Mammary infection was induced in lactating mice by intramammary injection of Staphylococcus aureus. Histopathological analysis revealed infiltration and lesions of varying magnitude that were still apparent 21 days after the challenge. Concomitantly, viable S. aureus was recovered from infected mammary glands. Mice were immunized by the intramammary route with 5 x 10(6) colony forming units of a temperature-sensitive mutant of S. aureus and subsequently received a boosting injection seven days later. On day 14 mice were challenged by the intramammary route with the wild-type strain. Intramammary immunization induced a significant increase in milk IgA (P < 0.05), serum IgG (P < 0.05) and serum IgA (P < 0.05) on the day of the challenge, when compared with non-immunized mice. Immunization decreased significantly (P < 0.01) the number of S. aureus colony forming units recovered 96 h after intramammary challenge. In conclusion, the feasibility of immunizing locally with temperature-sensitive S. aureus to induce immunity in the mouse mammary gland was demonstrated. The mouse model of mastitis is proposed as a useful system for screening temperature-sensitive S. aureus strains to be utilized in the development of a vaccine.
Temperature-sensitive (ts) mutants ofStaphylococcus aureus were isolated after mutagenesis with nitrosoguanidine and two cycles of enrichment with Penicillin G and D-Cycloserine. The mutants expressed tight, coasting, and leaky phenotypes on solid media. In broth, however, most exhibited coasting for a limited number of generations. The reversion frequency of selected ts mutants was less than 10(-6). Intraperitoneal (i.p.) immunization with ts mutant G/1/2 conferred significant protection (0 dead/6 total vs. 7/7, immunized vs. control; p=0.0006) from lethal i.p. challenge with the parental wild-type (wt)S. aureus suspended in 5% porcine mucin, performed 28 days after i.p. administration of 10(8) colony-forming units. Protection induced by mutants of coasting phenotype was higher and lasted longer than that induced by mutants of the tight phenotype. The results of this study demonstrate that ts mutants ofS. aureus can be obtained and that ts mutants are able to induce protective immunity from subsequent challenge with the parental wt strain.
Temperature-sensitive mutants of Streptococcus pneumoniae were isolated after chemical mutagenesis. Intranasal immunization with temperature-sensitive mutant J/3 induced higher levels of circulating antibody than those obtained after immunization with the heat-killed parental wild type. Moreover, local immunization with mutant J/3 induced high levels of anti-S. pneumoniae IgG and IgA in the lower respiratory tract, whereas only moderate IgG (and no IgA) antibodies were detected in lung lavage fluids from mice immunized intranasally with the heat-killed strain.
Mammary infection was induced in lactating mice by intramammary injection of Staphylococcus aureus. Histopathological analysis revealed infiltration and lesions of varying magnitude that were still apparent 21 days after the challenge. Concomitantly, viable S. aureus was recovered from infected mammary glands. Mice were immunized by the intramammary route with 5 x 10(6) colony forming units of a temperature-sensitive mutant of S. aureus and subsequently received a boosting injection seven days later. On day 14 mice were challenged by the intramammary route with the wild-type strain. Intramammary immunization induced a significant increase in milk IgA (P < 0.05), serum IgG (P < 0.05) and serum IgA (P < 0.05) on the day of the challenge, when compared with non-immunized mice. Immunization decreased significantly (P < 0.01) the number of S. aureus colony forming units recovered 96 h after intramammary challenge. In conclusion, the feasibility of immunizing locally with temperature-sensitive S. aureus to induce immunity in the mouse mammary gland was demonstrated. The mouse model of mastitis is proposed as a useful system for screening temperature-sensitive S. aureus strains to be utilized in the development of a vaccine.
Immunization with live-attenuated Staphylococcus aureus induced measurable levels of specific IgG and IgA in the lungs, but the pulmonary clearance of S. aureus in immunized mice did not differ from that of control mice. Aerosol exposure of mice to Pseudomonas aeruginosa induced a significant recruitment of polymorphonuclear leukocytes (PMNL) to the lungs in both immunized and control mice, whereas S. aureus challenge did not. However, challenge with a mixture of P. aeruginosa-S. aureus or exposure to an aerosol of Escherichia coli lipopolysaccharide (LPS) before S. aureus challenge induced PMNL migration and a significant enhancement of pulmonary clearance of S. aureus in immunized mice. The presence of both antibodies and PMNL was required for enhancement of S. aureus pulmonary clearance.
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