Verneuil Nicolas, Mazé Alain, Sanguinetti Maurizio, Laplace Jean-Marie, Benachour Abdellah, Auffray Yanick, Giard Jean-Christophe, Hartke Axel
Laboratoire de Microbiologie de l'Université de Caen, EA956 USC INRA 2017, 14032 CAEN Cedex, France.
Institute of Microbiology, Catholic University of Sacred Heart, L. go F. Vito 1, 00168, Rome, Italy.
Microbiology (Reading). 2006 Sep;152(Pt 9):2579-2589. doi: 10.1099/mic.0.28922-0.
The gene encoding the manganese-containing superoxide dismutase (MnSOD) of Enterococcus faecalis was characterized. It is transcribed monocistronically from an upstream promoter identified by rapid amplification of cDNA ends (RACE)-PCR. A sodA mutant was constructed and characterized. Growth of the mutant strain was not significantly different from that of its wild-type counterpart in standing and aerated cultures. However, the mutant was more sensitive towards menadione and hydroperoxide stresses. The response to H(2)O(2) stress was analysed in more detail, and the mode of killing of this oxidant was different under anaerobic and aerobic conditions. Cultures grown and challenged under anaerobic conditions were highly sensitive to treatment with 35 mM H(2)O(2). They were largely protected by the iron chelator deferoxamine, which suggested that killing was mainly due to an enhanced Fenton reaction. In contrast, neither strain was protected by the iron chelators deferoxamine and diethylenetriaminepentaacteic acid when grown and challenged under aerobic conditions, which suggested that inactivation of the cells by H(2)O(2) was due to another killing mode. The sodA mutant was more sensitive under these conditions, showing that MnSOD is also important for protecting the cells from damage under aerobic conditions. Finally, the MnSOD of Ent. faecalis may be considered to be a virulence factor, since survival of the corresponding mutant strain was highly affected inside mouse peritoneal macrophages.
对粪肠球菌含锰超氧化物歧化酶(MnSOD)的编码基因进行了表征。它从通过cDNA末端快速扩增(RACE)-PCR鉴定的上游启动子单顺反子转录。构建并表征了一个sodA突变体。在静置培养和通气培养中,突变菌株的生长与其野生型对应菌株没有显著差异。然而,该突变体对甲萘醌和过氧化氢胁迫更敏感。对H₂O₂胁迫的反应进行了更详细的分析,并且这种氧化剂在厌氧和好氧条件下的杀伤模式不同。在厌氧条件下生长并受到挑战的培养物对35 mM H₂O₂处理高度敏感。它们在很大程度上受到铁螯合剂去铁胺的保护,这表明杀伤主要是由于增强的芬顿反应。相比之下,当在好氧条件下生长并受到挑战时,两种菌株都不受铁螯合剂去铁胺和二乙烯三胺五乙酸的保护,这表明H₂O₂对细胞的失活是由于另一种杀伤模式。在这些条件下,sodA突变体更敏感,表明MnSOD对于在好氧条件下保护细胞免受损伤也很重要。最后,粪肠球菌的MnSOD可能被认为是一种毒力因子,因为相应突变菌株在小鼠腹腔巨噬细胞内的存活受到高度影响。
