The detection limit of these three cytokines was 2 4 pg/ml for IL

The detection limit of these three cytokines was 2.4 pg/ml for IL-2, 3.1 pg/ml for IL-4 and 1.6 pg/ml for TNF-α, respectively. Intranasal challenge with B. pertussis Two week after the second immunization, five mice from each group were challenged intranasally with the B. pertussis strain 18323 according to

the method described by Cheung et al [30]. Bacteria were subcultured on BG agar medium containing 20% defibrinated sheep blood and resuspended in PBS with 1% casamino acids. For each anesthetized mouse, 50 μL of bacterial suspension at approximately 1 × 106 CFU was injected into the nostril. On day 7 after the injection, lungs of each mouse were removed and homogenized in 1 mL of PBS. Bacterial PS-341 molecular weight viable counting was performed by plating serial dilutions on BG agar medium. Intracerebral challenge with B. pertussis The B. pertussis strain 18323 was used for the intracerebral challenge assay for the immunized mice. Bacterial suspension (30 μL) with approximately 8 × 104 CFU suspended in PBS containing 1% casamino acids were injected into the mouse brain using a 0.25-mL glass syringe. Animal survival number was enumerated at 14 days post challenge. Statistical analysis All analyses were performed by use of SPSS 13.0 software. One-way analysis of variance followed by Dunnett’s (two-sided) test was utilized for the statistical analysis of the host immune responses

and protection against intranasal challenges with B. pertussis in mice. To compare the difference for the protective efficacies against intracerebral challenge with a lethal FG-4592 supplier dose of B. pertussis, the data were analyzed by a Chi-Square test (Mantel-Haenszed Method). P-value < 0.05 was considered statistically significant. Acknowledgements We would like to thank Mr Luming Zhang and Mrs Yawen Liang for excellent technical assistant in animal assays. Part of the research work had been granted a Chinese patent (No. 200710098928.8) Aldol condensation References 1. Crowcroft NS, Stein C, Duclos P, Birmingham

M: How best to estimate the global burden of pertussis? Lancet Infect Dis 2003, 3:413–418.CrossRefPubMed 2. The world health report 2004-changing history World Health Organization report. Geneva 2006. 3. Zhang XL, Yang ZW, Zhou J, Yu JJ, Wang KA: An Analysis on Current Epidemiological Characteristics of Bordetella pertussis in China. Chin J Vac Immun 2000, 6:93–95. 4. Vermeer-deBondt PE, Labadie J, Rümke HC: Rate of recurrent collapse after vaccination with whole cell pertussis vaccine: follow up study. Br Med J 1998, 316:902–903. 5. Pichichero ME, Deloria MA, Rennels MB, Anderson EL, Edwards KM, Cytoskeletal Signaling inhibitor Decker MD, Englund JA, Steinhoff MC, Deforest A, Meade BD: A safety and immunogeniCity comparison of 12 acellular pertussis vaccines and one whole-cell pertussis vaccine given as a fourth dose in 15- to 20-month-old children. Pediatrics 1997, 100:772–788.CrossRefPubMed 6. Watanabe M, Nagai M: Acellular pertussis vaccines in Japan: past, present and future.

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