochondria; zona glomerulosa

Mesh：

Substances：

Year: 2017 PMID： 28630209 PMCID： PMC5551440 DOI： 10.1161/HYPERTENSIONAHA.116.08871

Source DB: PubMed Journal: Hypertension ISSN： 0194-911X Impact factor: 10.190

46 in total

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8 in total

1. Of Mice and Man and the Regulation of Aldosterone Secretion.

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3. Mouse Models of Primary Aldosteronism: From Physiology to Pathophysiology.

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5. TASK-1 and TASK-3 channels modulate pressure overload-induced cardiac remodeling and dysfunction.

Authors: Wei Duan; Jonné Hicks; Michael A Makara; Olga Ilkayeva; Dennis M Abraham
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6. Novel Potassium Channels in Kidney Mitochondria: The Hyperpolarization-Activated and Cyclic Nucleotide-Gated HCN Channels.

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8 in total