Posttranslational regulation of CALHM1/3 channel: N-linked glycosylation and S-palmitoylation.

Motoki Okui, Tatsuro Murakami, Hongxin Sun, Chiaki Ikeshita, Narisato Kanamura, Akiyuki Taruno

FASEB journal : official publication of the Federation of American Societies for Experimental Biology 2021 May

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Among calcium homeostasis modulator (CALHM) family members, CALHM1 and 3 together form a voltage-gated large-pore ion channel called CALHM1/3. CALHM1/3 plays an essential role in taste perception by mediating neurotransmitter release at channel synapses of taste bud cells. However, it is poorly understood how CALHM1/3 is regulated. Biochemical analyses of the two subunits following site-directed mutagenesis and pharmacological treatments established that both CALHM1 and 3 were N-glycosylated at single Asn residues in their second extracellular loops. Biochemical and electrophysiological studies revealed that N-glycan acquisition on CALHM1 and 3, respectively, controls the biosynthesis and gating kinetics of the CALHM1/3 channel. Furthermore, failure in subsequent remodeling of N-glycans decelerated the gating kinetics. Thus, the acquisition of N-glycans on both subunits and their remodeling differentially contribute to the functional expression of CALHM1/3. Meanwhile, metabolic labeling and acyl-biotin exchange assays combined with genetic modification demonstrated that CALHM3 was reversibly palmitoylated at three intracellular Cys residues. Screening of the DHHC protein acyltransferases identified DHHC3 and 15 as CALHM3 palmitoylating enzymes. The palmitoylation-deficient mutant CALHM3 showed a normal degradation rate and interaction with CALHM1. However, the same mutation markedly attenuated the channel activity but not surface localization of CALHM1/3, suggesting that CALHM3 palmitoylation is a critical determinant of CALHM1/3 activity but not its formation or forward trafficking. Overall, this study characterized N-glycosylation and S-palmitoylation of CALHM1/3 subunits and clarified their differential contributions to its functional expression, providing insights into the fine control of the CALHM1/3 channel and associated physiological processes. © 2021 Federation of American Societies for Experimental Biology.

Citation

Motoki Okui, Tatsuro Murakami, Hongxin Sun, Chiaki Ikeshita, Narisato Kanamura, Akiyuki Taruno. Posttranslational regulation of CALHM1/3 channel: N-linked glycosylation and S-palmitoylation. FASEB journal : official publication of the Federation of American Societies for Experimental Biology. 2021 May;35(5):e21527