Deborah S. Beck scite author profile

The susceptibility of laboratory mice to Borrelia burgdorferi was evaluated for selected genotypes and ages. C3H/He, SWR, C57BL/6, SJL, and BALB/c mice inoculated at age 3 days developed uniformly severe polyarthritis at 30 days after intraperitoneal inoculation. Mice inoculated at age 3 weeks also developed polyarthritis, but severity was influenced by genotype, with C3H/He and SWR mice the most severely affected. Susceptible strains developed higher IgG ELISA antibody titers to B. burgdorferi than did resistant mice. Adult (12 weeks) C3H/He mice were also susceptible, but arthritis was not as severe as in those inoculated at age 3 weeks. SKH (hairless) mice developed polyarthritis but not skin disease when inoculated intradermally. Carditis occurred frequently among C3H/He, BALB/c, and hairless mice and in some SWR mice but not in C57BL/6 or SJL mice. This study demonstrates that severity of Lyme borreliosis is age- and genotype-dependent and that laboratory mice are a potentially valuable model.

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Carditis in Lyme Disease Susceptible and Resistant Strains of Laboratory Mice Infected with Borrelia Burgdorferi

Armstrong

Barthold

Persing

et al. 1992

143

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Borrelia burgdorferi Lacking BBK32, a Fibronectin-Binding Protein, Retains Full Pathogenicity

Liu

Beck

et al. 2006

Infect Immun

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BBK32, a fibronectin-binding protein of Borrelia burgdorferi, is one of many surface lipoproteins that are differentially expressed by the Lyme disease spirochete at various stages of its life cycle. The level of BBK32 expression in B. burgdorferi is highest during infection of the mammalian host and lowest in flat ticks. This temporal expression profile, along with its fibronectin-binding activity, strongly suggests that BBK32 may play an important role in Lyme pathogenesis in the host. To test this hypothesis, we constructed an isogenic BBK32 deletion mutant from wild-type B. burgdorferi B31 by replacing the BBK32 gene with a kanamycin resistance cassette through homologous recombination. We examined both the wild-type strain and the BBK32 deletion mutant extensively in the experimental mouse-tick model of the Borrelia life cycle. Our data indicated that B. burgdorferi lacking BBK32 retained full pathogenicity in mice, regardless of whether mice were infected artificially by syringe inoculation or naturally by tick bite. The loss of BBK32 expression in the mutant had no adverse effect on spirochete acquisition (mouse-to-tick) and transmission (tick-to-mouse) processes. These results suggest that additional B. burgdorferi proteins can complement the function of BBK32, fibronectin binding or otherwise, during the natural spirochete life cycle.

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Outer Surface Protein B Is Critical for Borrelia burgdorferi Adherence and Survival within Ixodes Ticks

Neelakanta

Pal

et al. 2007

PLoS Pathog

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Survival of Borrelia burgdorferi in ticks and mammals is facilitated, at least in part, by the selective expression of lipoproteins. Outer surface protein (Osp) A participates in spirochete adherence to the tick gut. As ospB is expressed on a bicistronic operon with ospA, we have now investigated the role of OspB by generating an OspB-deficient B. burgdorferi and examining its phenotype throughout the spirochete life cycle. Similar to wild-type isolates, the OspB-deficient B. burgdorferi were able to readily infect and persist in mice. OspB-deficient B. burgdorferi were capable of migrating to the feeding ticks but had an impaired ability to adhere to the tick gut and survive within the vector. Furthermore, the OspB-deficient B. burgdorferi bound poorly to tick gut extracts. The complementation of the OspB-deficient spirochete in trans, with a wild-type copy of ospB gene, restored its ability to bind tick gut. Taken together, these data suggest that OspB has an important role within Ixodes scapularis and that B. burgdorferi relies upon multiple genes to efficiently persist in ticks.

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Mouse hepatitis virus nasoencephalopathy is dependent upon virus strain and host genotype

Barthold

Beck

Smith

1986

Archives of Virology

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Mouse hepatitis virus (MHV) S induced typical MHV spongiform lesions in brainstem 28 days following intranasal inoculation of adult A/J, BALB/cByJ, CBA/J, C 3 H/HeJ and C 3 H/RV, but not SJL mice. In all but SJL mice, brain lesions occurred at or near the infectious dose level, based on seroconversion by the indirect immunofluorescence assay. During the acute phase of infection (day 5), lesions were limited to the nose and brain in most genotypes. Exceptions were BALB mice, which had mild hepatitis and SJL mice, which had lesions restricted to the nose. No mortality occurred in any genotype. Following intranasal inoculation of adult mice, MHV-1, -3, -A 59, -JHM and -S all caused brain lesions at 28 days after inoculation. MHV-1 and -3 caused lesions that were usually restricted to the anterior olfactory tracts, while MHV-A 59, -S and -JHM also caused more generalized and pronounced lesions involving the midbrain and pons. These studies suggest that avirulent MHV-S given intranasally to most mouse genotypes is a good model for induction of brain infection in the absence of mortality. They also confirm observations made by others in which MHV-JHM, -S and -A 59 are relatively more neurotropic than other MHV strains, such as MHV-1 and -3.

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Deborah S. Beck

Lyme Borreliosis in Selected Strains and Ages of Laboratory Mice

Carditis in Lyme Disease Susceptible and Resistant Strains of Laboratory Mice Infected with Borrelia Burgdorferi

Borrelia burgdorferi Lacking BBK32, a Fibronectin-Binding Protein, Retains Full Pathogenicity

Outer Surface Protein B Is Critical for Borrelia burgdorferi Adherence and Survival within Ixodes Ticks

Mouse hepatitis virus nasoencephalopathy is dependent upon virus strain and host genotype

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