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Identification and characterization of site‐specific N‐glycosylation in the potassium channel Kv3.1b
Authors:Paul Christian Vicente  Jin Young Kim  Jeong‐Ju Ha  Min‐Young Song  Hyun‐Kyung Lee  Dong‐Hyun Kim  Jin‐Sung Choi  Kang‐Sik Park
Affiliation:1. Department of Physiology, School of Medicine, Kyung Hee University, Seoul, South Korea;2. Biomedical Omics Group, Korea Basic Science Institute, Cheongju‐si, Chungcheongbuk‐do, South Korea;3. Graduate School of Analytical Science and Technology, Chungnam National University, Daejeon, South Korea;4. College of Pharmacy, Catholic University of Korea, Bucheon, Gyeonggi‐Do, South Korea
Abstract:The potassium ion channel Kv3.1b is a member of a family of voltage‐gated ion channels that are glycosylated in their mature form. In the present study, we demonstrate the impact of N‐glycosylation at specific asparagine residues on the trafficking of the Kv3.1b protein. Large quantities of asparagine 229 (N229)‐glycosylated Kv3.1b reached the plasma membrane, whereas N220‐glycosylated and unglycosylated Kv3.1b were mainly retained in the endoplasmic reticulum (ER). These ER‐retained Kv3.1b proteins were susceptible to degradation, when co‐expressed with calnexin, whereas Kv3.1b pools located at the plasma membrane were resistant. Mass spectrometry analysis revealed a complex type Hex3HexNAc4Fuc1 glycan as the major glycan component of the N229‐glycosylated Kv3.1b protein, as opposed to a high‐mannose type Man8GlcNAc2 glycan for N220‐glycosylated Kv3.1b. Taken together, these results suggest that trafficking‐dependent roles of the Kv3.1b potassium channel are dependent on N229 site‐specific glycosylation and N‐glycan structure, and operate through a mechanism whereby specific N‐glycan structures regulate cell surface expression.
Keywords:Kv3.1b  mass spectrometry  N‐glycan structure  N‐glycosylation  potassium channel  surface expression
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