Abstract
Mechanotransduction by hair cell stereocilia lies at the heart of sound detection in vertebrates. Considerable effort has been put forth to identify proteins that comprise the hair cell mechanotransduction apparatus. TMC1, a member of the transmembrane channel-like (TMC) family, was identified as a core protein of the mechanotransduction complex in hair cells. However, the inability of TMC1 to traffic through the endoplasmic reticulum in heterologous cellular systems has hindered efforts to characterize its function and fully identify its role in mechanotransduction. We developed a novel approach that allowed for the detection of uncharacterized protein regions, which preclude trafficking to the plasma membrane (PM) in heterologous cells. Tagging N-terminal fragments of TMC1 with Aquaporin 3 (AQP3) and GFP fusion reporter, which intrinsically label PM in HEK293 cells, indicated that residues at the edges of amino acid sequence 138–168 invoke intracellular localization and/or degradation. This signal is able to preclude surface localization of PM protein AQP3 in HEK293 cells. Substitutions of the residues by alanine or serine corroborated that the information determining the intracellular retention is present within amino acid sequence 138–168 of TMC1 N-terminus. This novel signal may preclude the proper trafficking of TMC1 to the PM in heterologous cells.
Highlights
Mechanotransduction by hair cell stereocilia lies at the heart of sound detection in vertebrates
To identify the TMC1 regions which are responsible for precluding trafficking to the plasma membrane (PM), we searched for a membrane protein with an available luminal C-terminus that could demonstrate strong PM labeling when fused with GFP
Members of the transmembrane channel-like family, TMC1 and TMC2, are key proteins in hair cell mechanotransduction, which enables hearing in vertebrates
Summary
Mechanotransduction by hair cell stereocilia lies at the heart of sound detection in vertebrates. Substitutions of the residues by alanine or serine corroborated that the information determining the intracellular retention is present within amino acid sequence 138–168 of TMC1 N-terminus This novel signal may preclude the proper trafficking of TMC1 to the PM in heterologous cells. We report the development and application of a straightforward and robust approach that could shed light into the intractable nature of TMC1 trafficking problems This novel method allows for identification of uncharacterized intracellular retention signals within the N- and C-termini of a given membrane protein of interest. TMC1138–168 does contain a sequence-specific ability, which precludes trafficking to the PM
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