Poorly differentiated gastric carcinoma (PGC) is aggressive, yet subtype-specific genomics are under-characterized. We queried AACR Project GENIE® (cBioPortal v18.0-public; 12 August 2025) for PGC and analyzed somatic alterations from targeted panels (depth ≥ 100×; variant allele frequency ≥ 5%). Mutation and copy number frequencies were summarized, co-occurrence and exclusivity were tested, and primary versus metastatic tumors were compared using chi-square with Benjamini-Hochberg correction. The cohort included 189 tumors from 188 patients (71% primary; 25% metastatic), with primary and metastatic tumor samples being collected from different patients. Recurrently mutated genes were TP53 (48.7%), CDH1 (31.2%), ARID1A (21.2%), KMT2C (8.5%), and POLD1 (7.4%); additional alterations involved ERBB3, KMT2D, KEL, CDKN2A, and FAT1 (≈1-7%). Amplifications in CCNE1 (8.2%) and FGFR2 (7.6%) were common, alongside gains in MET, MYC, KRAS, and ERBB2 and losses in CDKN2A/CDKN2B, CDH1, and PTEN. Significant co-occurrence was observed for POLD1-KMT2D (p POLD1-ARID1A (p ARID1A-KMT2D (p TP53 was mutually exclusive with ARID1A (p = 0.029) and CDH1 (p = 0.041). CDH1 (48.9% vs. 29.6%; p = 0.021) and MLH1 (8.5% vs. 1.5%; p = 0.040) were enriched in metastases, and CCNE1 alterations showed female predominance (p = 2.83 × 10-4). Several "primary-only" findings likely reflect small denominators and require replication. PGC demonstrates a mutational framework dominated by TP53, CDH1, ARID1A, and recurrent CCNE1/FGFR2 amplifications, underscoring dysregulation of cell cycle and chromatin-remodeling pathways as key drivers. Co-occurrence of POLD1, ARID1A, and KMT2D suggests coordinated disruption of DNA repair and epigenetic regulation, whereas mutual exclusivity of TP53, ARID1A, and CDH1 indicates distinct tumorigenic routes. Metastatic enrichment of CDH1 and MLH1 supports their roles in invasion and therapeutic resistance. Together, these findings highlight candidate biomarkers and actionable pathways warranting validation in larger, multi-omic cohorts to refine precision treatment strategies for this aggressive gastric cancer subtype.
Lodenquai et al. (Tue,) studied this question.