Immune checkpoint inhibition with antibodies targeting the programmed cell death-1 (PD-1) pathway is a frontline cancer immunotherapy. Driven by the limited response rates and high off-target toxicity associated to monoclonal antibodies, small molecule inhibitors of PD-1 are under active investigation. Glycogen synthase kinase 3 (GSK3) is an up-stream regulator of PD-1 and small molecule GSK3 inhibitors have been shown to effectively reduce T-cell expression of PD-1 receptors. Towards harnessing the potent anticancer effects of GSK3 inhibition, we report here on the development of a nanoformulation within PEG-PLGA nanoparticles of the small molecule GSK3 inhibitor SB415286. The formulation physicochemical properties were optimised using a novel 3D printed microfluidic nanoprecipitation device and a hydrophobic ion pairing approach was used to increase the loading of the drug. The SB415286 nanoformulation efficiently inhibited PD-1 expression in chimeric antigen receptor (CAR)-T cells co-cultured with tumour cells expressing the CAR target, and improved their survival and proliferation. Treatment of the CAR-T cells with nanoformulation also increased the population of memory T-cells. The nanoformulation of small molecule inhibitor of the GSK3 pathway is a promising alternative to antibody-based checkpoint inhibition that warrants further studies.
Keywords: Glycogen synthase kinase 3; Immune checkpoint; Immunotherapy; Nanoparticle; Oncology.
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