Developing single molecule methods for measuring the pathway proteins ERK, AKT, cyclin d and p70s6k in localized colon cancer in relation to mutation status

Author:

Olsen Dorte Aa.ORCID,Thomsen Caroline EB.,Andersen Rikke F.,Madsen Jonna S.,Jakobsen Anders,Brandslund IvanORCID

Abstract

AbstractBackgroundThe aim of this study was to quantify the intracellular pathway proteins ERK, AKT, cyclin d and p70s6k in localized colon cancer tissue to investigate the possible prognostic values and the ability to be used as screening markers for upstream mutations.MethodsColon cancer tissue and autologous reference tissue were collected from 176 patients who underwent surgery for colon cancer. Assays for quantifying ERK, AKT, cyclin d and p70s6k proteins were developed using single molecule array (Simoa). KRAS/BRAF/PIK3CA mutation status was determined using droplet digital PCR.ResultsPatients with BRAF mutations had decreased concentrations of ERK (p=0.0002), AKT (p=0.00004) and cyclin d (p=0.001) while no significant differences were found between patients with KRAS mutations and Wild type (Wt) patients. None of the investigated protein concentrations were associated with disease free survival or overall survival, if including all patients. However, when stratifying according to mutation status, significant correlations to overall survival were seen for patients with BRAF mutations and AKT (p=0.003) or ERK (p=0.046) and for patients with KRAS mutations and p70s6k (p=0.04). Furthermore, the combination of genetic mutations, stage 2 disease, and all of the investigated pathway proteins showed significant correlations to overall survival.ConclusionsThere is a strong correlation between pathway protein concentrations and mutational BRAF status. Overall survival in colon cancer patients depend both on gene mutation status and pathway protein concentrations. As significant correlations were found between BRAF mutations and ERK, AKT and cyclin d, concentration measurements of these pathway proteins might be useful as screening for upstream mutations.

Publisher

Cold Spring Harbor Laboratory

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