The Shigella dysenteriae serotype 1 proteome,profiled in the host intestinal environment,reveals major metabolic modifications and increased expression of invasive proteins |
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Authors: | Rembert Pieper Quanshun Zhang Prashanth P Parmar Shih‐Ting Huang David J Clark Hamid Alami Arthur Donohue‐Rolfe Robert D Fleischmann Scott N Peterson Saul Tzipori |
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Institution: | 1. Pathogen Functional Genomics Resource Center, J. Craig Venter Institute, Rockville, MD, USA;2. Division of Infectious Diseases, Cummings School of Veterinary Medicine, Tufts University, North Grafton, MA, USA |
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Abstract: | Shigella dysenteriae serotype 1 (SD1) causes the most severe form of epidemic bacillary dysentery. We present the first comprehensive proteome analysis of this pathogen, profiling proteins from bacteria cultured in vitro and bacterial isolates from the large bowel of infected gnotobiotic piglets (in vivo). Overall, 1061 distinct gene products were identified. Differential display analysis revealed that SD1 cells switched to an anaerobic energy metabolism in vivo. High in vivo abundances of amino acid decarboxylases (GadB and AdiA) which enhance pH homeostasis in the cytoplasm and protein disaggregation chaperones (HdeA, HdeB and ClpB) were indicative of a coordinated bacterial survival response to acid stress. Several type III secretion system effectors were increased in abundance in vivo, including OspF, IpaC and IpaD. These proteins are implicated in invasion of colonocytes and subversion of the host immune response in S. flexneri. These observations likely reflect an adaptive response of SD1 to the hostile host environment. Seven proteins, among them the type III secretion system effectors OspC2 and IpaB, were detected as antigens in Western blots using piglet antisera. The outer membrane protein OmpA, the heat shock protein HtpG and OspC2 represent novel SD1 subunit vaccine candidates and drug targets. |
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Keywords: | Acid stress Bacillary dysentery Microbiology Proteome analysis Shigella dysenteriae |
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