The CXCR3alt-CXCL11 chemokine system for therapeutic use in solid cancer
Keywords
CAR, immunotherapy, solid tumor, CXCR3alt chemokine system, transgenic TCR
Invention Novelty
The invention comprises a novel strategy for enhancing Chimeric Antigen Receptor (CAR) T cell migration and infiltration into solid tumors by incorporating the CXCR3 chemokine system into CAR T cells, thereby amplifying antitumor efficacy of therapeutic T cells and improving survival rates.
Value Proposition
The technology aims to develop CAR T cell therapies for solid tumors, a promising approach in precision medicine. The challenge lies in the targeted delivery of CAR T cells into the tumor as solid tumors often lack appropriate chemokine signals, making infiltration and functional activation difficult for CAR T cells. This technology proposes the incorporation of the CXCR3 chemokine system into CAR T cells to control their activation and migration.
Key findings reveal a correlation between the abundance of CXCR3alt and CXCL11 in the tumor and high levels of tumor-infiltrating T cells, improved survival, and response to chemotherapy. The approach, termed "CONAN", holds promise for enabling the production of effective therapeutic products against a wide range of solid tumors and could be extended to other immune cells, thereby amplifying its therapeutic benefit (Fig. 1).
Technology Description
In a study of a cohort of 46 bladder cancer (BC) patients, researchers identified the intra-tumoral CXCR3-chemokine system as a critical component for chemotherapy-induced tumor eradication. Analysis of CD8+ T cell populations revealed the presence of stem cell memory (SCM) T cell subpopulations with high CXCR3alt expression that exhibit co-stimulatory activity specifically induced by the CXCL11 ligand. The technology involves the development of a protocol for autologous cell transfer and underscores the necessity of a complete CD4+ helper T cell pool for CD8+ TSCM expansion. Among all CXCR3 ligands, only CXCL11 was found to induce migration and activation of TSCMs, highlighting it as a potential therapeutic target.
Commercial Opportunity
In-licensing or collaboration for further development
Development Status
The CONAN strategy and its derivative CAR T cell approaches are being developed for a broad range of applications and are currently under evaluation in preclinical models, including patient-derived lung cancer organoids.
Patent Situation
A PCT application was filed in 2022 (WO2022152767A3).
Further Reading
- Vollmer T, et al. The intratumoral CXCR3 chemokine system is predictive of chemotherapy response in human bladder cancer. Sci Transl Med. 2021 Jan 13;13(576): eabb3735.
- www.bihealth.org/en/research/research-group/schmueck-henneresse-lab-experimental-immunotherapy