To determine the genotypes of Toxoplasma gondii strains associated with human toxoplasmosis, we developed a sensitive approach for typing parasites grown from clinical samples by short-term in vitro culture. A newly described nested PCR assay was capable of amplifying genomic DNA from as few as five parasites in the presence of host tissues. Typing was based on DNA polymorphisms at the SAG2 locus, encoding tachyzoite surface antigen p22. Restriction fragment length polymorphisms in PCR-amplified SAG2 products were used to classify strains into one of the three major lineages of T. gondii. This approach was successfully used to determine the genotypes of 68 of 72 samples that had been previously isolated from patients with congenital, cerebral, and disseminated toxoplasmosis. Type II strains of T. gondii were found in a majority of the samples, accounting for 55 (81%) of the 68 toxoplasmosis cases. In contrast, type I and III strains were found in only 7 (10%) and 6 (9%) of the 68 cases, respectively. The results of this study support the previous finding that type II strains are most often associated with human toxoplasmosis. Nested PCR analysis at the SAG2 locus provides rapid assignment of T. gondii to a specific genotype that should be useful in analyzing a variety of clinical samples.
The clinical pulmonary infection score-original or modified-has been proposed for the diagnosis and management of ventilator-associated pneumonia. In 79 episodes of suspected pneumonia, we prospectively assessed the diagnostic accuracy of the physicians' clinical assessment of probability and of the modified clinical pulmonary infection score, both measured before (pretest) and after (post-test) incorporating gram stains results, using bronchoalveolar lavage fluid culture as the reference test. The pretest clinical estimate was inaccurate (sensitivity 50%, specificity 58%); the mean clinical pulmonary infection score at baseline was 6.5 +/- 1.3 (range, 3-9) and 5.9 +/- 1.7 (range, 3-9), respectively, for the 40 confirmed and the 39 nonconfirmed episodes (p = 0.07), and only slightly more accurate (sensitivity 60%, specificity 59%) than the clinical prediction. Incorporating the gram stain results of either directed or blind protected sampling increased the diagnostic accuracy (sensitivity and specificity of 85% and 49% and 78% and 56%, respectively) of the clinical score and increased the likelihood ratio for pneumonia of a score of more than six from 1.46 to 1.67 and 1.77. The clinical pulmonary infection score has low diagnostic accuracy; however, incorporating gram stains results into the score may help clinical decision making in patients with clinically suspected pneumonia.
We investigated the respective roles of the host and parasite strain in a murine model of visceral leishmaniasis. Balb/c and C57Bl/6 mice were selected for their respective 'non cure' and 'cure' haplotypes vis-a-vis Leishmania major. Mice were infected with 10(7) stationary-phase promastigotes of four strains of Leishmania infantum with different infection profiles in mice: visceralization or regulation, as established by Sulahian et al. (Sulahian et al. (1998) FEMS Immunol. Med. Microbiol. 17, 131-138). The infection was monitored by measuring parasite load in the liver and spleen on days 9, 22, 44 and 87 post-infection, using a sensitive microtitration technique. Similar profiles (visceralizing or regulating) were observed in the two mouse strains, suggesting a predominant role of the Leishmania strain in the visceralization process. The host response was assessed by analyzing the granulomatous response in the liver and by quantifying specific IgG, IgG1 and IgG2a as a marker of the Th1/Th2 immune response. A granulomatous response was observed in both strains of mice but was more pronounced with visceralizing strains of L. infantum and in C57Bl/6 mice compared to Balb/c mice. The kinetics of anti-Leishmania IgG antibody production was similar in all the groups, but the distribution of IgG1 and IgG2a isotypes was different between the two mouse strains: Balb/c mice had a predominantly Th2-like response whereas C57Bl/6 had a mixed Th1/Th2-like response. This study demonstrates the determining role of both the parasite and mouse strain in the outcome of L. infantum infection. The Th1/Th2 concept does not seem to explain susceptibility and resistance to infection in our model of visceral L. infantum infection, contrary to the L. major model.
Persistence of alveolar neutrophil influx and activation may enhance the fibrotic process after acute lung injury. On the other hand, elastase has an antimicrobial activity and could participate in neutrophil migration, both events being critically important in host defense, explaining the controversial issue of therapeutic elastase inhibition in the setting of acute lung injury. We assessed the effect of a neutrophil elastase inhibitor, EPI-hNE-4, in single (bleomycin, 1.2 mg/rat intratracheally) and repeated (bleomycin, 1.2 mg/rat plus endotoxin and 1 mg/kg intratracheally 24 h later) lung injuries to assess the role of neutrophil in fibrosis. Subsequently, the effect of EPI-hNE-4 on bacterial clearance was evaluated during Pseudomonas aeruginosa-induced pneumonia. In the single injury model, despite a dramatic reduction of alveolar neutrophil influx with EPI-hNE-4 treatment, no significant inhibition of the decrease in respiratory system compliance, an index of lung fibrosis, was demonstrated at day 14. In the repeated injury model, EPI-hNE-4 treatment afforded a significant protective effect on compliance and alveolar inflammation at day 14. During bacterial pneumonia, EPI-hNE4 did not modify alveolar neutrophil recruitment or bacterial clearance from bronchoalveolar lavage fluid and lung homogenate. In conclusion, EPI-hNE-4, a specific inhibitor of leukocyte elastase, afforded a partial protective effect on the respiratory system compliance during repeated lung injuries, and had no detrimental effect during a gram-negative bacterial pneumonia.
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