Targeting the DNA Damage Response Enhances CD70 CAR-T Cell Therapy for Renal Carcinoma by Activating the CGAS-STING Pathway

Overview

Journal J Hematol Oncol

Publisher Biomed Central

Specialties Hematology
Oncology

Date 2021 Sep 24

PMID 34556152

Citations 37

Authors

Feng Ji

Fan Zhang

Miaomiao Zhang

Kaili Long

Mingyue Xia

Fei Lu

Enjie Li

Jiannan Chen

Jun Li

Zhengliang Chen

Li Jing

Shaochang Jia

Rong Yang

ZhiGang Hu

Zhigang Guo

Affiliations

Soon will be listed here.

Abstract

Chimeric antigen receptor T-cell (CAR-T) therapy has shown tremendous success in eradicating hematologic malignancies. However, this success has not yet been extrapolated to solid tumors due to the limited infiltration and persistence of CAR-T cells in the tumor microenvironment (TME). In this study, we screened a novel anti-CD70 scFv and generated CD70 CAR-T cells that showed effective antitumor functions against CD70 renal carcinoma cells (RCCs) both in vitro and in vivo. We further evaluated the effect and explored the molecular mechanism of a PARP inhibitor (PARPi) in CAR-T cell immunotherapy by administering the PARPi to mouse xenografts model derived from human RCC cells. Treatment with the PARPi promoted CAR-T cell infiltration by stimulating a chemokine milieu that promoted CAR-T cell recruitment and the modulation of immunosuppression in the TME. Moreover, our data demonstrate that PARPi modulates the TME by activating the cGAS-STING pathway, thereby altering the balance of immunostimulatory signaling and enabling low-dose CAR-T cell treatment to induce effective tumor regression. These data demonstrate the application of CD70 CAR-T cell therapeutic strategies for RCC and the cross-talk between targeting DNA damage responses and antitumor CAR-T cell therapy. These findings provide insight into the mechanisms of PARPis in CAR-T cell therapy for RCC and suggest a promising adjuvant therapeutic strategy for CAR-T cell therapy in solid tumors.

Citing Articles

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A transformer-based deep learning survival prediction model and an explainable XGBoost anti-PD-1/PD-L1 outcome prediction model based on the cGAS-STING-centered pathways in hepatocellular carcinoma.

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