Tumor-intrinsic IRE1α signaling controls protective immunity in lung cancer.
Michael J P CrowleyBhavneet BhinderGeoffrey J MarkowitzMitchell MartinAkanksha VermaTito A SandovalChang-Suk ChaeShira YomtoubianYang HuSahil ChopraDiamile A TavarezPaolo GiovanelliDingcheng GaoTimothy E McGrawNasser K AltorkiOlivier ElementoJuan R Cubillos-RuizVivek MittalPublished in: Nature communications (2023)
IRE1α-XBP1 signaling is emerging as a central orchestrator of malignant progression and immunosuppression in various cancer types. Employing a computational XBP1s detection method applied to TCGA datasets, we demonstrate that expression of the XBP1s mRNA isoform predicts poor survival in non-small cell lung cancer (NSCLC) patients. Ablation of IRE1α in malignant cells delays tumor progression and extends survival in mouse models of NSCLC. This protective effect is accompanied by alterations in intratumoral immune cell subsets eliciting durable adaptive anti-cancer immunity. Mechanistically, cancer cell-intrinsic IRE1α activation sustains mPGES-1 expression, enabling production of the immunosuppressive lipid mediator prostaglandin E 2 . Accordingly, restoring mPGES-1 expression in IRE1α KO cancer cells rescues normal tumor progression. We have developed an IRE1α gene signature that predicts immune cell infiltration and overall survival in human NSCLC. Our study unveils an immunoregulatory role for cancer cell-intrinsic IRE1α activation and suggests that targeting this pathway may help enhance anti-tumor immunity in NSCLC.
Keyphrases
- endoplasmic reticulum stress
- poor prognosis
- induced apoptosis
- small cell lung cancer
- advanced non small cell lung cancer
- long non coding rna
- mouse model
- ejection fraction
- newly diagnosed
- free survival
- brain metastases
- copy number
- papillary thyroid
- squamous cell carcinoma
- dna methylation
- transcription factor
- signaling pathway
- radiofrequency ablation
- peripheral blood