Genetic variants involved in bromodomain-containing protein 4 (BRD4) regulating pathway to predict outcomes in patients with metastatic colorectal cancer: Results from FIRE3 and MAVERICC trials.

Abstract

232 Background: BRD4 plays an important role in transcription, DNA repair and drug resistance. High expression and polymorphisms of BRD4 regulating pathways were reported to be related to worse prognosis in colorectal cancer. Therefore, we hypothesized that genetic variants in BRD4 regulating pathway may predict first-line treatment outcome in mCRC pts. Methods: The impact on outcome of 22 SNPs in 7 genes involved in BRD4 regulating pathway (BRD4, SIPA1, MYC, 53BP1, H2AX, BATF, CD47) was analyzed through the OncoArray, a customized array manufactured by Illumina, on genomic DNA from blood samples of pts enrolled in 2 randomized trials. MAVERICC FOLFIRI/bevacizumab (bev) arm served as discovery cohort (N = 107), FIRE3 FOLFIRI/bev arm as validation (N = 107) and FOLFIRI/cetuximab (cet) arm as control (N = 129). Results: In the discovery cohort, right(R)-sided pts with BRD4 rs4808272 any G allele (N = 46) showed significantly shorter PFS (9.5 vs 18 m) compared to carriers of A/A (N = 21) in both uni- and multi-variable analysis ( p < .01); R-sided pts carrying any T allele of BATF rs7161377 (N = 50) showed longer PFS (12.3 vs 6.8 m) compared to carriers of C/C (N = 14) in univariate analysis ( p < .05) and had a strong trend in multivariable analysis ( p = .06). These findings were all validated in R-sided pts in FIRE3 bev arm (BRD4 rs4808272, PFS 9.8 vs 18.7 m; BATF rs7161377, PFS 15.1 vs 4.2 m) in uni- (both p < .01) and multi-variable ( p = .08 and p < .05 respectively) analysis. No significant association was observed in the control arm. Interestingly, pts carrying CD47 rs3206652 any C allele (N = 13) only showed significant longer PFS (9.0 vs 3.0 m, univariable p < .01 and multivariable p = .07) in the R-sided pts of FIRE3 cet cohort, but no association was observed in the bev-based treatment. Conclusions: Our study demonstrates for the first time that BRD4 and BATF polymorphisms may predict outcomes of bev-based treatment in R-sided mCRC pts; Meanwhile CD47 polymorphism could predict outcomes of cet-based treatment in R-sided mCRC pts. This finding supports a possible role of BRD4 regulating pathway in contributing to resistance to anti-VEGF/EGFR treatment.