KRAS gene amplification to define a distinct molecular subgroup of gastroesophageal adenocarcinoma.
Abstract
4065 Background: KRAS mutation is rare (< 5%) in gastroesophageal cancer (GEC). However, the incidence of KRAS gene amplification (amp+), consequent protein levels, and prognostic and/or therapeutic implications are unknown. Methods: 410 GEC samples and 30 cell lines were assessed for KRAS gene copy number (GCN) by fluorescence in situ hybridization (FISH) (n = 90), Kras expression by selected reaction monitoring mass spectrometry (Kras-SRM-MS) (n = 393), and Kras-SRM level evaluated for correlation with KRAS amp+ status (n = 73). Survival analysis was performed comparing KRAS amp+ versus non-amp+ patients. When possible, concurrent 315 gene next-generation sequencing was also performed. Four KRAS-amplified xenograft lines (CAT-2,12,14,15) were established from malignant effusions. Tumorigenic activity of KRAS amp+ lines (CAT lines, MKN-1) were assessed using MTT and soft agar assays in vitro and subcutaneous xenograft models, compared to non-amp+ lines. Inhibitory assays were performed using KRAS siRNA and CRIPSR, and commercial inhibitors targeting downstream effectors MEK and/or PIK3CA. Results: KRAS FISH revealed clustered gene amp+ in 28.9% (26/90); these patients had worse prognosis than non-amp+ patients. GCN significantly correlated with Kras expression. All KRAS amp+ cell lines significantly overexpressed Kras protein and were tumorigenic in xenograft subcutaneous models. KRAS siRNA and KRAS CRISPR of KRAS amp+ cell lines demonstrated inhibition in MTT viability and soft agar assays, compared to appropriate controls, and demonstrated significant and durable xenograft growth reduction. Conversely, inhibition using MEK and/or PI3K inhibitors demonstrated only transient growth reduction in vivo. Conclusions: KRAS gene amp+ was observed in a large subset (26%) of GEC patients, which correlated with extreme expression by mass spectrometry. Established xenograft lines serve as models to investigate therapeutic strategies for KRAS amp+ patients. Inhibition using MEK/PIK3CA inhibitors provided transient benefit for KRAS amp+ tumors while durable inhibition was observed with Kras protein knockdown, suggesting potential benefit from novel siRNA therapeutics currently in development.
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