Chuang Ming-Hong, Wu Ming-Shiang, Lo Wan-Lin, Lin Jaw-Town, Wong Chi-Huey, Chiou Shyh-Horng
Institute of Biochemical Sciences, National Taiwan University, Taipei 106, Taiwan.
Proc Natl Acad Sci U S A. 2006 Feb 21;103(8):2552-7. doi: 10.1073/pnas.0510770103. Epub 2006 Feb 15.
Helicobacter pylori, an oxygen-sensitive microaerophilic bacterium, contains many antioxidant proteins, among which alkylhydroperoxide reductase (AhpC) is the most abundant. The function of AhpC is to protect H. pylori from a hyperoxidative environment by reduction of toxic organic hydroperoxides. We have found that the sequence of AhpC from H. pylori is more homologous to mammalian peroxiredoxins than to eubacterial AhpC. We have also found that the protein structure of AhpC could shift from low-molecular-weight oligomers with peroxide-reductase activity to high-molecular-weight complexes with molecular-chaperone function under oxidative stresses. Time-course study by following the quaternary structural change of AhpC in vivo revealed that this enzyme changes from low-molecular-weight oligomers under normal microaerobic conditions or short-term oxidative shock to high-molecular-weight complexes after severe long-term oxidative stress. This study revealed that AhpC of H. pylori acts as a peroxide reductase in reducing organic hydroperoxides and as a molecular chaperone for prevention of protein misfolding under oxidative stress.
幽门螺杆菌是一种对氧敏感的微需氧细菌,含有多种抗氧化蛋白,其中烷基过氧化氢还原酶(AhpC)最为丰富。AhpC的功能是通过还原有毒的有机过氧化氢,保护幽门螺杆菌免受高氧化环境的影响。我们发现,幽门螺杆菌的AhpC序列与哺乳动物过氧化物还原酶的同源性高于与真细菌AhpC的同源性。我们还发现,在氧化应激下,AhpC的蛋白质结构可以从具有过氧化物还原酶活性的低分子量寡聚体转变为具有分子伴侣功能的高分子量复合物。通过追踪体内AhpC的四级结构变化进行的时间进程研究表明,这种酶在正常微需氧条件下或短期氧化休克时从低分子量寡聚体转变为严重长期氧化应激后的高分子量复合物。这项研究表明,幽门螺杆菌的AhpC在还原有机过氧化氢时作为过氧化物还原酶起作用,在氧化应激下作为分子伴侣防止蛋白质错误折叠。