Sato Keiko, Kido Nobuo, Murakami Yukitaka, Hoover Charles I, Nakayama Koji, Yoshimura Fuminobu
Department of Microbiology, School of Dentistry, Aichi-Gakuin University, 1-100 Kusumoto-cho, Chikusa-ku, Nagoya, Aichi 464-8650, Japan.
Division of Plant Growth Physiology, Nagoya University Graduate School of Biological Sciences, Furou-cho, Chikusa-ku, Nagoya, Aichi 464-8602, Japan.
Microbiology (Reading). 2009 Apr;155(Pt 4):1282-1293. doi: 10.1099/mic.0.025163-0.
The periodontopathic bacterium Porphyromonas gingivalis forms pigmented colonies when incubated on blood agar plates as a result of accumulation of mu-oxo haem dimer on the cell surface. Gingipain-adhesin complexes are responsible for production of mu-oxo haem dimer from haemoglobin. Non-pigmented mutants (Tn6-5, Tn7-1, Tn7-3 and Tn10-4) were isolated from P. gingivalis by Tn4351 transposon mutagenesis [Hoover & Yoshimura (1994), FEMS Microbiol Lett 124, 43-48]. In this study, we found that the Tn6-5, Tn7-1 and Tn7-3 mutants carried Tn4351 DNA in a gene homologous to the ugdA gene encoding UDP-glucose 6-dehydrogenase, a gene encoding a putative group 1 family glycosyltransferase and a gene homologous to the rfa gene encoding ADP heptose-LPS heptosyltransferase, respectively. The Tn10-4 mutant carried Tn4351 DNA at the same position as that for Tn7-1. Gingipain activities associated with cells of the Tn7-3 mutant (rfa) were very weak, whereas gingipain activities were detected in the culture supernatants. Immunoblot and mass spectrometry analyses also revealed that gingipains, including their precursor forms, were present in the culture supernatants. A lipopolysaccharide (LPS) fraction of the rfa deletion mutant did not show the ladder pattern that was usually seen for the LPS of the wild-type P. gingivalis. A recombinant chimera gingipain was able to bind to an LPS fraction of the wild-type P. gingivalis in a dose-dependent manner. These results suggest that the rfa gene product is associated with biosynthesis of LPS and/or cell-surface polysaccharides that can function as an anchorage for gingipain-adhesin complexes.
牙周病原菌牙龈卟啉单胞菌在血琼脂平板上培养时会形成色素沉着菌落,这是由于细胞表面积累了μ-氧代血红素二聚体。牙龈蛋白酶-黏附素复合物负责从血红蛋白产生μ-氧代血红素二聚体。通过Tn4351转座子诱变从牙龈卟啉单胞菌中分离出了无色素突变体(Tn6-5、Tn7-1、Tn7-3和Tn10-4)[胡佛和吉村(1994年),《FEMS微生物学快报》124,43-48]。在本研究中,我们发现Tn6-5、Tn7-1和Tn7-3突变体分别在与编码UDP-葡萄糖6-脱氢酶的ugdA基因同源的基因、编码假定的1组家族糖基转移酶的基因以及与编码ADP-庚糖-LPS庚糖基转移酶的rfa基因同源的基因中携带Tn4351 DNA。Tn10-4突变体在与Tn7-1相同的位置携带Tn4351 DNA。与Tn7-3突变体(rfa)细胞相关的牙龈蛋白酶活性非常弱,而在培养上清液中检测到了牙龈蛋白酶活性。免疫印迹和质谱分析还表明,包括其前体形式在内的牙龈蛋白酶存在于培养上清液中。rfa缺失突变体的脂多糖(LPS)部分没有显示出野生型牙龈卟啉单胞菌LPS通常呈现的阶梯状模式。重组嵌合牙龈蛋白酶能够以剂量依赖的方式与野生型牙龈卟啉单胞菌的LPS部分结合。这些结果表明,rfa基因产物与LPS和/或细胞表面多糖的生物合成有关,这些多糖可作为牙龈蛋白酶-黏附素复合物的锚定物。
