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Distinct interactions of 2′- and 3′-O-(N-methyl)anthraniloyl-isomers of ATP and GTP with the adenylyl cyclase toxin of Bacillus anthracis, edema factor |
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| Authors: | Srividya Suryanarayana Jenna L Wang Yuequan Shen Gerald H Lushington |
| Institution: | a Department of Molecular Biosciences, The University of Kansas, Lawrence, KS 66045, USA b Molecular Graphics and Modeling Laboratory, The University of Kansas, Lawrence, KS 66045, USA c College of Life Sciences, Nankai University, 300071 Tianjin, People's Republic of China d Ben May Department or Cancer Research, The University of Chicago, Chicago, IL 60637, USA e Department of Pharmacology, Hannover Medical School, Carl-Neuberg-Str. 1, D-30625 Hannover, Germany |
| Abstract: | Anthrax disease is caused by the spore-forming bacterium, Bacillus anthracis. B. anthracis produces a calmodulin-activated adenylyl cyclase (AC) toxin, edema factor (EF). Through excessive cAMP accumulation EF disrupts host defence. In a recent study Taha HM, Schmidt J, Göttle M, Suryanarayana S, Shen Y, Tang WJ, et al. Molecular analysis of the interaction of anthrax adenylyl cyclase toxin, edema factor, with 2′(3′)-O-(N-(methyl)anthraniloyl)-substituted purine and pyrimidine nucleotides. Mol Pharmacol 2009;75:693-703] we showed that various 2′(3′)-O-N-(methyl)anthraniloyl (MANT)-substituted nucleoside 5′-triphosphates are potent inhibitors (Ki values in the 0.1-5 μM range) of purified EF. Upon interaction with calmodulin we observed efficient fluorescence resonance energy transfer (FRET) between tryptophan and tyrosine residues of EF and the MANT-group of MANT-ATP. Molecular modelling suggested that both the 2′- and 3′-MANT-isomers can bind to EF. The aim of the present study was to examine the effects of defined 2′- and 3′-MANT-isomers of ATP and GTP on EF. 3′-MANT-2′-deoxy-ATP inhibited EF more potently than 2′-MANT-3′-deoxy-ATP, whereas the opposite was the case for the corresponding GTP analogs. Calmodulin-dependent direct MANT fluorescence and FRET was much larger with 2′-MANT-3′-deoxy-ATP and 2′-MANT-3′-deoxy-GTP compared to the corresponding 3′-MANT-2′-deoxy-isomers and the 2′(3′)-racemates. Ki values of MANT-nucleotides for inhibition of catalysis correlated with Kd values of MANT-nucleotides in FRET studies. Molecular modelling indicated different positioning of the MANT-group in 2′-MANT-3′-deoxy-ATP/GTP and 3′-MANT-2′-deoxy-ATP/GTP bound to EF. Collectively, EF interacts differentially with 2′- and 3′-MANT-isomers of ATP and GTP, indicative for conformational flexibility of the catalytic site and offering a novel approach for the development of potent and selective EF inhibitors. Moreover, our present study may serve as a general model of how to use MANT-nucleotide isomers for the analysis of the molecular mechanisms of nucleotide/protein interactions. |
| Keywords: | AC adenylyl cyclase EF3 catalytic domain of edema factor adenylyl cyclase CaM calmodulin EF full-length edema factor adenylyl cyclase toxin FRET fluorescence resonance energy transfer MANT N-(methyl)anthraniloyl |
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