Abstract
RAS signaling is a promising target for colorectal cancer (CRC) therapy, and a variety of selective inhibitors have been developed. However, their use has often failed to demonstrate a significant benefit in CRC patients. Here, we used patient-derived organoids (PDOs) derived from a familial adenomatous polyposis (FAP) patient to analyze the response to chemotherapeutic agents targeting EGFR, BRAF and MEK. We found that PDOs carrying KRAS mutations were resistant to MEK inhibition, while those harboring the BRAF class 3 mutation were hypersensitive. We used a systematic approach to examine the phosphorylation of RAS effectors using reverse-phase protein array (RPPA) and found increased phosphorylation of MEK induced by binimetinib. A high basal level of ERK phosphorylation and its rebound activation after MEK inhibition were detected in KRAS-mutant PDOs. Notably, the phosphorylation of EGFR and AKT was more closely correlated with that of MEK than that of ERK. Transcriptome analysis identified MYC-mediated transcription and IFN signaling as significantly correlated gene sets in MEK inhibition. Our experiments demonstrated that RPPA analysis of PDOs, in combination with the genome and transcriptome, is a useful preclinical research platform to understand RAS signaling and provides clues for the development of chemotherapeutic strategies.
Highlights
Cancers, unlike BRAF V600E-mutant cancers, remains to be developed due to their intrinsic r esistance[11]
Thousands of adenomatous lesions arise in the colorectal regions of Familial adenomatous polyposis (FAP) patients, and these lesions proceed to tumor development by the accumulation of somatic mutations
42 Patient-derived organoids (PDOs) were established from five FAP patients, but only four KRAS-mutant PDOs from four different patients were obtained, and no BRAF-mutant PDOs were o btained[40]
Summary
Cancers, unlike BRAF V600E-mutant cancers, remains to be developed due to their intrinsic r esistance[11]. The second hit in the APC gene causes thousands of adenomatous polyps, and the accumulation of somatic mutations, including those in KRAS and BRAF, leads to tumor p rogression[19]. PDOs derived from tumors in the same FAP patient have identical genetic backgrounds but distinct somatic mutations. This makes PDOs established from the same FAP patient suitable for evaluating the effects of somatic mutations in drug efficacy. Reverse-phase protein array (RPPA) is a high-throughput proteomics technique[20]. It is an antibody-based proteomic method that can provide quantitative analysis of protein abundance and posttranscriptional modifications, including phosphorylation and g lycosylation[21]. We performed RPPA-based proteomics in combination with genomics and transcriptomics analyses to evaluate PDOs as a preclinical research platform for the development of CRC chemotherapeutic strategies
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