Abstract CT134: Non-viral mesothelin-targeted CAR-T cells armored with IFNg-induced secretion of PD-1 nanobody in treatment of malignant mesothelioma in phase I clinical trial

Abstract Background: Malignant pleural/peritoneal mesothelioma (MPM) is a rare, aggressive cancer with poor prognosis and high mortality of 65%-70% for pleural and 30% for peritoneal MPM. Patients who fail the standard therapy often survive less than 1 year, so it is urgent to develop new effective therapies for MPM patients. Chimeric antigen receptor (CAR)-T cells have been applied in MPM, but the efficacy was still limited due to immunosuppressive tumor microenvironment (TME). To overcome these obstacles, we developed armored CAR-T cells with nanobody targeting mesothelin (MSLN) and IFN-γ-activated secretion of PD-1 nanobody in a non-viral transposon system, named as BZDS1901. Preclinical studies have demonstrated cytotoxicity of the BZDS1901 in NCI-H226 lung/mesothelioma xenograft mouse model. To verify the safety and efficacy of BZDS1901, we conducted a single-arm, open label, dose-escalating clinical trials (NCT04503980, 05089266, 03615313) in solid tumors. Methods: Eligible patients were those who failed prior standard therapies with MSLN expression (≥50%) and PD-L1 positive in tumor specimen and voluntarily signed the informed consent. After apheresis and lymphodepletion with cyclophosphamide and fludarabine. BZDS1901 was administered intravenously in dose cohorts (1 × 106-2 × 107/kg) and the second infusion was given if no disease progression. After infusion, safety was evaluated during 28 days by the National Cancer Institute Common Terminology Criteria for Adverse Events version 5.0, efficacy was assessed by RECIST 1.1 or mRECIST with CT scan. Blood CAR copies were measured by qPCR, PD-1 nanobodies and cytokines by Meso Scale Discovery method, and T cell subtypes by flow cytometry. Patients’ progression-free survival (PFS) and overall survival (OS) were measured from the day of infusion to progression or death. Results: From July 20, 2020 to December 31, 2022, 11 MPM patients were enrolled and completed the assessment, while most patients received two infusions. BZDS1901 was safe, demonstrated by 54% grade 3 and 15% grade adverse events (AEs) that were hematological side effects due to lymphodepletion and reversible with supportive care. No on-target, off-tumor toxicity and dose-limiting toxicity were observed. All patients showed expansion of CAR-T cells and increased PD-1 nanobodies in circulation. CAR-T Cmax (cp/μg) copies number was 20062, and continually detectable in blood over 4 months. PD-1 Cmax (pg/ml) was 82841, and continually detectable in blood for up to 9 months. IFN- γ and IL-6 also increased at day 4 or Day 7. All patients obtained objective tumor response, one with complete response, six with partial response, and four with stable disease. The total objective response rate was 63.64%. All enrolled patients are still alive, and mPFS and mOS are not reached. The longest PFS was up to 26 months. Median follow-up was four months. Conclusions: PD-1 nanobody secreted and MSLN targeting CAR-T cells have demonstrated promising efficacy on MPM patients. Besides CAR-T direct tumor killing activity, secreted PD-1 nanobodies may provide additional clinical benefit by invigorating CAR-T from PD-L1 inhibition, activating TILs and relieving local immunosuppression. Citation Format: Zhuqing Liu, Yong Xia, Linlin Li, Yan Sun, Zhicai Lin, Lijie Rong, Zhongzheng Zhu, Zongchang Song, Hui Xue, Jianchun Duan, Shujing Shen, Jing Wang, Linjie Lv, Yaping Yang, Xue Tan, Liping Han, Wei Zhao, Jie Wang, Wenfeng Xu, Weimin Zhu, Zhong Li, Xingya Li, Jinxing Lou, Qing Xu, Qijun Qian. Non-viral mesothelin-targeted CAR-T cells armored with IFNg-induced secretion of PD-1 nanobody in treatment of malignant mesothelioma in phase I clinical trial [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 2 (Clinical Trials and Late-Breaking Research); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(8_Suppl):Abstract nr CT134.