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The potassium channel KCNJ13 is essential for smooth muscle cytoskeletal organization during mouse tracheal tubulogenesis

by Mardon, Graeme , Graef, Viola , Kim, Hyun-Taek , Offermanns, Stefan , Stainier, Didier Yr , Guenther, Stefan , Morimoto, Mitsuru , Buettner, Carmen , Zhong, Hua , Preussner, Jens , Roman, Dany , Gunawan, Felix , Yin, Wenguang , Wang, Shengpeng , Grohmann, Beate , Wang, Lei , Kishimoto, Keishi , Looso, Mario

in Actin / AKT protein / Cytoskeleton / Developmental Biology / Gas exchange / Genetic screening / Homeostasis / Molecular modelling / Phenotypes / Phosphorylation / Polarity / Polymerization / Potassium / Smooth muscle / Trachea

2018

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The potassium channel KCNJ13 is essential for smooth muscle cytoskeletal organization during mouse tracheal tubulogenesis

2018

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The potassium channel KCNJ13 is essential for smooth muscle cytoskeletal organization during mouse tracheal tubulogenesis

2018

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Paper

The potassium channel KCNJ13 is essential for smooth muscle cytoskeletal organization during mouse tracheal tubulogenesis

Mardon, Graeme,

Graef, Viola,

Kim, Hyun-Taek,

Offermanns, Stefan,

Stainier, Didier Yr,

Guenther, Stefan,

Morimoto, Mitsuru,

Buettner, Carmen,

Zhong, Hua,

Preussner, Jens,

Roman, Dany,

Gunawan, Felix,

Yin, Wenguang,

Wang, Shengpeng,

Grohmann, Beate,

Wang, Lei,

Kishimoto, Keishi,

Looso, Mario

2018

Overview

Tubulogenesis is essential for the formation and function of internal organs. One such organ is the trachea, which allows gas exchange between the external environment and the lungs. However, the cellular and molecular mechanisms underlying tracheal tube development remain poorly understood. Here, we show that the potassium channel KCNJ13 is a critical modulator of tracheal tubulogenesis. We identify Kcnj13 in an ethylnitrosourea forward genetic screen for regulators of mouse respiratory organ development. Kcnj13 mutants exhibit a shorter trachea as well as defective smooth muscle (SM) cell alignment and polarity. KCNJ13 is essential to maintain ion homeostasis in tracheal SM cells, which is required for actin polymerization. This process appears to be mediated, at least in part, through activation of the actin regulator AKT, as pharmacological increase of AKT phosphorylation ameliorates the Kcnj13 mutant trachea phenotypes. These results provide insights into the role of ion homeostasis in cytoskeletal organization during tubulogenesis.

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Publisher

Cold Spring Harbor Laboratory Press,Cold Spring Harbor Laboratory

Subject

Actin

/ AKT protein

/ Cytoskeleton

/ Developmental Biology

/ Gas exchange

/ Genetic screening

/ Homeostasis