Tracking fluorescently labeled IL-15 and anti-PD-1 in the tumor microenvironment and draining lymph nodes.

Understanding the dynamics of the tumor microenvironment (TME) has become vital in discovering new targets for effective immunotherapies and enhancing current treatments. However, localization and distribution of immune cells and treatment biomolecules are poorly characterized to date. In this study, a murine Luminal B mammary adenocarcinoma model received a combinatorial treatment of fluorescently labeled anti-PD-1-Cy3 and IL-15 complex-Cy5 injected interperitoneally and intratumorally, respectively. Fluorescent labeling allowed for the visualization of the distribution of IL-15 complexes and anti-PD-1, as well as their localization to immune cells in the TME and tumor-draining lymph node. Using fluorescent microscopy and light sheet microscopy of whole-clarified tumors and draining lymph nodes, the localization of IL-15 complexes was found to be distributed around the periphery of the tumor at 4 h post injection and medially located at the center of the tumor at 24 h post injection, corresponding with high densities of CD8 cells in the tumor present at 48 h and 72 h post injection. Anti-PD-1 was distributed around the perimeter of the tumor and colocalized to IL-15 in the draining lymph nodes 24 h post injection. Colocalization of IL-15 was also established with NK cells, CD8 T cells, and macrophages. This study develops a novel method to spatiotemporally track fluorescently labeled immunotherapeutic biomolecules in vivo, with implications for optimizing and further understanding the pharmacokinetics of clinical immunotherapies.