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Gain-of-function mutations in the mechanically activated ion channel PIEZO2 cause a subtype of Distal Arthrogryposis.


ABSTRACT: Mechanotransduction, the pathway by which mechanical forces are translated to biological signals, plays important but poorly characterized roles in physiology. PIEZOs are recently identified, widely expressed, mechanically activated ion channels that are hypothesized to play a role in mechanotransduction in mammals. Here, we describe two distinct PIEZO2 mutations in patients with a subtype of Distal Arthrogryposis Type 5 characterized by generalized autosomal dominant contractures with limited eye movements, restrictive lung disease, and variable absence of cruciate knee ligaments. Electrophysiological studies reveal that the two PIEZO2 mutations affect biophysical properties related to channel inactivation: both E2727del and I802F mutations cause the PIEZO2-dependent, mechanically activated currents to recover faster from inactivation, while E2727del also causes a slowing of inactivation. Both types of changes in kinetics result in increased channel activity in response to a given mechanical stimulus, suggesting that Distal Arthrogryposis Type 5 can be caused by gain-of-function mutations in PIEZO2. We further show that overexpression of mutated PIEZO2 cDNAs does not cause constitutive activity or toxicity to cells, indicating that the observed phenotype is likely due to a mechanotransduction defect. Our studies identify a type of channelopathy and link the dysfunction of mechanically activated ion channels to developmental malformations and joint contractures.

SUBMITTER: Coste B 

PROVIDER: S-EPMC3607045 | biostudies-literature | 2013 Mar

REPOSITORIES: biostudies-literature

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Gain-of-function mutations in the mechanically activated ion channel PIEZO2 cause a subtype of Distal Arthrogryposis.

Coste Bertrand B   Houge Gunnar G   Murray Michael F MF   Stitziel Nathan N   Bandell Michael M   Giovanni Monica A MA   Philippakis Anthony A   Hoischen Alexander A   Riemer Gunnar G   Steen Unni U   Steen Vidar Martin VM   Mathur Jayanti J   Cox James J   Lebo Matthew M   Rehm Heidi H   Weiss Scott T ST   Wood John N JN   Maas Richard L RL   Sunyaev Shamil R SR   Patapoutian Ardem A  

Proceedings of the National Academy of Sciences of the United States of America 20130304 12


Mechanotransduction, the pathway by which mechanical forces are translated to biological signals, plays important but poorly characterized roles in physiology. PIEZOs are recently identified, widely expressed, mechanically activated ion channels that are hypothesized to play a role in mechanotransduction in mammals. Here, we describe two distinct PIEZO2 mutations in patients with a subtype of Distal Arthrogryposis Type 5 characterized by generalized autosomal dominant contractures with limited e  ...[more]

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