Protein tyrosine nitration (PTN), a highly selective post translational modification, occurs in both prokaryotic and eukaryotic cells under nitrosative stress1. It is reported that the activities of many proteins are altered due to PTN2. PTN is found to be associated with many pathophysiological conditions like neurodegenerative and cardiac diseases etc.3. However, its physiological function is not yet clear. Like all other gut pathogens Vibrio cholerae also faces nitrosative stress in the gut environment which makes its proteome more vulnerable to PTN. Here, we report for the first time in-vivo PTN in V. cholerae. We show that in-vivo protein nitration is nitrite dependent and nitration-denitration phenomenon actually facilitates V. cholerae cell survival in anaerobic or hypoxic condition. In our study, we found that the extent of in-vivo nitration is negatively correlated with the intracellular nitrite content and maximum nitration occurs during log phase of V. cholerae. Most interestingly, a significant denitration was associated with increase in intracellular nitrate content during anaerobic incubation of aerobically grown late log phase cultures. In-vivo nitration could provide an avenue for toxic nitrite storage and nitrosative stress tolerance mechanism in many gut pathogens, whereas denitration could supply nitrate for cell survival in anaerobic nitrate deficient environment.
In-vivo protein nitration and de-nitration facilitate Vibrio cholerae cell survival under anaerobic condition: Consequences of Nitrite induced protein nitration
