The genomic landscape of small intestine neuroendocrine tumors
Michaela S. Banck, … , Matthew M. Ames, Andreas S. Beutler
Michaela S. Banck, … , Matthew M. Ames, Andreas S. Beutler
Published May 15, 2013
Citation Information: J Clin Invest. 2013;123(6):2502-2508. https://doi.org/10.1172/JCI67963.
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The genomic landscape of small intestine neuroendocrine tumors

Abstract

Small intestine neuroendocrine tumors (SI-NETs) are the most common malignancy of the small bowel. Several clinical trials target PI3K/Akt/mTOR signaling; however, it is unknown whether these or other genes are genetically altered in these tumors. To address the underlying genetics, we analyzed 48 SI-NETs by massively parallel exome sequencing. We detected an average of 0.1 somatic single nucleotide variants (SNVs) per 106 nucleotides (range, 0–0.59), mostly transitions (C>T and A>G), which suggests that SI-NETs are stable cancers. 197 protein-altering somatic SNVs affected a preponderance of cancer genes, including FGFR2, MEN1, HOOK3, EZH2, MLF1, CARD11, VHL, NONO, and SMAD1. Integrative analysis of SNVs and somatic copy number variations identified recurrently altered mechanisms of carcinogenesis: chromatin remodeling, DNA damage, apoptosis, RAS signaling, and axon guidance. Candidate therapeutically relevant alterations were found in 35 patients, including SRC, SMAD family genes, AURKA, EGFR, HSP90, and PDGFR. Mutually exclusive amplification of AKT1 or AKT2 was the most common event in the 16 patients with alterations of PI3K/Akt/mTOR signaling. We conclude that sequencing-based analysis may provide provisional grouping of SI-NETs by therapeutic targets or deregulated pathways.

Authors

Michaela S. Banck, Rahul Kanwar, Amit A. Kulkarni, Ganesh K. Boora, Franziska Metge, Benjamin R. Kipp, Lizhi Zhang, Erik C. Thorland, Kay T. Minn, Ramesh Tentu, Bruce W. Eckloff, Eric D. Wieben, Yanhong Wu, Julie M. Cunningham, David M. Nagorney, Judith A. Gilbert, Matthew M. Ames, Andreas S. Beutler

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Figure 3

Integrative analysis of genomic alterations in SI-NET.

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Integrative analysis of genomic alterations in SI-NET. SNVs and SCNAs ar...
SNVs and SCNAs are clustered into pathways of carcinogenesis and tumor maintenance. Canonical concepts and signaling models relevant to molecular carcinogenesis were found to be recurrently altered by nonsynonymous, potentially deleterious somatic SNVs and SCNAs. Chromatin remodeling, mitosis/spindle formation, the DNA damage response, and the regulation of apoptosis are concepts controlling basic mechanisms of cell growth and have established roles in cancer. RAS, ERK/MAPK, and Wnt signaling are classic pathways of cancer. Axon guidance genes have recently been recognized as tumor suppressors (30). PI3K/Akt/mTOR signaling is a mechanism of tumorigenesis. Blue, nonsynonymous exonic point mutation; yellow, splice donor or splice acceptor site mutation; red, amplification; green, deletion.