Fenwick B W, Cullor J S, Osburn B I, Olander H J
Infect Immun. 1986 Aug;53(2):298-304. doi: 10.1128/iai.53.2.298-304.1986.
In an investigation of the potential protective effects of immunity against common lipopolysaccharide core antigens of gram-negative bacteria during a severe gram-negative infection in the natural host, we induced Haemophilus pleuropneumoniae infections in weanling pigs immunized with a vaccine of an Rc mutant of Escherichia coli (strain J5). To help define the mechanism involved in J5-mediated protection, we compared the clinical, hematologic, bacteriologic, and serologic responses following an H. pleuropneumoniae infection in J5-immunized pigs with those following an H. pleuropneumoniae infection in nonimmunized control animals. As a result of an intranasal inoculation, all of the control animals and the J5-immunized animals were infected with H. pleuropneumoniae. However, while 80% (4 of 5) of the nonimmunized pigs died within 24 h as a result of the infection, no deaths occurred in the J5-immunized animals. In the immunized group, J5 titers dropped during the acute stages of the infection and rebounded to well above the prechallenge levels during convalescence. The J5 titer also increased in the single surviving control animal. These findings suggest that antibodies against common subsurface components of gram-negative bacterial cell walls correlate with protection from an otherwise lethal challenge of H. pleuropneumoniae but do not prevent infection. Important growth-phase-dependent antigenic changes have been recognized to occur during the growth of H. pleuropneumoniae in cultures (R. Nielson, Nord. Veterinaermed. 28:337-348, 1976). In a study of these changes and during an inquiry into the mechanism of J5 antibody-mediated protection, measured quantities of H. pleuropneumoniae were removed from a broth culture at hourly intervals and used to absorb hyperimmune equine J5 antiserum. Significantly greater amounts of J5-specific antibodies were absorbed during the log phase of bacterial growth than during the early or late phase. The availability of epitopes recognized by J5 antibodies appears to be closely related to the rate of bacterial multiplication. The results of these experiments suggest a mechanism of protection provided by increased immunity to E. coli J5 during gram-negative infections.
在一项关于天然宿主严重革兰氏阴性菌感染期间,针对革兰氏阴性菌常见脂多糖核心抗原的免疫潜在保护作用的研究中,我们用大肠杆菌Rc突变株(J5株)疫苗免疫断奶仔猪,然后使其感染胸膜肺炎放线杆菌。为了明确J5介导的保护机制,我们比较了J5免疫猪感染胸膜肺炎放线杆菌后的临床、血液学、细菌学和血清学反应,以及未免疫对照动物感染胸膜肺炎放线杆菌后的相应反应。通过鼻内接种,所有对照动物和J5免疫动物均感染了胸膜肺炎放线杆菌。然而,虽然80%(5头中的4头)未免疫猪因感染在24小时内死亡,但J5免疫动物中无一死亡。在免疫组中,J5滴度在感染急性期下降,恢复期反弹至远高于攻毒前水平。唯一存活的对照动物的J5滴度也有所升高。这些发现表明,针对革兰氏阴性菌细胞壁常见表面下成分的抗体与抵御胸膜肺炎放线杆菌致死性攻击的保护作用相关,但不能预防感染。人们已经认识到,胸膜肺炎放线杆菌在培养过程中会发生重要的生长阶段依赖性抗原变化(R. Nielson,《北欧兽医医学》28:337 - 348,1976)。在对这些变化的研究以及对J5抗体介导的保护机制的探究中,每隔一小时从肉汤培养物中取出一定量的胸膜肺炎放线杆菌,用于吸收超免疫马J5抗血清。与细菌生长早期或晚期相比,在细菌生长对数期吸收的J5特异性抗体量显著更多。J5抗体识别的表位可用性似乎与细菌繁殖速率密切相关。这些实验结果提示了在革兰氏阴性菌感染期间,增强对大肠杆菌J5的免疫力所提供的一种保护机制。