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Abstract
Immunotherapies, including immune checkpoint inhibitors, have limitations in their effective treatment of malignancies. The immunosuppressive environment associated with the tumor microenvironment may prevent the achievement of optimal outcomes for immune checkpoint inhibitors alone, and nanotechnology-based platforms for delivery of immunotherapeutic agents are increasingly being investigated for their potential to improve the efficacy of immune checkpoint blockade therapy. In this manuscript, nanoparticles were designed with appropriate size and surface characteristics to enhance their retention of payload so that they can transmit their loaded drugs to the tumor. We aimed to enhance immune cell stimulation by a small molecule inhibitor of PD-1/PD-L1 (BMS202) using nanodiamonds (ND). Melanoma cells with different disease stages were exposed to bare NDs, BMS202-NDs or BMS202 alone for 6 h. Following this, melanoma cells were co-cultured with freshly isolated human peripheral blood mononuclear cells (hPBMCs). The effects of this treatment combination on melanoma cells were examined on several biological parameters including cell viability, cell membrane damage, lysosomal mass/pH changes and expression of γHA2X, and caspase 3. Exposing melanoma cells to BMS202-NDs led to a stronger than normal interaction between the hPBMCs and the melanoma cells, with significant anti-proliferative effects. We therefore conclude that melanoma therapy has the potential to be enhanced by non-classical T-cell Immune responses via immune checkpoint inhibitors delivered by nanodiamonds-based nanoparticles.
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1 University of Ha’il, Department of Medical Laboratory Science, College of Applied Medical Sciences, Hail, Saudi Arabia (GRID:grid.443320.2) (ISNI:0000 0004 0608 0056)
2 Najran University, Department of Biological Science, College of Arts and Science, Najran, Saudi Arabia (GRID:grid.440757.5) (ISNI:0000 0004 0411 0012)
3 Jouf University, Clinical Laboratory Science, College of Applied Medical Sciences-Qurayyat, Sakaka, Saudi Arabia (GRID:grid.440748.b) (ISNI:0000 0004 1756 6705)
4 Amrita Vishwa Vidyapeetham, Amrita Center for Nanosciences and Molecular Medicine, Cochin, India (GRID:grid.411370.0) (ISNI:0000 0000 9081 2061)
5 Trinity College Dublin, School of Medicine, Dublin, Ireland (GRID:grid.8217.c) (ISNI:0000 0004 1936 9705)
6 Trinity College Dublin, Department of Pharmacology and Therapeutics, School of Medicine, Dublin, Ireland (GRID:grid.8217.c) (ISNI:0000 0004 1936 9705)
7 Coombe Women and Infants University Hospital, Department of Histopathology, Trinity College Dublin, Emer Casey Molecular Pathology Research Laboratory, Dublin, Ireland (GRID:grid.411886.2) (ISNI:0000 0004 0488 4333); Trinity St James’s Cancer Institute, Dublin, Ireland (GRID:grid.411886.2); Trinity College Dublin, Department of Obstetrics and Gynaecology, Dublin, Ireland (GRID:grid.8217.c) (ISNI:0000 0004 1936 9705)
8 Trinity St James’s Cancer Institute, Dublin, Ireland (GRID:grid.8217.c); Trinity College Dublin, Department of Immunology, Dublin, Ireland (GRID:grid.8217.c) (ISNI:0000 0004 1936 9705)
9 Trinity St James’s Cancer Institute, Dublin, Ireland (GRID:grid.8217.c); Trinity College Dublin, Department of Obstetrics and Gynaecology, Dublin, Ireland (GRID:grid.8217.c) (ISNI:0000 0004 1936 9705); Trinity College Dublin, Department of Immunology, Dublin, Ireland (GRID:grid.8217.c) (ISNI:0000 0004 1936 9705)
10 Trinity St James’s Cancer Institute, Dublin, Ireland (GRID:grid.8217.c); Trinity College Dublin, Department of Clinical Medicine, Dublin, Ireland (GRID:grid.8217.c) (ISNI:0000 0004 1936 9705)