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Lung-resident, M2e-specific CD4 T cells critically protect during influenza infection

Doktorsavhandling
Författare Ajibola Omokanye
Datum för examination 2018-12-13
ISBN 978-91-7833-172-7
Publiceringsår 2018
Publicerad vid Institutionen för biomedicin, avdelningen för mikrobiologi och immunologi
Språk en
Länkar https://gupea.ub.gu.se/handle/2077/...
Ämnesord influenza, vaccine, universal, heterosubtypic, M2e, CD4, Th17, ThCTL, tissue-resident, cytotoxic, single-cell RNA-seq
Ämneskategorier Infektionsmedicin

Sammanfattning

Memory CD4+ T cells are a critical component of the adaptive immune response to fight infection. However, current vaccines against influenza only focus on the other arm of adaptive immunity—triggering B cells to produce antibodies. These antibodies are directed against viral surface proteins that are extremely heterogeneous and rapidly mutate, meaning that current vaccines offer neither broad protection against different strains, nor long-term protection as a result of mutation. In this thesis we aim to develop a mechanistic understanding of how memory CD4+ T cells directed against the conserved influenza protein, M2e, mediate protection in a mouse model of immunisation and infection. We administer M2e intranasally within an adjuvant vector, CTA1-DD, which enables us to generate large populations of M2e-specific CD4+ T cells in lung. Having identified the critical recognition sequence for the M2e peptide, we established an MHC class II tetramer assay that enables detection, extraction and characterisation of M2e-specific CD4+ T cells from the lungs and lymphoid tissues of immunised mice. In paper 1, we utilise in-vitro antigen restimulation and flow cytometry to broadly characterise these lung-resident CD4+ T cells as having a predominantly Th17 phenotype. We identify that their capacity to protect mice from different strains of influenza virus is independent of antibody, by using knock-out and congenic mouse models. In paper 2, we identify that intranasal delivery is critical for generating lung-resident CD4+ T cells, and confirm that tissue-resident memory cells do not require support from circulating cells during infection. We also characterise the M2e-specific CD4+ T cell population further by profiling their transcriptome at the single-cell level during the time-course of infection. We identify a previously unreported cytotoxic population of M2e-specific CD4+ T cells that rapidly expand to control virus propagation during the early phase of infection. Characterisation of this subset is of significance to the influenza vaccine field, where the search for correlates of CD4+ T cell mediated protection have thus far yielded no robust biomarkers. In paper 3, we show how M2e-specific CD4+ T cells can work synergistically with CD8+ T cells targetting another conserved influenza protein to confer improved protection from influenza infection. Together, these findings highlight the critical role played by M2e-specific CD4+ T cells in protection from influenza, underlining its usefulness as a component of future universal vaccine candidates.

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