Bacterial survival, lymph node changes, and immunologic responses of cattle vaccinated with standard and mutant strains of Brucella abortus
1992
Cheville, N.F. | Jensen, A.E. | Halling, S.M. | Tatum, F.M. | Morfitt, D.C. | Hennager, S.G. | Frerichs, W.M. | Schurig, G.
Forty-eight cattle were used in 4 experiments; 6-week-old calves in experiments 1-3 (n = 24) and 10-month-old heifers in experiment 4 (n = 24). In experiments 1-3, 7 groups of 3 calves each were inoculated SC with 5 strains of Brucella abortus: virulent strain 2308 (2 groups), vaccine strain 19 (2 groups), and mutant strains RB51, 19 delta 31K, and 19 delta SOD. Sera and lymph node tissues were examined at 2-week intervals for evidence of infection. At postinoculation (PI) week 12, 2 calves in each group were given dexamethasone for 5 days. Calves were then euthanatized and lymphoid tissue, spleen, liver, and bone marrow were examined for evidence of B abortus. Calves given strain 2308 had large numbers of bacteria in their lymph nodes, marked granulomatous lymphadenitis in the deep cortex, and loss of lymphoid cells in superficial cortical areas. In addition, they had high serum antibody titers at PI week 16. Calves given strain 19, or genetic mutants derived from strain 19, cleared bacteria from lymph nodes more rapidly, had less lymphoid destruction, and developed antibody titers that did not persist for 16 weeks. The RB51 strain (rough) was cleared most rapidly from lymphoid tissues and induced serum antibody responses only to the core of the lipopolysaccharide molecule. Treatment of calves with dexamethasone did not cause B abortus to reappear in tissues of any calves, nor did serum antibody titers increase. In experiment 4, designed to compare the effects of age, 4 groups (n = 4) of 10-month-old heifers were given 1 B abortus strain each (19, RB51, 19 delta 31K, or 19 deltaSOD), using the same methods. Results of bacteriologic culturing and antibody responses were similar to those in the calves, except that strain RB51 persisted longer in heifers. Results of these studies indicated that, in cattle, the genetically engineered deletion mutants of B abortus do not cause unusual lesions, do have characteristics that closely resemble the parental strain, and could be candidates for use in a live vaccine.
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