Abstract LB076: Targeting an aging-related molecule overcomes resistance to anti-PD1 treatment of cancer

Abstract

Abstract Purpose: Despite receiving great attention as a promising treatment, therapeutic efficacies induced by immune checkpoint inhibitors are low in clinical settings, and thus there are high expectations for the development of innovative diagnostic and therapeutic methods. We previously demonstrated that blocking FSTL1 overcomes anti-PD1 resistance in aged mice. In this study, we comprehensively analyzed and compared gene expressions in splenic T cells harvested from young and old mice receiving anti-FSTL1 or anti-PD1 therapy after tumor implantation using the GeneChip microarray in order to identify a key gene in the anti-PD1 resistance. In addition, we evaluated anti-tumor efficacy induced by blocking the identified molecule using aged tumor models and tumor metastasis models (3LL or Colon26), which are resistant to anti-PD1 therapy. Furthermore, to validate the clinical relevancy, we analyzed immune cells isolated from malignant tumor ascites and peripheral blood cells of gastric cancer patients by flow cytometry. Results: Using the GeneChip microarray data of splenic T cells, we identified α-synuclein (SNCA), which is a neuropathological molecule involved in Parkinson's disease and other synucleinopathies, as a gene that was significantly reduced by anti-FSTL1 therapy, but not anti-PD1 therapy, in splenic T cells of aged tumor models. SNCA+ cell subsets significantly increased not only in CD3+ T cells, but also CD11b+ myeloid cells and CD45- mesenchymal stromal/stem cells, within spleen, peripheral blood, and tumor tissues of aged mice and mouse tumor models, but rarely in those of young and naive mice. Increase of the subsets were also observed in malignant tumor ascites and peripheral blood of gastric cancer patients, but not those of healthy donors. Blocking SNCA with the specific mAb significantly induced potent CD8+ T cells with greater cytotoxicity in the in vitro CTL induction setting, and also significantly induced robust anti-tumor immunity in the in vivo therapeutic setting with anti-PD1-resistant tumor models. Combination of anti-SNCA therapy successfully elicited anti-PD1 therapeutic efficacy, providing significantly better prognosis in many tumor models, including severe tumor ascites models. Conclusions: These results suggest that SNCA is a type of immune inhibitory checkpoint molecules and an immunological determinant of anti-PD1 resistance, although the further study is needed to clarify the molecular functions in immune cells. Targeting this molecule may represent a promising strategy to overcome the anti-PD1 resistance and contribute to improved clinical outcomes in cancer treatment. Citation Format: Chie Kudo-Saito, Hiroshi Imazeki, Hirokazu Shoji, Narikazu Boku. Targeting an aging-related molecule overcomes resistance to anti-PD1 treatment of cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 2 (Late-Breaking, Clinical Trial, and Invited Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(7_Suppl):Abstract nr LB076.