Abstract
34 Background: Among the two histologic subtype of gastric cancer (GC), diffuse gastric cancer (DGC) is increasingly being considered distinct from intestinal type gastric cancer (IGC). Despite the relative importance of DGC, few whole transcriptomic analyses have been performed for this histological subtype. We therefore conducted an RNA-sequencing study to search for novel driver fusions in DGC. Methods: We conducted a whole transcriptomic and targeted RNA sequencing study of 384 Korean DGCs to identify gene fusions that may be novel prognostic markers or therapeutic targets. Targeted DNA sequencing and SNP6.0 array analyses were conducted in parallel. Results: Whole transcriptomic analyses were conducted in 80 discovery dataset tumors collected from young patients with DGC who had not been treated with chemotherapy or radiation. Twenty-five in-frame fusions were associated with DGC, four of which were recurrent in 384 DGCs based on targeted RNA sequencing and RT-PCR sequencing analyses. Three of the four recurrent fusions contained a RhoGAP domain in their 3’ partner genes. Patients with one of these three fusions have a significantly worse prognosis than those without (HR, 2.8 [95% CI, 1.5‒5.3]). The fusion that harbored a PAP2 domain in the 3’ partner gene was also identified as recurrent and poor prognostic in-frame fusions. Overall, RhoGAP and PAP2 domain-containing fusions were present in 7.5% of DGCs, but not in adjacent normal tissue, and clearly defined the worst prognosis subgroup. Their prognostic impact (adjusted HR 4.1 [95% CI, 2.1‒7.9]) was higher than, and independent of, chromosomal instability (CIN) and CDH1 mutation, which we previously identified as the strongest adverse prognostic genomic abnormalities in DGCs (adjusted HRs, 2.5 (1.5‒4.4) and 2.4 (1.3‒4.4), respectively). Our comprehensive in-frame fusion screen also identified several clinically-actionable fusions amenable to ALK or FGFR inhibition, which had not been previously associated with gastric cancer. Conclusions: Our findings may provide novel genomic insights guiding future personalized strategies for managing DGCs, given the strong prognostic impact of RhoGAP and PAP2 domain-containing gene fusions.
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