The acid adaptive tolerance response incampylobacter jejuniinduces a global response, as suggested by proteomics and microarrays

Abstract

Campylobacter jejuniCI 120 is a natural isolate obtained during poultry processing and has the ability to induce an acid tolerance response (ATR) to acid+aerobic conditions in early stationary phase. Other strains tested they did not induce an ATR or they induced it in exponential phase. Campylobacter spp. do not contain the genes that encode the global stationary phase stress response mechanism. Therefore, the aim of this study was to identify genes that are involved in the C.jejuniCI 120 early stationary phase ATR, as it seems to be expressing a novel mechanism of stress tolerance. Two-dimensional gel electrophoresis was used to examine the expression profile of cytosolic proteins during the C.jejuniCI 120 adaptation to acid+aerobic stress and microarrays to determine the genes that participate in the ATR. The results indicate induction of a global response that activated a number of stress responses, including several genes encoding surface components and genes involved with iron uptake. The findings of this study provide new insights into stress tolerance of C.jejuni, contribute to a better knowledge of the physiology of this bacterium and highlight the diversity among different strains.