<p>Genomic alterations of IGF2-PI3K pathway in MSS human colorectal cancer cell lines. A. Gene expression, gene copy number and mutation data provided by the Cancer Cell Line Encyclopedia were studied in the 36 MSS cell lines out of the cohort of the 62 human colorectal cell lines. Tumors were considered to be amplified if the gene copy number was >3. Gene overexpression is defined by an expression superior to average in all CRC cell line panel + 1 SD. B. Alteration frequencies are expressed as a percentage of the MSS cell lines in green. Data obtained in non-hypermutated patient tumor samples reported by the The Cancer Genome Atlas are noted in red.</p>
ARTICLE ABSTRACT
Development of targeted therapeutics required translationally relevant preclinical models with well-characterized cancer genome alterations. Here, by studying 52 colorectal patient-derived tumor xenografts (PDX), we examined key molecular alterations of the IGF2–PI3K and ERBB–RAS pathways and response to cetuximab. PDX molecular data were compared with that published for patient colorectal tumors in The Cancer Genome Atlas. We demonstrated a significant pattern of mutual exclusivity of genomic abnormalities in the IGF2–PI3K and ERBB–RAS pathways. The genomic anomaly frequencies observed in microsatellite stable PDX reproduce those detected in nonhypermutated patient tumors. We found frequent IGF2 upregulation (16%), which was mutually exclusive with IRS2, PIK3CA, PTEN, and INPP4B alterations, supporting IGF2 as a potential drug target. In addition to maintaining the genomic and histologic diversity, correct preclinical models need to reproduce drug response observed in patients. Responses of PDXs to cetuximab recapitulate also clinical data in patients, with partial or complete response in 15% (8 of 52) of PDXs and response strictly restricted to KRAS wild-type models. The response rate reaches 53% (8 of 15) when KRAS, BRAF, and NRAS mutations are concomitantly excluded, proving a functional cross-validation of predictive biomarkers obtained retrospectively in patients. Collectively, these results show that, because of their clinical relevance, colorectal PDXs are appropriate tools to identify both new targets, like IGF2, and predictive biomarkers of response/resistance to targeted therapies. Cancer Res; 75(8); 1560–6. ©2015 AACR.
