RESUMO
AIM: Enterobacter cloacae complex bacteria are of both clinical and environmental importance. Phenotypic methods are unable to distinguish between some of the species in this complex, which often renders their identification incomplete. The goal of this study was to develop molecular assays to identify Enterobacter hormaechei and Ent. cloacae genetic cluster III which are relatively frequently encountered in clinical material. METHODS AND RESULTS: The molecular assays developed in this study are qPCR technology based and served to identify both Ent. hormaechei and Ent. cloacae genetic cluster III. qPCR results were compared to hsp60 sequence analysis. Most clinical isolates were assigned to Ent. hormaechei subsp. steigerwaltii and Ent. cloacae genetic cluster III. The latter was proportionately more frequently isolated from bloodstream infections than from other material (P < 0·05). CONCLUSION: The qPCR assays detecting Ent. hormaechei and Ent. cloacae genetic cluster III demonstrated high sensitivity and specificity. SIGNIFICANCE AND IMPACT OF THE STUDY: The presented qPCR assays allow accurate and rapid identification of clinical isolates of the Ent. cloacae complex. The improved identifications obtained can specifically assist analysis of Ent. hormaechei and Ent. cloacae genetic cluster III in nosocomial outbreaks and can promote rapid environmental monitoring. An association was observed between Ent. cloacae cluster III and systemic infection that deserves further attention.
Assuntos
Enterobacter cloacae/isolamento & purificação , Enterobacter/isolamento & purificação , Reação em Cadeia da Polimerase em Tempo Real/métodos , Chaperonina 60/genética , Enterobacter/genética , Enterobacter cloacae/genética , Análise de Sequência de DNARESUMO
Mitogen-induced interferon-gamma (IFN-gamma) gene expression was analyzed in human tonsil cells by titration of IFN-gamma activity and by quantitation of IFN-gamma mRNA. Expression of the IFN-gamma gene can be superinduced extensively by two distinct methods: exposure to various inhibitors of translation, or to low doses of gamma-irradiation. gamma-Irradiated cells produce, after exposure to cycloheximide, up to 12-fold greater amounts of IFN-gamma activity. Within as little as 4 h after the addition of translation inhibitors, IFN-gamma mRNA levels rise 3- to 5-fold. Superinduction acts to increase the size of the wave of IFN-gamma mRNA. Primary transcription of the IFN-gamma gene does not increase in cells superinduced by cycloheximide, nor can superinduction be explained by stabilization of IFN-gamma mRNA sequences. These findings show that, during normal induction, a labile protein acts post-transcriptionally to repress the accumulation of mature IFN-gamma mRNA sequences. The superinductive effects of cycloheximide and gamma-irradiation on levels of IFN-gamma are additive, suggesting that they affect different aspects of IFN-gamma gene expression. Superinduction by gamma-irradiation also has a post-transcriptional basis and is consistent with the possibility that expression of the IFN-gamma gene is normally controlled by the action of suppressor T cells. Even though the genes for human IFN-gamma and for interleukin-2 are both superinducible, a striking difference in the regulation of expression of these lymphokine genes is observed. Superinduction of IFN-gamma mRNA is not due to superinduction of interleukin-2.