Urethral obstruction of 6 hours or less causes bacteriuria, bacteremia, and pyelonephritis in mice challenged with "nonuropathogenic" Escherichia coli.

Urethral obstruction may be caused by prostatic hypertrophy, urethral stricture, or encrustation of a urethral-catheter lumen. Bacteriuria often complicates these obstructions. The sequelae include fever, acute pyelonephritis, chronic renal inflammation, and death. We hypothesized that even brief obstruction of the urinary tract containing a nonvirulent bacterium would result in these complications. Mice challenged transurethrally with Escherichia coli FN414, which is rapidly eliminated from normal mice without causing bacteriuria, bacteremia, or renal pathology, were subjected to reversible urethral obstruction by coating the urethral meatus with collodion for 1, 3, or 6 h. The majority of mice obstructed for 1 h demonstrated parenchymal renal inflammation 48 h later. At the end of 3 h of obstruction, 9 of 10 mice were bacteremic; some bacteremias were present at 48 h after removal of the obstruction. At that time, more severe renal inflammation was seen in these mice. As little as 6 h of obstruction resulted not only in the acute changes described above but also in chronic renal inflammation and fibrosis in the majority of animals sacrificed 3 and 6 weeks later. Additional studies demonstrated that urethral obstruction enhanced the uropathogenicity of another nonpathogenic E. coli strain (K-12 strain HB101) and caused more severe renal lesions in mice challenged with E. coli CFT073, isolated from a patient with symptoms of pyelonephritis. These findings demonstrate that brief urethral obstruction may (i) induce organisms which are cleared rapidly from the normal urinary tract to cause bacteriuria, bacteremia, and pyelonephritis and (ii) intensify the renal lesions caused by a uropathogen.

Contribution of Proteus mirabilis urease to persistence, urolithiasis, and acute pyelonephritis in a mouse model of ascending urinary tract infection.

Proteus mirabilis, a significant cause of bacteriuria and acute pyelonephritis in humans, produces urease. This high-molecular-weight, multimeric, cytoplasmic enzyme hydrolyzes urea to ammonia and carbon dioxide. To assess the role of urease in colonization, urolithiasis, and acute pyelonephritis in an animal model of ascending urinary tract infection, we compared a uropathogenic strain of P. mirabilis with its isogenic urease-negative mutant, containing an insertion mutation within ureC, the gene encoding the large subunit of the enzyme. Mice challenged transurethrally with the parent strain developed significant bacteriuria and urinary stones. The urease-negative mutant had a 50% infective dose of 2.7 x 10(9) CFU, a value more than 1,000-fold greater than that of the parent strain (2.2 x 10(6) CFU). The urease-positive parent strain reached significantly higher concentrations and persisted significantly longer in the bladder and kidney than did the mutant. Indeed, in the kidney, the parent strain increased in concentration while the mutant concentration fell so that, by 1 week, the parent strain concentration was 10(6) times that of the mutant. Similarly, the urease-positive parent produced significantly more severe renal pathology than the mutant. The initial abnormalities were in and around the pelvis and consisted of acute inflammation and epithelial necrosis. By 1 week, pyelitis was more severe, crystals were seen in the pelvis, and acute pyelonephritis, with acute interstitial inflammation, tubular epithelial cell necrosis, and in some cases abscesses, had developed. By 2 weeks, more animals had renal abscesses and radial bands of fibrosis. We conclude that the urease of P. mirabilis is a critical virulence determinant for colonization, urolithiasis, and severe acute pyelonephritis.

Investigation of an outbreak of bloody diarrhea: association with endoscopic cleaning solution and demonstration of lesions in an animal model.

UNLABELLED: OUTBREAK INVESTIGATION: An outbreak of diarrhea, bloody diarrhea, and abdominal cramps occurred among persons undergoing flexible sigmoidoscopy at a branch clinic of a local health center. Illness was associated with use of sigmoidoscopes cleaned by one clinic assistant and appeared to be caused by 2% glutaraldehyde disinfectant solution left in the instruments after cleaning. ANIMAL STUDIES: In subsequent animal studies, colonic instillation of 2% glutaraldehyde solutions caused bloody diarrhea and a distinctive pattern of mucosal damage; similar changes were seen in a review of pathologic samples from other human cases of glutaraldehyde disinfectant-associated diarrhea. CONCLUSION: Our data indicate that improper endoscopic reprocessing can result in serious illness and underscore the importance of adequate training and quality control in this area.

Cold agglutinins in cats with haemobartonellosis.

Coombs-positive anemia developed in cats inoculated with Haemobartonella felis. Cold agglutinins were detected in serum during the acute stage of the disease when anemia was present. The cold agglutinating activity was associated with IgM, was demonstrated at 4 C, and was abolished by treatment of sera with 2-mercaptoethanol. At 4 C, the sera from infected cats agglutinated or lysed parasitized autologous erythrocytes or normal erythrocytes pretreated with neuraminidase. These data indicate that cold agglutinins are associated with haemobartonellosis and suggest that immunologic responses to erythrocytic antigens have a role in the anemia.