Clonal origins and parallel evolution of regionally synchronous colorectal adenoma and carcinoma.

Tae-Min Kim,Sug Hyung Lee,Seung-Hyun Jung,Yeun-Jun Chung,Min Sung Kim,Je-Keun Rhee,In-Pyo Baek,Chang Hyeok An,Sung Hak Lee

doi:10.18632/oncotarget.4834

Abstract

Although the colorectal adenoma-to-carcinoma sequence represents a classical cancer progression model, the evolution of the mutational landscape underlying this model is not fully understood. In this study, we analyzed eight synchronous pairs of colorectal high-grade adenomas and carcinomas, four microsatellite-unstable (MSU) and four-stable (MSS) pairs, using whole-exome sequencing. In the MSU adenoma-carcinoma pairs, we observed no subclonal mutations in adenomas that became fixed in paired carcinomas, suggesting a 'parallel' evolution of synchronous adenoma-to-carcinoma, rather than a 'stepwise' evolution. The abundance of indel (in MSU and MSS pairs) and microsatellite instability (in MSU pairs) was noted in the later adenoma- or carcinoma-specific mutations, indicating that the mutational processes and functional constraints operative in early and late colorectal carcinogenesis are different. All MSU cases exhibited clonal, truncating mutations in ACVR2A, TGFBR2, and DNA mismatch repair genes, but none were present in APC or KRAS. In three MSS pairs, both APC and KRAS mutations were identified as both early and clonal events, often accompanying clonal copy number changes. An MSS case uniquely exhibited clonal ERBB2 amplification, followed by APC and TP53 mutations as carcinoma-specific events. Along with the previously unrecognized clonal origins of synchronous colorectal adenoma-carcinoma pairs, our study revealed that the preferred sequence of mutational events during colorectal carcinogenesis can be context-dependent.

Highlights

Colorectal cancer (CRC) is the third most common human cancer worldwide and is a major contributor to cancer-related mortality [1]
Synchronous adenoma and carcinoma lesions have been analyzed in order to identify genetic alterations that are associated with malignant transformation and for tracing genomic evolution [16]
Our mutation-based inference of clonal architectures indicated that the synchronous adenoma-carcinoma pairs might have the same clonal origin, but with independent evolutionary histories in MSU CRC

Summary

Introduction

Colorectal cancer (CRC) is the third most common human cancer worldwide and is a major contributor to cancer-related mortality [1]. For CRC carcinogenesis, progression from cellular dysplasia to malignancy has been well studied [5]. This classical cancer evolution model describes CRC www.impactjournals.com/oncotarget carcinogenesis as a series of well-defined clinical stages accompanying a stepwise accumulation of somatic oncogenic mutations that are known to contribute to the malignant progression [5]. According to this model, it is generally accepted that the malignant lesion originates from a pre-existing adenoma. Such synchronous adenomas and carcinomas present an unusual setting where the temporal evolution of the mutational landscape during the adenomato-carcinoma progression in a given individual can be investigated by simultaneous genomic profiling of benign and malignant lesions from a single individual [6,7,8]

Methods

Results

Conclusion