Abstract
Ca(v)3.2 T-type channels contain a high affinity metal binding site for trace metals such as copper and zinc. This site is occupied at physiologically relevant concentrations of these metals, leading to decreased channel activity and pain transmission. A histidine at position 191 was recently identified as a critical determinant for both trace metal block of Ca(v)3.2 and modulation by redox agents. His(191) is found on the extracellular face of the Ca(v)3.2 channel on the IS3-S4 linker and is not conserved in other Ca(v)3 channels. Mutation of the corresponding residue in Ca(v)3.1 to histidine, Gln(172), significantly enhances trace metal inhibition, but not to the level observed in wild-type Ca(v)3.2, implying that other residues also contribute to the metal binding site. The goal of the present study is to identify these other residues using a series of chimeric channels. The key findings of the study are that the metal binding site is composed of a Asp-Gly-His motif in IS3-S4 and a second aspartate residue in IS2. These results suggest that metal binding stabilizes the closed conformation of the voltage-sensor paddle in repeat I, and thereby inhibits channel opening. These studies provide insight into the structure of T-type channels, and identify an extracellular motif that could be targeted for drug development.
Highlights
We first confirmed the Xenopus oocyte expression system could be used to measure the higher potency of zinc to inhibit Cav3.2 over Cav3.1 channels, which was originally observed in mammalian cells [14, 17]
IS3–IS4 loop is critical for determining the zinc- and nickelsensitive inhibition of the Cav3.2 channel [15, 17]
We recently identified His191 in the IS3–IS4 extracellular linker as a critical determinant of nickel, copper, zinc, and redox sensitivity of Cav3.2 [15,16,17]
Summary
A zinc-chloride stock solution (100 mM; Sigma) was made in deionized water, and stored at room temperature. The plasmid Cav3.1/3.2:N-IS12L was constructed by ligating the above fragments into the ClaI (5Ј-polylinker) and HindIII-digested (1755, Cav3.1) plasmid Cav3.1 pGEM-HEA. Polylinker) and HindIII-digested (1755, Cav3.1) plasmid Cav3.1 pGEM-HEA. Plasmid Cav3.1/3.2:N-IS12LϩL171GϩQ172H was constructed by ligating the above fragments into ClaI- (5Ј-polylinker) and HindIII-digested (1755, Cav3.1) plasmid Cav3.1 pGEM-HEA. Each point mutant channel was constructed by ligating the StuI- and BamHI-digested PCR fragments and ClaI (5Ј-polylinker)-StuI (491, Cav3.2) fragment into ClaI- (5Јpolylinker) and BamHI-digested (730, Cav3.2) plasmid Cav3.2 pGEM-HEA. Plasmid Cav3.2/G190L was constructed by ligating the above fragments into NotI- (342, Cav3.2) and SalI-digested (4635, Cav3.2) plasmid Cav3.2 pGEM-HEA. The forward primers to amplify the lower cassettes were CTCGTTGGCTGGACACAACGTGAGCCTC and CTCGTTGGAGGGACACAACGTGAGCCTC, respectively, and the reverse primer was CAGGATCCGCATGCT-.
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