Background: Glioblastoma (GBM) is a deadly cancer, with a 5-year survival rate of less than 10%. T cells can be redirected to kill cancer cells using chimeric antigen receptors (CAR), a promising method to treat solid tumors. IL13Rα2 is expressed in many solid tumors but not normal tissues, and provides a target for CAR T cells as a powerful immunotherapy treatment. Methods: Human and canine tumors were screened for IL13Rα2 expression by flow cytometry and RT-PCR. Different IL13Rα2 single-chain variable fragments (scFv) were tested in CARs in vitro against human and canine recombinant IL13Rα2 protein to identify a cross-reactive clone. IL13Rα2 CARs expressed in human and canine T cells and showed antigen-specific stimulation by cytokine secretion and target cell lysis. Solid tumors were used to establish in vivo subcutaneous and orthotopic xenograft models in NSG mice. Mice received a single treatment of 2-5 million CAR T cells IV with or without anti PD-1, CTLA-4 or TIM3 mAb checkpoint blockade. Results: IL13Rα2 was detected on three human GBM (D270, U251 and U87), four canine osteosarcomas (BW-, CS-, MC- and SK-KOSA) and two canine lung cancer cell lines (Cacal3, Cacal5). Two different IL13Rα2 CAR were generated that recognized human IL13Rα2 and not IL13Rα1, one also recognized canine IL13Rα2. Five million IL13Rα2 CAR T-cells delivered IV were able to eliminate established GBM tumors. Use of fewer CAR T cells initially controlled tumor growth, followed by tumor outgrowth correlated with expression of T cell exhaustion markers. Combined treatment with CARs plus checkpoint blockade mAb delivered IP had synergistic effects, restoring anergic T-cell function and improving tumor treatment. Conclusions: IL13Rα2 is highly expressed on human and canine tumors, but not normal tissues. IL13Rα2 specific CAR T cells successfully respond to human and canine tumors and treat GBM in a xenograft mouse model, although this effect was transient at lower treatment doses. Addition of checkpoint blockade mAbs to CAR therapy was beneficial for the treatment of solid tumors. We plan to utilize this treatment in a canine spontaneous cancer preclinical model and translate into clinical trials for patients with GBM.