Abstract

The voltage-gated potassium channel Kv1.5 belongs to the Shaker superfamily. Kv1.5 is composed of four subunits, each comprising 613 amino acids, which make up the N terminus, six transmembrane segments (S1-S6), and the C terminus. We recently demonstrated that, in HEK cells, extracellularly applied proteinase K (PK) cleaves Kv1.5 channels at a single site in the S1-S2 linker. This cleavage separates Kv1.5 into an N-fragment (N terminus to S1) and a C-fragment (S2 to C terminus). Interestingly, the cleavage does not impair channel function. Here, we investigated the role of the N terminus and S1 in Kv1.5 expression and function by creating plasmids encoding various fragments, including those that mimic PK-cleaved products. Our results disclosed that although expression of the pore-containing fragment (Frag(304-613)) alone could not produce current, coexpression with Frag(1-303) generated a functional channel. Immunofluorescence and biotinylation analyses uncovered that Frag(1-303) was required for Frag(304-613) to traffic to the plasma membrane. Biochemical analysis revealed that the two fragments interacted throughout channel trafficking and maturation. In Frag(1-303)+(304-613)-coassembled channels, which lack a covalent linkage between S1 and S2, amino acid residues 1-209 were important for association with Frag(304-613), and residues 210-303 were necessary for mediating trafficking of coassembled channels to the plasma membrane. We conclude that the N terminus and S1 of Kv1.5 can attract and coassemble with the rest of the channel (i.e. Frag(304-613)) to form a functional channel independently of the S1-S2 linkage.

Highlights

  • The voltage-gated potassium channel Kv1.5 belongs to the Shaker superfamily

  • Using Western blot analysis and whole-cell patch clamp method, we examined the effects of proteinase K (PK) treatment on the expression and function of Kv1.5 channels

  • We found that PK cleaves Kv1.5 at a site within the S1–S2 linker into N- and C-fragments but does not affect channel function (10)

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Summary

The abbreviations used are

Voltage-gated potassium; BFA, brefeldin A; co-IP, coimmunoprecipitation; HEK, human embryonic kidney; PK, proteinase K; Tuni, tunicamycin; Frag, fragment; IKv1.5, Kv1.5 current; Kv1.5-HEK, Kv1.5-expressing HEK; g-V, activation-voltage; hERG, human ether-a-gogo–related gene; pF, picofarad; MEM, minimum essential medium; PMSF, phenylmethylsulfonyl fluoride; HRP, horseradish peroxidase; GAPDH, glyceraldehyde-3-phosphate dehydrogenase. Further analysis indicated that residues 210 –240 of the N terminus were required for the expression of S1–S2 linker-intact Kv1.5 channels in the plasma membrane. Roles of the N terminus and S1 in Kv1.5 channel trafficking and assembly

Results
Discussion
Experimental procedures

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