High-grade serous ovarian cancer development and anti-PD-1 resistance is driven by IRE1α activity in neutrophils

Juan R. Cubillos-Ruiz · 2024-10-02

High-grade serious ovarian cancer (HGSOC) is an aggressive malignancy that remains refractory to current immunotherapies. While advanced stage disease has been extensively studied, the cellular and molecular mechanisms that promote early immune escape in HGSOC remain largely unexplored. Here, we report that primary HGSO tumors program neutrophils to inhibit T cell anti-tumor function by activating the endoplasmic reticulum (ER) stress sensor IRE1α. We found that intratumoral neutrophils exhibited overactivation of ER stress response markers compared with their counterparts at non-tumor sites. Selective deletion of IRE1α in neutrophils delayed primary ovarian tumor growth and extended the survival of mice with HGSOC by enabling early T cell-mediated tumor control. Notably, loss of IRE1α in neutrophils sensitized tumor-bearing mice to PD-1 blockade, inducing HGSOC regression and long-term survival in ~ 50% of the treated hosts. Hence, neutrophil-intrinsic IRE1α facilitates early adaptive immune escape in HGSOC and targeting this ER stress sensor might be used to unleash endogenous and immunotherapy-elicited immunity that controls metastatic disease.
Funding

NCI NIH HHS

F31 CA257631

NCI NIH HHS

R01 CA271619

NCI NIH HHS

R01 CA282072

NINDS NIH HHS

R01 NS114653

This work supported by NIH

R01 NS114653

This work supported by NIH

R01 CA271619

U.S. Department of Defense Ovarian Cancer Research Program

W81XWH2010191, W81XWH-16-1-0438, W81XWH-22-OCRP-IIRA

This work supported by NIH

F31CA257631

The AACR-Bristol Myers Squibb Immuno-Oncology Research Fellowship

The Cancer Research Institute-Irvington Institute Postdoctoral Fellowship

the Ovarian Cancer Research Alliance