Abstract
The CFTR Cl- channel contains two predicted nucleotide-binding domains (NBD1 and NBD2); therefore, we examined the effect of ATP on channel activity. Once phosphorylated by cAMP-dependent protein kinase (PKA), channels required cytosolic ATP to open. Activation occurred by a PKA-independent mechanism. ATPγS substituted for ATP in PKA phosphorylation, but it did not open the channel. Several hydrolyzable nucleotides (ATP > GTP > ITP ≈ UTP > CTP) reversibly activated phosphorylated channels, but nonhydrolyzable analogs and Mg2+-free ATP did not. Studies of CFTR mutants indicated that ATP controls channel activity independent of the R domain and suggested that hydrolysis of ATP by NBD1 may be sufficient for channel opening. The finding that nucleoside triphosphates regulate CFTR begins to explain why CF-associated mutations in the NBDs block Cl- channel function. © 1991.
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CITATION STYLE
Anderson, M. P., Berger, H. A., Rich, D. P., Gregory, R. J., Smith, A. E., & Welsh, M. J. (1991). Nucleoside triphosphates are required to open the CFTR chloride channel. Cell, 67(4), 775–784. https://doi.org/10.1016/0092-8674(91)90072-7
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