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GITR and TIGIT immunotherapy provokes divergent multicellular responses in the tumor microenvironment of gastrointestinal cancers

by Poultsides, George , Ji, Hanlee P. , Ayala, Carlos , Sathe, Anuja , Grimes, Susan M. , Bai, Xiangqi , Kin, Cindy , Shelton, Andrew , Lee, Byrne

in Agonists / Antibodies / Antigen-antibody reactions / Antigens / Bioinformatics / Biomedical and Life Sciences / Biomedicine / Cancer / Cancer Research / CD8 antigen / Cell culture / Colon cancer / Colorectal cancer / Cytotoxicity / Dendritic cells / Experimental methods / Gastric cancer / Gastrointestinal cancer / Gastrointestinal Neoplasms / Gene expression / Genes / Genetic transcription / Genomics / GITR / Histology / Histopathology / Human Genetics / Humans / Hybridization / Immune checkpoint / Immunofluorescence / Immunoregulation / Immunosuppression / Immunotherapy / Lymphocytes / Lymphocytes T / Medical research / Medicine, Experimental / Medicine/Public Health / Metabolomics / Patients / Receptors, Antigen, T-Cell - genetics / Receptors, Immunologic - genetics / Research methodology / RNA / Scientific equipment and supplies industry / scRNA-seq / Systems Biology / T cell receptors / T cells / TIGIT / Transcription / Translation / Tumor immune contexture in cancer progression and treatment / Tumor Microenvironment / Tumors / Viral antibodies

2023

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GITR and TIGIT immunotherapy provokes divergent multicellular responses in the tumor microenvironment of gastrointestinal cancers

by Poultsides, George , Ji, Hanlee P. , Ayala, Carlos , Sathe, Anuja , Grimes, Susan M. , Bai, Xiangqi , Kin, Cindy , Shelton, Andrew , Lee, Byrne

2023

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GITR and TIGIT immunotherapy provokes divergent multicellular responses in the tumor microenvironment of gastrointestinal cancers

by Poultsides, George , Ji, Hanlee P. , Ayala, Carlos , Sathe, Anuja , Grimes, Susan M. , Bai, Xiangqi , Kin, Cindy , Shelton, Andrew , Lee, Byrne

2023

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Journal Article

GITR and TIGIT immunotherapy provokes divergent multicellular responses in the tumor microenvironment of gastrointestinal cancers

Poultsides, George,

Ji, Hanlee P.,

Ayala, Carlos,

Sathe, Anuja,

Grimes, Susan M.,

Bai, Xiangqi,

Kin, Cindy,

Shelton, Andrew,

Lee, Byrne

2023

Overview

Background Understanding the mechanistic effects of novel immunotherapy agents is critical to improving their successful clinical translation. These effects need to be studied in preclinical models that maintain the heterogenous tumor microenvironment (TME) and dysfunctional cell states found in a patient’s tumor. We investigated immunotherapy perturbations targeting co-stimulatory molecule GITR and co-inhibitory immune checkpoint TIGIT in a patient-derived ex vivo system that maintains the TME in its near-native state. Leveraging single-cell genomics, we identified cell type-specific transcriptional reprogramming in response to immunotherapy perturbations. Methods We generated ex vivo tumor slice cultures from fresh surgical resections of gastric and colon cancer and treated them with GITR agonist or TIGIT antagonist antibodies. We applied paired single-cell RNA and TCR sequencing to the original surgical resections, control, and treated ex vivo tumor slice cultures. We additionally confirmed target expression using multiplex immunofluorescence and validated our findings with RNA in situ hybridization. Results We confirmed that tumor slice cultures maintained the cell types, transcriptional cell states and proportions of the original surgical resection. The GITR agonist was limited to increasing effector gene expression only in cytotoxic CD8 T cells. Dysfunctional exhausted CD8 T cells did not respond to GITR agonist. In contrast, the TIGIT antagonist increased TCR signaling and activated both cytotoxic and dysfunctional CD8 T cells. This included cells corresponding to TCR clonotypes with features indicative of potential tumor antigen reactivity. The TIGIT antagonist also activated T follicular helper-like cells and dendritic cells, and reduced markers of immunosuppression in regulatory T cells. Conclusions We identified novel cellular mechanisms of action of GITR and TIGIT immunotherapy in the patients’ TME. Unlike the GITR agonist that generated a limited transcriptional response, TIGIT antagonist orchestrated a multicellular response involving CD8 T cells, T follicular helper-like cells, dendritic cells, and regulatory T cells. Our experimental strategy combining single-cell genomics with preclinical models can successfully identify mechanisms of action of novel immunotherapy agents. Understanding the cellular and transcriptional mechanisms of response or resistance will aid in prioritization of targets and their clinical translation.

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Publisher

BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC

Subject

Agonists

/ Antibodies

/ Antigen-antibody reactions

/ Antigens

/ Bioinformatics

/ Biomedical and Life Sciences

/ Biomedicine