Immune mechanisms in murine brucellosis: studies with strain RB51, a rough mutant of Brucella abortus

Bagchi, Tamishraha

16 September 2005

The roles of humoral and cell mediated immune responses in murine brucellosis were investigated in this study.B. abortus strain 19, the current vaccine strain, is known to induce an antibody as well as cell mediated immune responses, both of which protect mice against smooth strain 2308. B. abortus rough strain RB51 does not induce an o-side chain specific antibody response and yet protects mice against smooth strain 2308. Passive transfer experiments using serum and nylon wool enriched T cells obtained from micevaccinated with strain 19 and strain RB51 were carried out. Immune senum from strain 19 vaccinated mice protected against challenge with strain 2308 but not strain RB51. Nylon wool enriched T cells from strain 19 vaccinated mice protected recipient mice against challenge with both strains RB51 or 2308. Serum obtained from RB51 vaccinated mice did not protect recipient mice against challenge with either strain RB51 or strain 2308. Nylon wool enriched T cells from the same vaccinated mice, however, protected mice against challenge with both strains. Thioglycollate elicited mouse peritoneal macrophages could be activated by recombinant gamma-interferon to kill ingested B. abortus. This was true for both the rough strain RB51 and smooth strain 2308, although RB51 exhibited greater susceptibility to killing. Macrophages already invaded by either strain RB51 or strain 2308 retained their responsiveness to gamma-interferon activation am could kill either strain of B. abortus following activation by gamma-interferon. Results obtained in this investigation indicate that strain RB51 protects mice against strain 2308 by probably inducing a cell mediated immune response. / Ph. D.

LD5655.V856 1990.B343

Brucellosis -- Research

The pregnant mouse model of brucellosis: the pathology and protection studies comparing Brucella abortus strains 2308, 19 and RB51

Tobias, Lynette

14 October 2005

Brucellosis caused by Brucella abortus is an important zoonotic disease characterized in cattle by placentitis, fetal death and abortion. Brucellosis research employing the pregnant mouse model has been limited to the bacteriology and immunology of the disease. Studies reported in this dissertation characterized the pathology and serology of one virulent (2308) and two attenuated (19 and RB51) strains of B. abortus in the pregnant mouse. When 10^5.7 strain 2308 organisms were administered intraperitoneally to BALB/c mice in midgestation, by 9 days post-inoculation they consistently produced a severe, necro-suppurative placentitis frequently asociated with fetal death. Sequential examination of the placenta during the second half of gestation revealed infection of the trophoblast giant cells and visceral yolk sac. As occurs in the cow, brucellae localized within the rough endoplasmic reticulum of the trophoblast cells. An inoculum of 10^7.5 strain 19, the current vaccinal strain, produced a similar lesion. Both strains 2308 and 19 induced antibodies against lipopolysaccharide O-side-chain as monitored by serum agglutination and western blot analysis. Inoculation of ^9.5 strain RB51 brucellae, a stable rough organism, produced minimal placentitis and did not induce fetal death or anti-O-side-chain antibodies as assessed by serum agglutination or Western Blot analysis. Mice vaccinated prebreeding with 10⁶ strain 19 demonstrated excellent protection against midgestational challenge by 10^5.7 strain 2308 organisms as assessed by lesion development and infection of spleens and placentas. Vaccination with 10⁸ strain RB51 produced a lesser, although significant, degree of protection against infection and prevented severe lesions and fetal death: Two inoculations of strain RB51 improved protection against placental infection. The intravenous transfer of strain 19 antiserum or monoclonal antibodies directed against the O-side-chain one hour before challenge with brucellae provided protective immunity to the pregnant mouse. In contrast, antiserum against strain RB51 was not protective, indicating the importance of cell-mediated rather than humoral immunity in protection afforded by vaccination with strain RB51. These experiments suggest that the pregnant mouse is an appropriate model to study the immunopathology of brucellosis. It also supports the development of strain RB51 as a vaccine for bovine brucellosis, offering protection against infection without eliciting anti-O-chain antibodies that confound the serodiagnosis of infection with virulent smooth strains. / Ph. D.

LD5655.V856 1991.T625

Brucellaceae -- Research

Brucellosis -- Research