Invasive species populations periodically collapse from high to low abundance, sometimes even to extinction. Pathogens and the burden they place on invader immune systems have been hypothesised as a mechanism for these collapses. We examined the association of the bacterial pathogen (
Pseudomonas
spp.) and the viral community with immune gene expression in the globally invasive Argentine ant (
Linepithema humile
(Mayr)). RNA-seq analysis found evidence for 17 different viruses in Argentine ants from New Zealand, including three bacteriophages with one (
Pseudomonas phage PS-1
) likely to be attacking the bacterial host. Pathogen loads and prevalence varied immensely. Transcriptomic data showed that immune gene expression was consistent with respect to the viral classification of negative-sense, positive-sense and double-stranded RNA viruses. Genes that were the most strongly associated with the positive-sense RNA viruses such as the
Linepithema humile virus 1
(LHUV-1) and the
Deformed wing virus
(DWV) were peptide recognition proteins assigned to the Toll and Imd pathways. We then used principal components analysis and regression modelling to determine how RT-qPCR derived immune gene expression levels were associated with viral and bacterial loads. Argentine ants mounted a substantial immune response to both
Pseudomonas
and LHUV-1 infections, involving almost all immune pathways. Other viruses including DWV and the
Kashmir bee virus
appeared to have much less immunological influence. Different pathogens were associated with varying immunological responses, which we hypothesize to interact with and influence the invasion dynamics of this species.
Protective immune responses against respiratory pathogens, including influenza virus are initiated by the mucosal immune system. However, most licensed vaccines are administered parenterally and are largely ineffective at inducing mucosal immunity. The development of safe and effective mucosal vaccines has largely been hampered by the lack of a suitable mucosal adjuvant. In this study we explore a novel class of adjuvant that harness mucosal-associated invariant T (MAIT) cells. We show evidence that intranasal immunisation of MAIT cell agonists co-administered with protein, including haemagglutinin from influenza A virus induced potent humoral immunity and immunoglobulin (Ig)A production, which protected mice against infection. MAIT cell adjuvant activity was mediated by CD40L-dependent activation of dendritic cells and subsequent priming of CD4+ T follicular helper cells. In summary, we show that MAIT cells are promising vaccine targets that can be utilised as cellular adjuvants in mucosal vaccines.
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