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Nuclear PD-L1 triggers tumour-associated inflammation upon DNA damage

Naoe Taira Nihira, Wenwen Wu, Mitsue Hosoi, Yukiko Togashi, Shigeaki Sunada, Yasuo Miyoshi, Yoshio Miki, Tomohiko Ohta

2025EMBO Reports12 citationsDOIOpen Access PDF

Abstract

Immune checkpoint inhibitors against PD-1/PD-L1 are highly effective in immunologically hot tumours such as triple-negative breast cancer, wherein constitutive DNA damage promotes inflammation, while inducing PD-L1 expression to avoid attack by cytotoxic T cells. However, whether and how PD-L1 regulates the DNA damage response and inflammation remains unclear. Here, we show that nuclear PD-L1 activates the ATR-Chk1 pathway and induces proinflammatory chemocytokines upon genotoxic stress. PD-L1 interacts with ATR and is essential for Chk1 activation and chromatin binding. cGAS-STING and NF-κB activation in the late phase of the DNA damage response is inhibited by PD-L1 deletion or by inhibitors of ATR and Chk1. Consequently, the induction of proinflammatory chemocytokines at this stage is inhibited by deletion of PD-L1, but restored by the ATR activator Garcinone C. Inhibition of nuclear localisation by PD-L1 mutations or the HDAC2 inhibitor Santacruzamate A inhibits chemocytokine induction. Conversely, the p300 inhibitor C646, which accelerates PD-L1 nuclear localisation, promotes chemocytokine induction. These findings suggest that nuclear PD-L1 strengthens the properties of hot tumours and contributes to shaping the tumour microenvironment.

Topics & Concepts

DNA damageProinflammatory cytokineInflammationCancer researchCHEK1BiologyActivator (genetics)ChromatinImmune systemNuclear proteinCell biologyChemistryCell cycle checkpointMolecular biologyDNACell cycleImmunologyApoptosisTranscription factorGeneBiochemistryinterferon and immune responsesNF-κB Signaling PathwaysRNA modifications and cancer