Modification of Cyclic Nucleotide-Gated Ion Channels by Ultraviolet Light

doi:10.1085/jgp.116.2.227

Published 1 August 2000. doi:10.1085/jgp.116.2.227

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Original Article

Modification of Cyclic Nucleotide–Gated Ion Channels by Ultraviolet Light

Thomas R. Middendorf^a^,b, Richard W. Aldrich^b, and Denis A. Baylor^a

^a Neurobiology Department, Howard Hughes Medical Institute, School of Medicine, Stanford University, Stanford, California 94305
^b Department of Molecular and Cellular Physiology, Howard Hughes Medical Institute, School of Medicine, Stanford University, Stanford, California 94305
Department of Molecular and Cellular Physiology, Howard Hughes Medical Institute, Stanford University, Stanford, CA 94305.650-725-4463

raldrich{at}leland.stanford.edu

We irradiated cyclic nucleotide–gated ion channels insitu with ultraviolet light to probe the role of aromatic residuesin ion channel function. UV light reduced the current throughexcised membrane patches from Xenopus oocytes expressing the ${alpha}$ subunit of bovine retinal cyclic nucleotide–gated channelsirreversibly, a result consistent with permanent covalent modificationof channel amino acids by UV light. The magnitude of the currentreduction depended only on the total photon dose delivered tothe patches, and not on the intensity of the exciting light,indicating that the functionally important photochemical modification(s)occurred from an excited state reached by a one-photon absorptionprocess. The wavelength dependence of the channels' UV lightsensitivity (the action spectrum) was quantitatively consistentwith the absorption spectrum of tryptophan, with a small componentat long wavelengths, possibly due to cystine absorption. Thisspectral analysis suggests that UV light reduced the currentsat most wavelengths studied by modifying one or more "target"tryptophans in the channels. Comparison of the channels' actionspectrum to the absorption spectrum of tryptophan in varioussolvents suggests that the UV light targets are in a water-likechemical environment. Experiments on mutant channels indicatedthat the UV light sensitivity of wild-type channels was notconferred exclusively by any one of the 10 tryptophan residuesin a subunit. The similarity in the dose dependences of channelcurrent reduction and tryptophan photolysis in solution suggeststhat photochemical modification of a small number of tryptophantargets in the channels is sufficient to decrease the currents.

Key Words: cyclic guanine monophosphate • electrophysiology • ligand-gated • ion channel gating • ultraviolet light

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