The Salmonella dublin virulence plasmid does not modulate early T-cell responses in mice

LA Guilloteau, AJ Lax, S MacIntyre… - Infection and …, 1996 - Am Soc Microbiol
LA Guilloteau, AJ Lax, S MacIntyre, TS Wallis
Infection and immunity, 1996Am Soc Microbiol
The virulence plasmid in Salmonella dublin mediates systemic infection in mice and cattle.
The role of gamma delta T cells or hepatic extrathymic T cells has recently been reported to
be important in the control of the early stage of Salmonella choleraesuis infections of mice.
Here, we report on T-cell responses in conventional mice after challenge with a virulent
strain of S. dublin carrying a virulence plasmid or with a strain cured of the plasmid. Over a
period of 4 days postinfection, when both strains could be compared, similar changes in …
The virulence plasmid in Salmonella dublin mediates systemic infection in mice and cattle. The role of gamma delta T cells or hepatic extrathymic T cells has recently been reported to be important in the control of the early stage of Salmonella choleraesuis infections of mice. Here, we report on T-cell responses in conventional mice after challenge with a virulent strain of S. dublin carrying a virulence plasmid or with a strain cured of the plasmid. Over a period of 4 days postinfection, when both strains could be compared, similar changes in alpha beta and gamma delta T-cell subsets in peritoneal cavities, livers, and spleens were recorded, demonstrating no clear role of the virulence plasmid in modulation of early T-cell responses. To investigate further the role of the virulence plasmid in pathogenesis, the growth of the plasmid-cured strain was assessed in SCID, SCID bg, and irradiated mice. During the first 6 days after infection, there was no statistically difference in the net growth of Salmonella cells in the livers and spleens of SCID and SCID bg mice compared with conventional BALB/mice. This observation excludes a key role for a T- or B-cell-mediated immune response in controlling the initial growth of the plasmid-cured S. dublin strain. Thereafter, the immunocompromised mice were no longer able to control infection, although SCID mice were more efficient at controlling net bacterial multiplication than SCID bg mice, potentially implicating NK cells in the control of infection in SCID mice. The early control of net bacterial multiplication in the spleens and livers of BALB/c mice was ablated by whole-body X-irradiation. Both wild-type and plasmid-cured strains multiplied significantly more rapidly in irradiated than in conventional BALB/c mice. However, the numbers of wild-type bacterial still increased more rapidly than in the numbers of the cured strains. These results are consistent with a role of the S. dublin virulence plasmid in promoting in vivo growth of Salmonella cells.
American Society for Microbiology