Abstract
CYSTIC fibrosis transmembrane conductance regulator (CFTR) is a non-rectifying, low-conductance channel1,2 regulated by ATP3 and phosphorylation4, which mediates apical chloride conductance in secretory epithelia5,6 and malfunctions in cystic fibrosis (CF)7,8. Mutations at Lys 335 and Arg 347 in the sixth predicted transmembrane helix of CFTR alter its halide selectivity in whole-cell studies9 and its single channel conductance10, but the physical basis of these alterations is unknown and permeation in CFTR is poorly understood. Here we present evidence that wild-type CFTR can contain more than one anion simultaneously. The conductance of CFTR passes through a minimum when channels are bathed in mixtures of two permeant anions. This anomalous mole fraction effect can be abolished by replacing Arg 347 with an aspartate and can be toggled on or off by varying the pH after the same residue is replaced with a histidine. Thus the CFTR channel should provide a convenient model in which to study multi-ion pore behaviour and conduction. The loss of multiple occupancy may explain how naturally occurring CF mutations at this site cause disease.
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References
Kartner, N. et al. Cell 64, 681–691 (1991).
Bear, C. E. et al. Cell 68, 809–818 (1992).
Anderson, M. P. et al. Cell 67, 775–784 (1991).
Tabcharani, J. A., Chang, X-B., Riordan, J. R. & Hanrahan, J. W. Nature 352, 628–631 (1991).
Gray, M. A., Harris, A., Coleman, L., Greenwell, J. R. & Argent, B. E. Am. J. Physiol. 257, C240–C251 (1989).
Tabcharani, J. A., Low, W., Elie, D. & Hanrahan, J. W. FEBS Lett. 270, 157–164 (1990).
Rich, D. P. et al. Nature 347, 358–363 (1990).
Drumm, M. L. et al. Cell 62, 1227–1233 (1990).
Anderson, M. P. et al. Science 253, 202–205 (1991).
Sheppard, D. N. et al. Nature 362, 160–164 (1993).
Woodhull, A. M. J. gen. Physiol. 61, 687–708 (1973).
Hille, B. Ionic Channels of Excitable Membranes (Sinauer, Sunderland, Mass., 1992).
Almers, W. & McCleskey, E. W. J. Physiol. Lond. 353, 585–608 (1984).
Hess, P. & Tsien, R. W. Nature 309, 453–456 (1984).
Kristidis, P. et al. Am. J. hum. Genet. 50, 1178–1184 (1992).
Audrézet, M. P. et al. Hum. molec. Genet. 2, 51–54 (1993).
Cremonesi, L. et al. Hum. Mut. 1, 314–319 (1992).
Chang, X.-B. et al. J. biol. Chem. 268, 11304–11311 (1993).
Higuchi, R., Krummel, B. & Saiki, R. K. Nucleic Acids Res. 16, 7351–7363 (1988).
Ho, S. N., Hunt, H. D. & Horton, R. M. Gene 77, 51–59 (1989).
Tabcharani, J. A., Jensen, T. J., Riordan, J. R. & Hanrahan, J. W. J. membr. Biol. 112, 109–122 (1989).
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Tabcharani, J., Rommens, J., Hou, YX. et al. Multi-ion pore behaviour in the CFTR chloride channel. Nature 366, 79–82 (1993). https://doi.org/10.1038/366079a0
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DOI: https://doi.org/10.1038/366079a0
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