Purpose: Immune activation with T cell tumor infiltration is beneficial for the prognosis of patients suffering from solid cancer. Depending on their immune status, solid tumors can be immunologically classified into three groups: "hot" tumors are infiltrated with T lymphocytes, "cold" tumors are not infiltrated and "immune excluded" tumors are only infiltrated in the peripheral tumor tissue. Checkpoint inhibitors provide new therapeutic options for "hot" tumors by triggering the immune response of T cells. In order to enable this for cold tumors as well, T cells must be enriched in the tumor. Therefore, we use the principle of magnetic targeting to guide T cells loaded with citrate-coated superparamagnetic iron oxide nanoparticles (SPION) to the tumor by an externally applied magnetic field.
Methods: SPION were produced by alkaline coprecipitation of iron(II) and iron(III) chloride and in situ coating with sodium citrate. The concentration-dependent cytocompatibility of the particles was determined by flow cytometry and blood stability assays. Atomic emission spectroscopy was used for the quantification of the particle uptake into T lymphocytes. The attractability of the loaded cells was observed by live-cell imaging in the presence of an externally applied magnetic field.
Results: SPION displayed good cytocompatibility to T cells and did not show any sign of aggregation in blood. Finally, SPION-loaded T cells were strongly attracted by a small external magnet.
Conclusion: T cells can be "magnetized" by incorporation of SPION for magnetic targeting. The production of the particle-cell hybrid system is straightforward, as the loading process only requires basic laboratory devices and the loading efficiency is sufficient for cells being magnetically controllable. For these reasons, SPION are potential suitable candidates for magnetic T cell targeting.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6817714 | PMC |
| http://dx.doi.org/10.2147/IJN.S218488 | DOI Listing |
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