Regulating the regulators: monitoring immune mechanisms in targeted therapies

A.C.M.T. de Wolf

    Research output: ThesisDoctoral thesis 1 (Research UU / Graduation UU)

    60 Downloads (Pure)

    Abstract

    This thesis discusses the induction and monitoring of specific immune cell characteristics in the context of immunomodulatory therapies.
    In Part I, we have determined the effect of several licensed anti-viral vaccines on the frequency and phenotype of regulatory T cell (Treg) subpopulations in healthy individuals. Our results show that circulating Treg subpopulations may fluctuate to a certain extent without causing safety concerns.
    Immunomodulatory treatments may not only have implications for existing Treg responses, but may also be applied to induce new Tregs. This Treg induction is the final goal in chronic auto-immune disease treatments where immune tolerance needs to be re-established, for example via peptide-based therapy. In Part II, we aimed to induce human antigen-specific T cells with immunoregulatory potential using a heat shock protein-derived peptide, which is ubiquitously expressed in inflammatory conditions. We could show arthritis-suppressing functionality of the peptide in a humanised mouse model. Moreover, peptide-specific T cells were found in human peripheral blood and could be ex vivo expanded, resulting in cells with a regulatory phenotype.
    These data now pave the way for application of heat shock protein-derived peptides as immunomodulatory therapy in inflammatory conditions. However, qualitative assessment of peptide-specific immunoregulatory T cell induction in blood of patients requires a test that is less laborious and cell-consuming than the one used for healthy donors (because of limited patient sample volumes available). We therefore explored the suitability of three relatively simple in vitro assays to demonstrate T cell responses specific for the heat shock protein-derived peptide. We could detect these T cells in several rheumatoid arthritis patient samples, although further assay optimisation will be required to more accurately and consistently identify antigen-specific cells with immunoregulatory characteristics that are present in low frequencies in peripheral blood.
    Based on the results obtained with anti-viral vaccines and peptide-based treatments, we consider pharmacological impact on T cells important for the efficacy and safety of immunomodulatory products. Therefore, this impact on the T cell activity could already be monitored during product development. However, the extent and value of T cell monitoring performed in (non-)clinical studies has not been studied so far. We evaluated the data availability of T cell (in particular Treg) analysis in product dossiers and published reports for medicinal products containing immunomodulatory monoclonal antibodies. Although the available data suggest that Tregs may be used as biomarker for clinical responses, heterogeneity of experimental setups prevented appropriate comparison of different studies. Obtaining more relevant data regarding the role of T cell subsets in clinical responses will elucidate the value of T cell (and Treg) monitoring and the potential need for their evaluation in (non-)clinical studies.
    Next to the non-cell-based therapies described in Part I and II, products containing somatic cells are applied to modulate the patient’s immune system. In Part III, we discussed -in the light of the European regulatory guidance for cell-based therapies- advantages and limitations of in vitro immunomonitoring assays that are frequently proposed to test the functionality of medicinal products containing mesenchymal stromal cells, T cells or dendritic cells.
    Original languageEnglish
    Awarding Institution
    • Utrecht University
    Supervisors/Advisors
    • van Eden, Willem, Primary supervisor
    • Broere, Femke, Supervisor
    • Hoefnagels, M.H.N., Co-supervisor, External person
    Award date11 Oct 2018
    Publisher
    Print ISBNs978-90-393-7039-1
    Publication statusPublished - 11 Oct 2018

    Keywords

    • immunomonitoring
    • immunotherapy
    • T cell
    • regulatory T cell
    • dendritic cell
    • mesenchymal stromal cell
    • tumour
    • auto-immune disease
    • quality control
    • assay

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