Bovine natural killer cells restrict the replication of Mycobacterium bovis in bovine macrophages and enhance IL-12 release by infected macrophages.

In this contribution, the impact of bovine natural killer (NK) cells on resistance to bovine tuberculosis was studied, using a monoclonal antibody against bovine NKp46. NK cells cultured with M. bovis-infected macrophages, but not control uninfected macrophages, proliferated and released IFN-gamma. Blood monocyte-derived macrophages were infected with virulent M. bovis, and growth of intra-macrophage bacteria was monitored by incorporation of tritiated uracil. Co-culturing infected macrophages with autologous NK cells significantly reduced the intracellular bacterial growth. Stimulation of NK cells with interleukin-2 (IL-2) enhanced further the capacity of these cells to reduce M. bovis replication in infected macrophages. NK cells from both BCG vaccinated and unvaccinated animals mediated this intra-macrophage growth restriction at similar levels. The ability of NK cells to reduce bacterial growth was independent of the release of IFN-gamma, as blocking IFN-gamma with an antibody in vitro did not affect intra-macrophage bacterial growth. NK cells reduced bacterial growth and also increased macrophage release of interleukin-12 (IL-12) and nitric oxide (NO) production by M. bovis-infected macrophages. Neutralizing NO production by macrophages in vitro with mono-methyl-l-arginine (MMLA) did not abrogate the ability of NK cells to decrease bacterial growth in infected macrophages. Reduction of mycobacterial intra-macrophage growth by NK cells was dependent on direct contact between NK cells and infected macrophages. Supernatants from NK cells failed to impact significantly on M. bovis replication in infected macrophages. The reduction in bacterial growth in macrophages correlated with the induction of an apoptosis program in infected macrophages. Cell death occurred at a similar rate in infected macrophages, exposed to NK cells or not. We conclude that bovine NK cells are stimulated by and release IFN-gamma in response to infected cells and reduce M. bovis growth in infected macrophages by an unclear mechanism, and are potentially involved in innate resistance of cattle to tuberculosis.

Susceptibility of brushtail possums (Trichosurus vulpecula) infected with Mycobacterium bovis is associated with a transient macrophage activation profile.

The Australian brushtail possums are highly susceptible to Mycobacterium bovis and are the principal wildlife reservoir of M. bovis in New Zealand. To better understand the disease process in these animals, brushtail possums were infected by the aerosol route with a virulent strain of M. bovis, and immune parameters measured. M. bovis replicated actively in the lungs of infected animals. Animals began developing macroscopic lung lesions at 4 and 5 weeks following infection, with some lesions appearing in the livers and spleens. Infection determined the emergence of blood lymphocytes which proliferated in response to bovine purified protein derivative from M. bovis (PPD-b) at 3, 4 and 5 weeks. The response to a mitogen (Concanavalin A) waned progressively with time. Infection was associated with a modest increase in the numbers of free lung cells. Nitrite was detectable in the lavage fluids of infected animals at 3 weeks postinfection, but not at 4 and 5 weeks. Macrophage activation in the lungs was evident as alveolar macrophages produced more oxidants, significant levels of nitric oxide (NO), as well as tumor necrosis factor alpha (TNF-alpha) bioactivity at 3 weeks postinfection. However, macrophages from infected animals lost the ability to generate nitrite- and TNF-alpha generation was depressed at 4 and 5 weeks postinfection, the time at which macroscopic lesions in the lungs became apparent. Alveolar macrophages from animals at 3 weeks postinfection blocked the replication of M. bovis in part via a NO-dependent mechanism, and were more refractory for M. bovis growth than cells from naïve animals to bacterial replication. Alveolar macrophages from animals at 4 and 5 weeks postinfection allowed substantial replication of M. bovis, and no NO-dependent bacteriostatic activity was apparent. Introduction of autologous lymphocytes from the blood of infected animals in co-cultures rendered infected macrophages more resistant to M. bovis replication. We conclude that M. bovis infection in brushtail possums is associated with a transient activation of alveolar macrophages, although in vitro exposure to sensitized T cells can enhance this profile.

Oral vaccination with Mycobacterium bovis BCG in a lipid formulation induces resistance to pulmonary tuberculosis in brushtail possums.

A method was developed for formulating Mycobacterium bovis bacille Calmette-Guerin (BCG) for oral vaccination against tuberculosis. Selected lipid-based formulations of BCG were tested in the brushtail possum for their ability to elicit immune responses and protection against bovine tuberculosis. Formulation of BCG in lipid matrices maintained bacteria in a dormant but viable state. Oral delivery of 2 x 10(8) colony forming units of formulated BCG to possums induced strong lymphocyte proliferation responses to bovine purified protein derivative (PPD) in peripheral blood lymphocytes. Oral vaccination of possums also reduced the severity of disease following aerosol challenge with virulent M. bovis compared with animals vaccinated with non-formulated BCG. In a second experiment, levels of protection with lipid-formulated oral BCG were similar to those seen with subcutaneous BCG vaccination. Our data shows that formulated oral BCG is an efficient means of inducing protection against bovine tuberculosis in possums and should be a practical means of vaccinating wildlife against tuberculosis.