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Systematic investigation of chemo-immunotherapy synergism to shift anti-PD-1 resistance in cancer

Yue Wang, Dhamotharan Pattarayan, Haozhe Huang, Yueshan Zhao, Sihan Li, Yifei Wang, Min Zhang, Song Li, Da Yang

2024Nature Communications18 citationsDOIOpen Access PDF

Abstract

Chemo-immunotherapy combinations have been regarded as one of the most practical ways to improve immunotherapy response in cancer patients. In this study, we integrate the transcriptomics data from anti-PD-1-treated tumors and compound-treated cancer cell lines to systematically screen for chemo-immunotherapy synergisms in silico. Through analyzing anti-PD-1 induced expression changes in patient tumors, we develop a shift ability score to measure if a chemotherapy or a small molecule inhibitor treatment can shift anti-PD-1 resistance in tumor cells. By applying shift ability analysis to 41,321 compounds and 16,853 shRNA treated cancer cell lines transcriptomic data, we characterize the landscape of chemo-immunotherapy synergism and experimentally validated a mitochondrial RNA-dependent mechanism for drug-induced immune activation in tumor. Our study represents an effort to mechanistically characterize chemo-immunotherapy synergism and will facilitate future pre-clinical and clinical studies.

Topics & Concepts

ImmunotherapyTranscriptomeCancer immunotherapyCancerCancer researchIn silicoSmall hairpin RNAMedicineDrug resistanceCancer treatmentCancer cell linesCancer cellImmune systemComputational biologyOncologyBiologyImmunologyInternal medicineGene expressionRNAGeneBiochemistryMicrobiologyImmune cells in cancerCancer Immunotherapy and BiomarkersFerroptosis and cancer prognosis
Systematic investigation of chemo-immunotherapy synergism to shift anti-PD-1 resistance in cancer | Litcius