Abstract

No personalized therapy regimens could demonstrate a benefit in survival of intrahepatic cholangiocarcinoma (iCCA). Since genetic heterogeneity might influence single biopsy based targeted therapy or the outcome of clinical trials, aim of the present study was to investigate intratumoral heterogeneity of iCCA by whole exome sequencing. Therefore, samples from tumor center and tumor periphery of large iCCA lesions as well as a control from healthy liver tissue were obtained from four patients and whole exome sequencing was performed. Mutations that occurred only in the tumor center or periphery were defined as private, whereas mutations present in both samples were regarded as common. A mean of 3 non-synonymous private mutations (range 0–14) per sample compared to 33,3 common mutations per sample (range 24–41) was identified. Mean percentage of non-synonymous private mutations per sample was 12% (range 0–58). In all samples of patient 1-3 as well as the central sample of patient 4 ≤ 10% private mutations were found, whereas 58% of private mutations were identified in the peripheral sample of patient 4. In this sample a private mutation in the DNA mismatch repair protein MSH6 could be identified most likely causing the high amount of private mutations. No substantial intratumoral heterogeneity was found in copy number variation analysis. In conclusion, iCCA show a small but distinct intratumoral heterogeneity. Somatic mutations in mismatch repair proteins might contribute significantly to increased spatial tumor burden and thereby may influence clinical management.

Highlights

  • Cholangiocarcinoma (CCA) is a gastrointestinal neoplasia deriving from biliary epithelium or peribiliary glands

  • No personalized therapy regimens could demonstrate a benefit in survival of intrahepatic cholangiocarcinoma

  • Apart from potential driver genes, we investigated a number of recurrently mutated genes in our cohort: three genes known to be frequently mutated in cancer (EPHA2, BAP1, MUC16) as well as three genes neither frequently reported in biliary tract cancer nor present in cancer gene census (DCAF4L2, C11orf65, ABCC9) were found

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Summary

Introduction

Cholangiocarcinoma (CCA) is a gastrointestinal neoplasia deriving from biliary epithelium or peribiliary glands. Reasons for the poor response rates of targeted therapy regimens in iCCA are intensively discussed. One reason might be a dense and hypovascularized desmoplastic stroma, a characteristic of iCCA which impedes interaction of cytotoxic and targeted drugs with neoplastic cells [4]. Due to broader use of generation sequencing, a profound genetic www.impactjournals.com/oncotarget heterogeneity of CCA was discovered in recent years [5, 6]. This is of special interest since many trials with personalized therapy regimens were designed for all biliary tract neoplasms and thereby might have combined different mutational profiles

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