United States Cutaneous T cell lymphoma (CTCL) is a devastating malignancy of the skin for which the standard treatments are suboptimal. Immunotherapy is a new treatment paradigm, and two promising agents for CTCL include brentuximab (anti-CD30) and pembrolizumab (anti-PD-1). While clinical trials have shown that many CTCL patients achieve durable responses on these treatments, for unclear reasons about one third of patients experience rapidly progressive disease. Given the potential for negative outcomes and the high costs of immunotherapy, it is critical to find predictive biomarkers that enable stratification of CTCL patients into responders and non-responders prior to initiating immunotherapy. Here, we use CO-Detection by antibody indEXing (CODEX), a novel multiparameter imaging tool to interrogate the CTCL microenvironment in response to immunotherapy in matched pre-and post-treatment skin biopsies. Formalin-fixed, paraffin-embedded tissue sections are stained with a cocktail of 50+ DNA-conjugated antibodies and imaged in a multi-cycle reaction using a microfluidics system and fluorescence microscope. In each cycle, three antibodies are rendered visible using complementary florescent DNA probes, followed by imaging, probe stripping, washing and re-rendering until all antibodies are imaged. The CTCL antibody panel contains markers for tumor cells, immune cells (T cells, B cells, NK cells, macrophages, etc.), immunoregulation, vasculature, stroma, extracellular matrix. Results highlight the importance of macrophages and immune checkpoint/activation markers in dictating CTCL response to brentuximab and pembrolizumab. Additionally, key cell-to-cell interactions, cellular neighborhoods and tissue architecture maps of the CTCL microenvironment have been revealed. In sum, CODEX allows us to create a single cell map of intact CTCL tissue and discover novel, predictive biomarkers of immunotherapy response, which will enable the broad leveraging of new CTCL treatments.
111Systemic chemotherapy promotes HIF-1a mediated glycolysis and IL-17F pathways in mycosis fungoides Systemic chemotherapy is often the last resort of advanced Mycosis Fungoides (MF). Tumor reoccurrence and adverse effects of systemic chemotherapy are the main limitations. We aim to investigate the metabolic alterations in tumor cells after CHOP chemotherapy. In patients with advanced MF, CHOP chemotherapy has no survival benefit and the duration of response is significantly inferior to other canonical treatments. HIF-1a is significantly elevated in lesions of advanced MF patients as well as tumor cell line Hut78 and tumor xenograft mice model (p<0.01, 0.05 and 0.05 respectively). CHOP therapy also increased glycolytic activities in a HIF-1a-dependent manner. In xenograft tumor mice model, lesional cells showed a significant increase in IL-17F after chemotherapy (p<0.05), shifting towards a Th17 phenotype, which process is also regulated by HIF-1a. Echinomycin, HIF-1a inhibitor, was coadministered in xenograft tumor mouse models with CHOP and showed a ...
