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霍乱弧菌稻叶型O1菌株完整及化学修饰的脂多糖与非O1霍乱弧菌博多生物血清群之间的血清学交叉反应。

Serological cross-reaction between intact and chemically modified lipopolysaccharides of O1 Vibrio cholerae Inaba and non-O1 V. cholerae bio-serogroup Hakata.

作者信息

Isshiki Y, Haishima Y, Kondo S, Hisatsune K

机构信息

Department of Microbiology, School of Pharmaceutical Sciences, Josai University, Saitama, Japan.

出版信息

Microbiol Immunol. 1992;36(11):1201-5. doi: 10.1111/j.1348-0421.1992.tb02123.x.

Abstract

Serological cross-reaction of intact as well as chemically modified LPS from O1 Vibrio cholerae 569B (Inaba) with non-O1 V. cholerae Hakata LPS, which contain alpha(1-->2)-linked N-acetyl perosamine-homopolymer constituting their O polysaccharide chain, was studied by passive hemolysis test by using their LPS as antigen for sensitizing sheep red blood cells (SRBC). The N-deacylation of the alpha(1-->2)-linked linear 3-deoxy-tetronyl perosamine-homopolymer constituting the O polysaccharide chain in 569B LPS resulted in virtual elimination of their serological reactivity with both homologous Inaba and heterologous Hakata antisera. Furthermore, when the resultant NH2 groups of the N-deacylated perosamine-homopolymers in 569B LPS were N-acylated with acetyl, propionyl or butanoyl groups, they markedly recovered the serological reactivity to a marked extent, in particular, their pronounced cross-serological reactivity with heterologous Hakata antiserum. These results are believed to be compatible with the interpretation that the Inaba antigen factor C possessed by the two bacteria studied is related to the common occurrence of the N-acyl groups, regardless of what the acyl groups are, residing in the perosamine residues of the perosamine-homopolymers constituting the O polysaccharide chain of their LPS.

摘要

通过被动溶血试验,以霍乱弧菌O1群569B(稻叶型)完整的以及化学修饰的脂多糖(LPS)作为抗原致敏绵羊红细胞(SRBC),研究其与非O1群霍乱弧菌博多LPS的血清学交叉反应。博多LPS的O多糖链含有α(1→2)连接的N - 乙酰过氧胺均聚物。569B LPS中构成O多糖链的α(1→2)连接的线性3 - 脱氧 - 四羟丁糖过氧胺均聚物的N - 脱酰化导致其与同源稻叶型和异源博多抗血清的血清学反应性几乎完全消除。此外,当569B LPS中N - 脱酰化过氧胺均聚物产生的NH₂基团用乙酰基、丙酰基或丁酰基进行N - 酰化时,它们在很大程度上显著恢复了血清学反应性,特别是与异源博多抗血清的明显交叉血清学反应性。这些结果被认为与以下解释相符:所研究的两种细菌所具有的稻叶型抗原因子C与存在于构成其LPS的O多糖链的过氧胺均聚物的过氧胺残基中的N - 酰基基团的普遍存在有关,而与酰基基团是什么无关。

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