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Neurosensory mechanotransduction through acid‐sensing ion channels
Author(s) -
Chen ChihCheng,
Wong ChiaWen
Publication year - 2013
Publication title -
journal of cellular and molecular medicine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.44
H-Index - 130
eISSN - 1582-4934
pISSN - 1582-1838
DOI - 10.1111/jcmm.12025
Subject(s) - mechanotransduction , acid sensing ion channel , mechanosensation , microbiology and biotechnology , neuroscience , piezo1 , ion channel , neurite , biology , gene knockdown , anatomy , receptor , mechanosensitive channels , cell culture , biochemistry , genetics , in vitro
Acid‐sensing ion channels ( ASIC s) are voltage‐insensitive cation channels responding to extracellular acidification. ASIC proteins have two transmembrane domains and a large extracellular domain. The molecular topology of ASIC s is similar to that of the mechanosensory abnormality 4‐ or 10‐proteins expressed in touch receptor neurons and involved in neurosensory mechanotransduction in nematodes. The ASIC proteins are involved in neurosensory mechanotransduction in mammals. The ASIC isoforms are expressed in Merkel cell–neurite complexes, periodontal Ruffini endings and specialized nerve terminals of skin and muscle spindles, so they might participate in mechanosensation. In knockout mouse models, lacking an ASIC isoform produces defects in neurosensory mechanotransduction of tissue such as skin, stomach, colon, aortic arch, venoatrial junction and cochlea. The ASIC s are thus implicated in touch, pain, digestive function, baroreception, blood volume control and hearing. However, the role of ASIC s in mechanotransduction is still controversial, because we lack evidence that the channels are mechanically sensitive when expressed in heterologous cells. Thus, ASIC channels alone are not sufficient to reconstruct the path of transducing molecules of mechanically activated channels. The mechanotransducers associated with ASIC s need further elucidation. In this review, we discuss the expression of ASIC s in sensory afferents of mechanoreceptors, findings of knockout studies, technical issues concerning studies of neurosensory mechanotransduction and possible missing links. Also we propose a molecular model and a new approach to disclose the molecular mechanism underlying the neurosensory mechanotransduction.

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