Expression of Clostridium difficile toxins A and B and their sigma factor TcdD is controlled by temperature.

Abstract

Growth temperature was found to control the expression of toxins A and B in Clostridium difficile VPI 10463, with a maximum at 37 degrees C and low levels at 22 and 42 degrees C in both peptone yeast (PY) and defined media. The up-regulation of toxin A and B mRNA and protein levels upon temperature upshift from 22 to 37 degrees C followed the same kinetics, showing that temperature control occurred at the level of transcription. Experiments with Clostridium perfringens using gusA as a reporter gene demonstrated that both toxin gene promoters were temperature controlled and that their high activity at 37 degrees C was dependent on the alternative sigma factor TcdD. Furthermore, tcdD was found to be autoinduced at 37 degrees C. Glucose down-regulated all these responses in the C. perfringens constructs, similar to its impact on toxin production in C. difficile PY broth cultures. C. difficile proteins induced at 37 degrees C and thus coregulated with the toxins by temperature were demonstrated by two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis and identified as enzymes involved in butyric acid production and as electron carriers in oxidation-reduction reactions. The regulation of toxin production in C. difficile by temperature is a novel finding apparently reflecting an adaptation of the expression of its virulence to mammalian hosts.