Bacillus anthracis-derived nitric oxide induces protein S-nitrosylation contributing to macrophage death |
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| Authors: | Myung-Chul Chung Aarthi Narayanan Taissia G. Popova Fatah Kashanchi Charles L. Bailey Serguei G. Popov |
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| Affiliation: | 1. Drug Applied Research Center, Tabriz University of Medical Sciences, Tabriz, Iran;2. Department of Molecular Medicine, School of Advanced Medical Sciences, Tabriz University of Medical Sciences, Tabriz, Iran;3. Department of Anatomical Sciences, Faculty of Medicine, Tabriz University of Medical Sciences, Tabriz, Iran;4. Women''s Reproductive Health Research Centre, Tabriz University of Medical Sciences, Tabriz, Iran;5. Genetic Research Theme, Murdoch Children''s Research Institute, Royal Children''s Hospital, The University of Melbourne, Australia;6. Department of Biology, University of Qom, Qom, Iran;7. Department of Anatomy, Medical School, Iran University of Medical Science, Tehran, Iran;8. Institute of Biotechnology, Shiraz University, Shiraz, Iran;9. School of Information Technology and Mathematical Sciences, Division of Information Technology, Engineering and the Environment, University of South Australia, Adelaide, Australia;10. Department of Genetics and Evolution, School of Biological Sciences, The University of Adelaide, Adelaide, Australia;11. School of Biological Sciences, Faculty of Science and Engineering, Flinders University, Adelaide, Australia;12. Bonn-Aachen International Center for Information Technology (B-IT ), University of Bonn, Bonn, Germany |
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| Abstract: | Bacillus anthracis, a causative agent of anthrax, is able to germinate and survive within macrophages. A recent study suggested that B. anthracis-derived nitric oxide (bNO) is a key aspect of bacterial defense that protects bacterial DNA from oxidative burst in the macrophages. However, the virulent effect of bNO in host cells has not been investigated. Here, we report that bNO contributes macrophage killing by S-nitrosylation of bioenergetic-relating proteins within mitochondria. Toxigenic Sterne induces expression of the bnos gene and produces bNO during early stage of infection. Nitroso-proteomic analysis coupled with a biotin-switch technique demonstrated that toxigenic infection induces protein S-nitrosylation in B. anthracis-susceptible RAW264.7. For each target enzyme tested (complex I, complex III and complex IV), infection by B. anthracis Sterne caused enzyme inhibition. Nω-nitro-l-arginine methyl ester, a NO synthase inhibitor, reduced S-nitrosylation and partially restored cell viability evaluated by intracellular ATP levels in macrophages. Our data suggest that bNO leads to energy depletion driven by impaired mitochondrial bioenergetic machinery that ultimately contributes to macrophage death. This novel mechanism of anthrax pathogenesis may offer specific approach to the development of therapeutics. |
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