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Abstract B014: Spatial genomics identifies cancer cell cytokines regulating ovarian cancer immunity

Ovarian cancer (OvCa) is among the most aggressive and lethal cancers with a poor response to immune checkpoint blockade (ICB) despite its modest tumor mutational burden and expression of known cancer antigens. Consequently, it is critical to understand the molecular mechanisms of tumor immune escap...

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Published in:Cancer immunology research 2023-12, Vol.11 (12_Supplement), p.B014-B014
Main Authors: Mollaoglu, Gurkan, Tepper, Alexander, Potak, Hunter, Pia, Luisanna, Amabile, Angelo, Falcomata, Chiara, Mateus-Tique, Jaime, Rabinovich, Noam, Brody, Rachel, Browning, Lindsay, Lin, Jia-Ren, Sorger, Peter, Santagata, Sandro, Merad, Miriam, Baccarini, Alessia, Brown, Brian
Format: Article
Language:English
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Summary:Ovarian cancer (OvCa) is among the most aggressive and lethal cancers with a poor response to immune checkpoint blockade (ICB) despite its modest tumor mutational burden and expression of known cancer antigens. Consequently, it is critical to understand the molecular mechanisms of tumor immune escape and resistance to immunotherapies. Intercellular signaling between cancer cells and the tumor microenvironment (TME) is a crucial determinant of tumor immunity and given the immunosuppressive nature of OvCa TME, it is of utmost importance to dissect how this immunosuppressed TME is established. To begin to determine which cancer-cell genes may function cell externally in controlling of OvCa immunity, we employed a first-of-its-kind spatial functional genomics approach we developed, called Perturb-map, which enables dozens of CRISPR gene knock-out (KO) cells to be resolved in a tissue/tumor by imaging, along with cells in the local TME. We used Perturb-map to determine how 35 different genes, identified through ligand-receptor analysis of ovarian tumors, influenced tumor response to anti-PD-1 treatment in an OvCa mouse model. Strikingly, Il4 KO tumors were unique amongst the 35 gene KOs making the tumors significantly more responsive to anti-PD-1 treatment despite not impacting tumor growth in the absence of immunotherapy. Further experiments with single CRISPR KO tumors validated the Perturb-map finding, where Il4 KO combined with anti-PD-1 treatment resulted in a major reduction in tumor growth and a significant increase in survival. Cyclic immunofluorescence (CyCIF) multiplex imaging revealed that loss of cancer cell-derived IL-4 led to a significant reduction in pro-tumor macrophages and an increase in dendritic cell (DC) subsets as well as both progenitor and terminally exhausted CD8 T cells. Upon anti-PD-1 treatment, Il4 KO tumors had significant enrichment for activated CD8 T cells and B cells. Importantly, spatial analysis of the tumor samples identified enrichment of T follicular helper cells, B cells, and DCs in tertiary lymphoid structures in tumors with combined IL-4 loss and PD-1 inhibition. Further, we analyzed a human OvCa single-cell transcriptomics dataset and demonstrated that an IL-4 response signature is expressed in tumor-associated macrophages, indicating active IL-4 signaling in human ovarian tumors. Importantly, we employed a CRISPR-knock-in expression reporter in mouse tumors as well as immunohistochemistry of both human and mouse tumor
ISSN:2326-6074
2326-6074
DOI:10.1158/2326-6074.TUMIMM23-B014