Development of a long-term, IL7 dependent cell death rescue assay in CD4+ T-cells

Interfering with signalling pathways by targeting cell surface proteins has become an important strategy in the development of novel therapeutic agents. Notably, interfering with cytokine signalling revolutionised the treatment of chronic diseases. Cytokines can induce a range of effects that are not always accounted for in assays detecting cytokine binding to cell surface receptors and/or proximal signalling interference. Hence, robust assays are needed to characterise the activity of potential drug candidates targeting such effects. We chose interleukin-7 (IL7) as a cytokine model due to its long-term effect on T-cells. In this report we describe the development and refinement of an in vitro assay for measuring the long-term effect of IL7, more specifically on CD4+ T-cells, while the assay could be adapted to look at CD8+ T-cells. PBMCs and/or purified CD4+ T-cells stained with VPD450 (cell cycle dye) were expanded for 5 days using the mitogen Phytohemagglutinin and/or CD3/CD28 agonists. This resulted in cell proliferation (VPD450 dilution) and activation-induced cell death (7-AAD uptake) which was rescued by the addition of IL7, resulting in cell survival over a further 5 days. JAK-inhibitor (Tofactinib) or a blocking anti-IL7Rα antibody (clone R34.34) abolished cell survival suggesting antagonism, while another antibody (clone A019D5) displayed an agonist effect. These results were confirmed at the proximal signalling level using an IL7/STAT5-luciferase reporter assay. This novel assay for a biological long term effect may be useful for the characterisation of potential therapeutic drugs targeting the IL7/IL7R in CD4+ T-cells.