American Association for Cancer Research
00085472can083082-sup-can-08-3082r-supplementary_excel_file_s4.xls (29.5 kB)

Supplementary File 4 from Genome-Wide Functional Synergy between Amplified and Mutated Genes in Human Breast Cancer

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posted on 2023-03-30, 18:30 authored by Yuri Nikolsky, Evgeny Sviridov, Jun Yao, Damir Dosymbekov, Vadim Ustyansky, Valery Kaznacheev, Zoltan Dezso, Laura Mulvey, Laura E. Macconaill, Wendy Winckler, Tatiana Serebryiskaya, Tatiana Nikolskaya, Kornelia Polyak
Supplementary File 4 from Genome-Wide Functional Synergy between Amplified and Mutated Genes in Human Breast Cancer



A single cancer cell contains large numbers of genetic alterations that in combination create the malignant phenotype. However, whether amplified and mutated genes form functional and physical interaction networks that could explain the selection for cells with combined alterations is unknown. To investigate this issue, we characterized copy number alterations in 191 breast tumors using dense single nucleotide polymorphism arrays and identified 1,747 genes with copy number gain organized into 30 amplicons. Amplicons were distributed unequally throughout the genome. Each amplicon had distinct enrichment pattern in pathways, networks, and molecular functions, but genes within individual amplicons did not form coherent functional units. Genes in amplicons included all major tumorigenic pathways and were highly enriched in breast cancer–causative genes. In contrast, 1,188 genes with somatic mutations in breast cancer were distributed randomly over the genome, did not represent a functionally cohesive gene set, and were relatively less enriched in breast cancer marker genes. Mutated and gained genes did not show statistically significant overlap but were highly synergistic in populating key tumorigenic pathways including transforming growth factor β, WNT, fibroblast growth factor, and PIP3 signaling. In general, mutated genes were more frequently upstream of gained genes in transcription regulation signaling than vice versa, suggesting that mutated genes are mainly regulators, whereas gained genes are mostly regulated. ESR1 was the major transcription factor regulating amplified but not mutated genes. Our results support the hypothesis that multiple genetic events, including copy number gains and somatic mutations, are necessary for establishing the malignant cell phenotype. [Cancer Res 2008;68(22):9532–40]

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