Project description:Cattle were vaccinated at week 0 with the live attenuated M. bovis BCG SSI vaccine strain; some animals remain as non-vaccinated controls. After eight weeks animals were challenged intranodally with 108 BCG Tokyo cfu. Lymph nodes were harvested at week 11 and bacterial load in lymph nodes evaluated. Some BCG vaccinates had bacterial loads similar to those found in non-vaccinated animals (not-protected) and some animals had lower bacterial loads (protected) than non-vaccinated animals. Immune responses to mycobacteria were monitored in vitro by stimulation of whole blood with medium, purified protein derivative from M. bovis (PPD-B) or live BCG Tokyo longitudinally. Blood samples from 6 BCG-protected, 6 BCG-not-protected and 6 not-vaccinated. Challenged cattle stimulated with mycobacterial antigens or not were used to prepare RNA for RNAseq analysis at weeks 0 (vaccination), 8 (challenge), 9, 10 and 11. The outcome of this project would help not only in the selection of vaccine candidates but would also inform on the formulation of novel vaccines/vaccination strategies.
Project description:Despite wide scale vaccination with Mycobacterium bovis BCG, the prevalence of tuberculosis remains high, reflecting the global variable efficacy of this vaccine against adult pulmonary TB. Characterisation of different immune responses to M. tuberculosis and M. bovis BCG would increase understanding of pathology following M. tuberculosis infection or reactivation, and would facilitate the rational design of a new vaccine. Gene expression profiling was conducted on samples from diluted whole blood cultures from three healthy donors following incubation with live mycobacteria for six days. Approximately 8,000 gene entities were at least two-fold up- or down- regulated by the mycobacteria, and both mycobacteria induced similar expression changes in approximately 2,300 genes. Strikingly, many genes exhibited qualitatively different expression patterns, with over 1,000 genes up-regulated in response to M. bovis BCG but not changed by M. tuberculosis. Gene Ontology analysis revealed that the genes which failed to upregulate in M. tuberculosis-infected cultures included a large proportion of genes with lysosomal function. The inhibited up-regulation of expression of IFN-γ-inducible protein 30, acid phosphatase 2, cathepsin B and GM2 ganglioside activator was verified in samples from six biologically independent donors by qRT-PCR. The failure to up-regulate these genes in response to M. tuberculosis may constitute an immune evasion mechanism, preventing intracellular killing and antigen presentation. Blood from three healthy BCG-vaccinated donors was diluted with growth medium and incubated alone or with live M. tuberculosis (H37Rv), M. bovis BCG for 6 days. RNA samples were pooled before hybridisation.
Project description:MicroRNA regulation of the bovine local and systemic monocyte transcriptional responses to an in vivo Streptococcus uberis challenge