Live imaging of human xenogeneic CART cells in a clinical trial of companion dogs with lymphoma Free

Chimeric antigen receptor T (CART) cell therapy is potentially curative in certain hematological malignancies, resulting in several FDA approvals since 2017. However, widespread adoption is limited by 1) cost and complexity of an autologous platform, 2) severe toxicities, and 3) limited durable remissions. To better predict CART efficacy and toxicity, live CART imaging would allow the realtime assessment of in vivo CART expansion and trafficking. Incorporation of the sodium iodide symporter (NIS)in CART cells (NIS⁺ CART cells) allows the CART cells to be tracked via PET imaging at high sensitivity. PET signal correlates with CART expansion and toxicity in mouse models (PMID: 34244299). Building on this platform, we aimed to track xenogeneic CART cells to monitor for their rejection, utilizing dogs with spontaneous lymphoma. Canine diffuse large B-cell lymphoma (DLBCL) affects over 250,000 dogs a year and has shared pathologic, biologic, phenotypic, genetic, immunotherapeutic targets, and treatment responses with human DLBCL, providing strong rationale for studying canine lymphoma as a pre-clinical model. We therefore initiated a USDA-CVB regulated pilot study and treated companion dogs with naïve canine CD20 (cCD20)⁺ DLBCL with human-derived TRAC- and B2M-KO NIS⁺ CART cells which targeted cCD20.

First, we tested and optimized a chemotherapy regimen to achieve optimal lymphodepletion in dogs. Healthy beagles were treated with pentostatin (pen) on days 2-4 (0.125, 0.25, or 0.5 mg/kg i.v.), cyclophosphamide (cy) on day 4 (400 mg/m² i.v.), or combination cy/pen. The most robust decrease in lymphocytes was seen with combination cy/pen (all cy/pen doses vs all other treatments, p≤0.0001) and in neutrophils with cy or cy/pen (all cy/pen doses vs all pen doses, p≤0.0001; cy vs 0.25 mg/kg pen, p≤0.001; cy vs 0.5 mg/kg pen, p≤0.0001). All lymphodepletion was transient and recovered within two weeks. All regimens were well-tolerated, and we therefore used 0.5 mg/kg pen plus 300 mg/m² cy for the companion dog pilot study.

Next, we assessed the feasibility of generating cCD20-targeted NIS⁺ human CART cells (CART20-NIS) with double KO (DKO) of TRAC and B2M. Primary T cells from healthy human donors were transduced with bicistronic lentivirus encoding 41BB-costimulated cCD20-targeted CAR and NIS. Two days after transduction, cells were transfected with CRISPR Cas9-gRNA targeted to TRAC and B2M. The resulting CART20-NIS DKO cells were expanded until day 11 and then were further depleted for CD3 and cryopreserved. CART20-NIS DKO cells demonstrated high CAR expression (untransduced T cells (UTD) vs CART20-NIS DKO, p<0.0001) and KO efficiency (TCRαβ and HLA-ABC expression of UTD vs CART20-NIS DKO, p<0.0001). NIS functionality was confirmed via a qualitative in vitro I-125radioactive uptake assay. We then assessed antigen specificity and activity in vitro. CART20-NIS DKO or UTD were co-cultured with either wildtype or cCD20-overexpressing K562 cells for three days. Target cell killing was then quantified via flow cytometry. CART20-NIS DKO cells demonstrated significant cytotoxicity against cCD20⁺ K562 cells (UTD vs CART20-NIS DKO, p<0.0001).

Lastly, we treated two companion dogs in a USDA-CVB regulated pilot study of CART20-NIS DKO cells in naïve cCD20⁺ DLBCL. Following lymphodepletion on days -5 to -3, on day 0, dogs were i.v. administered 1 x 10⁸ CART20-NIS DKO cells and intratumorally administered 2.5 x 10⁷ CART20-NIS DKO cells in two lymph nodes, with contralateral saline injection as controls. Dogs underwent ¹⁸F-TFB-PET imaging on days 1, 3, and 7, which showed evidence of CART20-NIS DKO cells both in the CART-injected lymph nodes and distal lymph nodes, as determined by SUV_max. Both dogs sustained clinical remission for the duration of the 21-day study, as determined by sum of longest diameters and accompanying x-ray radiology and abdominal ultrasound. Histology showed marked reduction of CD20 cells in the lymph nodes. Organ and hematological toxicities were minimal, and dogs remained in remission for 95 and 101 days post-CART.

In summary, this study demonstrated that xenogeneic CART cells were well-tolerated, induced remission, and were visualized via PET imaging in companion dogs with lymphoma. These results are promising both for the treatment of companion dogs with novel cell therapies and for the translation of novel CART cell therapies into human clinical trials.