Alamuri Praveen, Eaton Kathryn A, Himpsl Stephanie D, Smith Sara N, Mobley Harry L T
Department of Microbiology and Immunology, University of Michigan Medical School, Ann Arbor, MI 48109-0620, USA.
Infect Immun. 2009 Feb;77(2):632-41. doi: 10.1128/IAI.01050-08. Epub 2008 Nov 24.
Complicated urinary tract infections (UTI) caused by Proteus mirabilis are associated with severe pathology in the bladder and kidney. To investigate the roles of two established cytotoxins, the HpmA hemolysin, a secreted cytotoxin, and proteus toxic agglutinin (Pta), a surface-associated cytotoxin, mutant analysis was used in conjunction with a mouse model of ascending UTI. Inactivation of pta, but not inactivation of hpmA, resulted in significant decreases in the bacterial loads of the mutant in kidneys (P < 0.01) and spleens (P < 0.05) compared to the bacterial loads of the wild type; the 50% infective dose (ID(50)) of an isogenic pta mutant or hpmA pta double mutant was 100-fold higher (5 x 10(8) CFU) than the ID(50) of parent strain HI4320 (5 x 10(6) CFU). Colonization by the parent strain caused severe cystitis and interstitial nephritis as determined by histopathological examination. Mice infected with the same bacterial load of the hpmA pta double mutant showed significantly reduced pathology (P < 0.01), suggesting that the additive effect of these two cytotoxins is critical during Proteus infection. Since Pta is surface associated and important for the persistence of P. mirabilis in the host, it was selected as a vaccine candidate. Mice intranasally vaccinated with a site-directed (indicated by an asterisk) (S366A) mutant purified intact toxin (Pta*) or the passenger domain Pta-alpha*, each independently conjugated with cholera toxin (CT), had significantly lower bacterial counts in their kidneys ( P = 0.001) and spleens (P = 0.002) than mice that received CT alone. The serum immunoglobulin G levels correlated with protection (P = 0.03). This is the first report describing the in vivo cytotoxicity and antigenicity of an autotransporter in P. mirabilis and its use in vaccine development.
奇异变形杆菌引起的复杂性尿路感染(UTI)与膀胱和肾脏的严重病变有关。为了研究两种已确定的细胞毒素的作用,即分泌型细胞毒素HpmA溶血素和表面相关细胞毒素变形杆菌毒性凝集素(Pta),将突变分析与上行性UTI小鼠模型结合使用。与野生型细菌载量相比,pta基因失活而非hpmA基因失活导致突变体在肾脏(P < 0.01)和脾脏(P < 0.05)中的细菌载量显著降低;同基因pta突变体或hpmA pta双突变体的50%感染剂量(ID(50))比亲本菌株HI4320的ID(50)(5×10(6) CFU)高100倍(5×10(8) CFU)。组织病理学检查显示,亲本菌株定植会导致严重的膀胱炎和间质性肾炎。感染相同细菌载量的hpmA pta双突变体的小鼠病理变化显著减轻(P < 0.01),这表明这两种细胞毒素的累加效应在变形杆菌感染过程中至关重要。由于Pta与表面相关且对奇异变形杆菌在宿主体内的持续存在很重要,因此将其选为疫苗候选物。用定点(用星号表示)(S366A)突变体纯化完整毒素(Pta*)或乘客结构域Pta-α*分别与霍乱毒素(CT)偶联后经鼻内接种的小鼠,其肾脏(P = 0.001)和脾脏(P = 0.002)中的细菌数量明显低于仅接受CT的小鼠。血清免疫球蛋白G水平与保护作用相关(P = 0.03)。这是第一份描述奇异变形杆菌中自转运蛋白的体内细胞毒性和抗原性及其在疫苗开发中的应用的报告。