Association of common inherited NOD2 mutations with exceptional response to immune checkpoint inhibitors.

Abstract

2514 Background: Melanomas and lung cancers usually display a large burden of somatically mutated proteins, yet only a subset of individuals can be induced to mount a therapeutic immune response against tumours. Inherited mutations in immune regulatory genes may be one factor predisposing to a heightened immune response with addition of an immune stimulus. Methods: Germline whole genome sequencing (WGS) was performed in a patient with exceptional response (ExR) to targeted radiotherapy for metastatic melanoma (complete abscopal response). A target variant gene was identified, and interrogated within a prospectively recruited cohort of patients with ExR or non-response to anti-PD1 for non-small cell lung cancer (NSCLC). Results were experimentally tested in mice and validated in an independent mixed cancer clinical cohort. Results: Compound heterozygous variants in NOD2 were found within the patient with abscopal response (expected genotype frequency 1.3 in 10,000), whose cancer regression occurred concurrently with a flare of pre-existing Crohn’s colitis (a NOD2-associated condition). Patients treated with anti-PD1 for NSCLC were prospectively recruited (n=144). Individuals with ExR to PD1 were selected, defined by progression-free survival (PFS) ≥2 years and ≥1 CTCAE grade 2 or higher immune-related adverse event (n=40). Median follow-up was 41 months (median PFS not reached). Patients with best response of progressive disease were selected for comparison (n=18, median PFS 2.76m, 95% CI, 2.1-3.81). WGS from blood was analysed for all human NOD2 variants known to impair NOD2 signalling. Of ExR patients, 25% carried 1 or more functional NOD2 variants, totalling 11 of 80 alleles (13.8%); more than twice the expected allele frequency (6.58%, p=0.0199). Within non-responders, 1 patient carried a variant NOD2 allele (1 of 36 alleles, 2.78%). The association between NOD2 loss-of-function and heightened immune response to anti-PD1 was experimentally tested in Nod2-null C57BL/6J ( Nod2fs) mice. Nod2fs mice transplanted with a syngeneic cell line and treated with anti-PD1 showed greater tumour response compared with Nod2wild-type littermates (60-day OS 41.67% vs 0%, p<0.01). Flow cytometry of tumours showed greater proportion of (CD44hi CD62Llow) CD8+ and CD4+ effector memory differentiated cells within Nod2fs versus Nod2wild-type animals (p<0.05). Results were validated within an independent clinical cohort (n=105). Overall response rate to PD1 in patients with mutant vs wild-type NOD2 was 50% versus 15% (p=0.03). Conclusions: These results provide four complementary lines of evidence that common inherited defects in the immune regulatory gene NOD2 promote exceptional immune response following acute triggers to control cancer. NOD2 may be a biomarker for treatment stratification or a therapeutic target to enhance anti-PD1 response.