Yang Jianhua, Panek Heather R, O'Brian Mark R
Department of Biochemistry and Witebsky Center for Microbial Pathogenesis and Immunology, State University of New York at Buffalo, Buffalo, NY 14214, USA.
Mol Microbiol. 2006 Apr;60(1):209-18. doi: 10.1111/j.1365-2958.2006.05087.x.
The haem proteins catalase and peroxidase are stress response proteins that detoxify reactive oxygen species. In the bacterium Bradyrhizobium japonicum, expression of the gene encoding the haem biosynthesis enzyme delta-aminolevulinic acid dehydratase (ALAD) is normally repressed by the Irr protein in iron-limited cells. Irr degrades in the presence of iron, which requires haem binding to the protein. Here, we found that ALAD levels were elevated in iron-limited cells of a catalase-deficient mutant, which corresponded with aberrantly low levels of Irr. Irr was undetectable in wild-type cells within 90 min after exposure to exogenous H2O2, but not in a haem-deficient mutant strain. In addition, Irr did not degrade in response to iron in the absence of O2. The findings indicate that reactive oxygen species promote Irr turnover mediated by haem, and are involved in iron-dependent degradation. We demonstrated Irr oxidation in vitro, which required haem, O2 and a reductant. A truncated Irr mutant unable to bind ferrous haem does not degrade in vivo, and was not oxidized in vitro. We suggest that Irr oxidation is a signal for its degradation, and that cells sense and respond to oxidative stress through Irr to regulate haem biosynthesis.
血红素蛋白过氧化氢酶和过氧化物酶是应激反应蛋白,可清除活性氧。在慢生根瘤菌中,编码血红素生物合成酶δ-氨基乙酰丙酸脱水酶(ALAD)的基因表达在铁限制细胞中通常受Irr蛋白抑制。Irr在铁存在时会降解,这需要血红素与该蛋白结合。在此,我们发现过氧化氢酶缺陷型突变体的铁限制细胞中ALAD水平升高,这与异常低水平的Irr相对应。在暴露于外源H2O2后90分钟内,野生型细胞中检测不到Irr,但血红素缺陷型突变菌株中则可检测到。此外,在无氧条件下,Irr不会因铁而降解。这些发现表明活性氧促进由血红素介导的Irr周转,并参与铁依赖性降解。我们在体外证明了Irr氧化,这需要血红素、氧气和一种还原剂。无法结合亚铁血红素的截短Irr突变体在体内不会降解,在体外也不会被氧化。我们认为Irr氧化是其降解的信号,并且细胞通过Irr感知并响应氧化应激以调节血红素生物合成。
