Senior D F, deMan P, Svanborg C
Department of Clinical Immunology, University of Gothenburg, Sweden.
Am J Vet Res. 1992 Apr;53(4):494-8.
Virulence factors were studied in 82 strains of Escherichia coli isolated from the urine of dogs with urinary tract infections. The most frequently expressed O antigens were 2, 4, 6, 25, and 22/83. Most strains were K nontypeable. Mannose-sensitive hemagglutination (MSH) with canine erythrocytes was observed in 71 strains and mannose-resistant hemagglutination (MRH) was observed in 32 strains. Strains that caused MSH of erythrocytes from dogs also caused MSH of erythrocytes from guinea pigs. Most strains that caused MRH of human A1P1 erythrocytes also reacted with erythrocytes of dogs. Of 22 strains (27%) that agglutinated human A1P1 erythrocytes, but not A1p erythrocytes, 17 (77%) had specificity for globo A, but did not react with the galactose alpha 1----4galactose beta disaccharide receptor. The remaining 5 strains and 2 others that simultaneously expressed an X adhesin agglutinated galactose alpha 1----4galactose beta-coated latex beads. Bacterial adherence to canine uroepithelial cells from the bladder was most often observed in strains expressing MSH, less often observed in strains expressing MRH, and least often observed in strains that failed to induce hemagglutination. Adherence of MSH strains to canine uroepithelial cells was inhibited by alpha-methyl-D-mannoside. As a group, MRH strains expressing globo-A- and galactose alpha 1----4galactose beta-specific adhesins did not have strong adherence. Strains of E coli isolated from dogs with urinary tract infections most commonly expressed type-1 fimbriae, and the main mechanism of in vitro adherence to canine uroepithelial cells involved a mannose-sensitive mechanism. Overrepresentation of globo-A-specific adhesins did not appear to be related to adherence of canine uroepithelial cells.
对从患有尿路感染的犬尿液中分离出的82株大肠杆菌的毒力因子进行了研究。最常表达的O抗原为2、4、6、25以及22/83。大多数菌株的K抗原无法分型。在71株菌株中观察到对犬红细胞的甘露糖敏感血凝作用(MSH),在32株菌株中观察到甘露糖抗性血凝作用(MRH)。引起犬红细胞MSH的菌株也会引起豚鼠红细胞的MSH。大多数引起人A1P1红细胞MRH的菌株也与犬红细胞发生反应。在22株(27%)凝集人A1P1红细胞但不凝集A1p红细胞的菌株中,17株(77%)对球A具有特异性,但不与半乳糖α1----4半乳糖β二糖受体发生反应。其余5株以及另外2株同时表达X黏附素的菌株凝集了半乳糖α1----4半乳糖β包被的乳胶珠。表达MSH的菌株最常观察到对来自膀胱的犬尿道上皮细胞的细菌黏附,表达MRH的菌株较少观察到,而未能诱导血凝的菌株最少观察到。α-甲基-D-甘露糖苷可抑制MSH菌株对犬尿道上皮细胞的黏附。作为一个群体,表达球A和半乳糖α1----4半乳糖β特异性黏附素的MRH菌株没有很强的黏附性。从患有尿路感染的犬分离出的大肠杆菌菌株最常表达1型菌毛,体外对犬尿道上皮细胞的黏附主要机制涉及甘露糖敏感机制。球A特异性黏附素的过度表达似乎与犬尿道上皮细胞的黏附无关。
