CDKN2A deletion is associated with immune desertification in diffuse pleural mesothelioma.

INTRODUCTION

Diffuse Pleural Mesothelioma (DPM) is a rare and incurable cancer. Immune checkpoint inhibitors (ICIs) marked some advances but only for a limited fraction of patients. Improving response prediction to ICIs is currently a clinical need in DPM. Deletion of CDKN2A gene, in chr9p21.3, is one of the most frequent alterations in DPM. As in other settings, deletion of CDKN2A locus has been associated with an immunosuppressive phenotype. Here we investigated the consequences of CDKN2A deletion (CDKN2Adel) on the tridimensional organization and function of immune infiltrate in DPM.

METHODS

A retrospective cohort of 89 DPMs was analyzed and assessed for CDKN2Adel through digital droplet PCR. Immune-profiling was assessed by analyzing 770 immune-related genes by digital profiling. Finally, morphologically resolved, high-dimensional transcriptomic approach was used to reconstruct the spatial architecture of immune-tumor interaction in wild-type and deleted FFPE samples.

RESULTS

CDKN2Adel was detected in 41.5% of DPMs and was associated with reduced survival (p = 0.04). Bulk gene expression identified 373 differentially expressed genes, of which 98.6% were downregulated in CDKN2Adel samples. These genes were enriched in several immune categories, suggesting significant immune deprivation in deleted tumors. Deconvolution analysis confirmed a major depletion of infiltrating immune cells including effector populations. Spatial transcriptomics revealed that this immunosuppressive phenotype was different according to histotype and prominent in the sarcomatoid lesions.

CONCLUSION

These data demonstrated that CDKN2Adel deeply affects the spatial organization of immune microenvironment by depleting immune-signaling and reducing or preventing immune infiltration, supporting the potential implementation of this alteration as ICIs predictive biomarker in DPM.