RasGRP1 is a potential biomarker for stratifying anti-EGFR therapy response in colorectal cancer
Oghenekevwe M. Gbenedio, Caroline Bonnans, Delphine Grun, Chih-Yang Wang, Ace J. Hatch, Michelle R. Mahoney, David Barras, Mary Matli, Yi Miao, K. Christopher Garcia, Sabine Tejpar, Mauro Delorenzi, Alan P. Venook, Andrew B. Nixon, Robert S. Warren, Jeroen P. Roose, Philippe Depeille
Oghenekevwe M. Gbenedio, Caroline Bonnans, Delphine Grun, Chih-Yang Wang, Ace J. Hatch, Michelle R. Mahoney, David Barras, Mary Matli, Yi Miao, K. Christopher Garcia, Sabine Tejpar, Mauro Delorenzi, Alan P. Venook, Andrew B. Nixon, Robert S. Warren, Jeroen P. Roose, Philippe Depeille
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Research Article Gastroenterology Therapeutics

RasGRP1 is a potential biomarker for stratifying anti-EGFR therapy response in colorectal cancer

Abstract

Colorectal cancer (CRC) is the third most frequent neoplastic disorder and is a main cause of tumor-related mortality, as many patients progress to stage IV metastatic CRC. Standard care consists of combination chemotherapy (FOLFIRI or FOLFOX). Patients with WT KRAS typing are eligible to receive anti-EGFR therapy combined with chemotherapy. Unfortunately, predicting efficacy of CRC anti-EGFR therapy has remained challenging. Here we uncovered that the EGFR pathway component RasGRP1 acts as a CRC tumor suppressor in the context of aberrant Wnt signaling. We found that RasGRP1 suppresses EGF-driven proliferation of colonic epithelial organoids. Having established that RasGRP1 dosage levels impact biology, we next focused on CRC patients. Mining 5 different data platforms, we establish that RasGRP1 expression levels decrease with CRC progression and predict poor clinical outcome of patients. Last, deletion of 1 or 2 Rasgrp1 alleles made CRC spheroids more susceptible to EGFR inhibition. Retrospective analysis of the CALGB 80203 clinical trial showed that addition of anti-EGFR therapy to chemotherapy significantly improved outcome for CRC patients when tumors expressed low levels of RasGRP1 suppressor. In sum, our data support RasGRP1 as a biomarker in the EGFR pathway that has potential relevance to anti-EGFR therapy for CRC patients.

Authors

Oghenekevwe M. Gbenedio, Caroline Bonnans, Delphine Grun, Chih-Yang Wang, Ace J. Hatch, Michelle R. Mahoney, David Barras, Mary Matli, Yi Miao, K. Christopher Garcia, Sabine Tejpar, Mauro Delorenzi, Alan P. Venook, Andrew B. Nixon, Robert S. Warren, Jeroen P. Roose, Philippe Depeille

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Figure 1

RasGRP1 acts as a tumor suppressor in ApcMin mice.

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RasGRP1 acts as a tumor suppressor in ApcMin mice. (A) Normalized RasGRP...
(A) Normalized RasGRP1 mRNA levels analyzed with GeneSpring GX software. Normal colon (n = 18), primary colonic tumor (n = 20) and liver metastasis (n = 19). One-way ANOVA statistical analysis with Bonferroni corrections was carried out using SPSS 17.0. Post hoc t tests using SPSS Bonferroni-adjusted P values. Box and whisker plots indicate the median value and upper- and lower- quartiles in the box and the upper- and lower- extremes in the whiskers. (B and C) Detection of Rasgrp1 expression by Western blot analysis in different sections of small intestine (duodenum, 1; jejunum, 2; and ileum, 3) and colon (proximal, 4; and distal, 5). The Western blot is a representative example of 3 independent experiments. β-Actin served as protein loading control. Protein lysate from CD4-positive mouse cells (C57BL/6; mCD4+ T) was used as positive control for Rasgrp1. Western blots from 2 more extraction are shown in Supplemental Figure 1. Rasgrp1 (D) and Sos1 (E) mRNA levels determined by TaqMan PCR on distinct portions of the intestinal tract. mRNA expression for one duodenum portion was used as an arbitrary reference and set at 1.0, and other samples values were related to it. Data are presented as fold difference compared with the value of 1.0 in duodenum and plotted from n = 3 independent experiments (n = 3 mice). Each point represents an average of 2 wells. **P < 0.001 (1-way ANOVA, Bonferroni’s multiple-comparisons test). (F) Kaplan-Meier curves of ApcMin/+ mouse survival with different copies of Rasgrp1 alleles. Statistical analysis was performed on ApcMin/+:Rasgrp1WT/– (n = 37) and compared with ApcMin/+ mice (n = 25). *P < 0.05, log-rank (Mantel-Cox) test, which means that the 2 groups are significantly different from each other. (G) Quantification of colonic tumor incidence in ApcMin/+, ApcMin/+:Rasgrp1WT/–, and ApcMin/+:Rasgrp1–/– mice (n = 16, 25, and 19, respectively; **P < 0.05, *** P < 0.001 (1-way ANOVA, Bonferroni’s multiple-comparisons test). One dot represents one mouse. (H) Distal colon of an ApcMin/+:Rasgrp1–/– mouse bearing colonic adenomas. (I) Percentages of colonic tumors of the indicated sizes in ApcMin/+, ApcMin/+:Rasgrp1WT/– and ApcMin/+:Rasgrp1–/– mice (n = 10, 15, and 19, respectively). Additional data are shown in Supplemental Figure 2C.