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Review
. 2017 Nov 22:3:46.
doi: 10.1038/s41523-017-0051-5. eCollection 2017.

Functional germline variants as potential co-oncogenes

Divyansh Agarwal  1   2 Christoph Nowak  3   4 Nancy R Zhang  1   2 Lajos Pusztai  5 Christos Hatzis  5
Affiliations
Review

Functional germline variants as potential co-oncogenes

Divyansh Agarwal et al. NPJ Breast Cancer. .

Abstract

Germline variants that affect the expression or function of proteins contribute to phenotypic variation in humans and likely determine individual characteristics and susceptibility to diseases including cancer. A number of high penetrance germline variants that increase cancer risk have been identified and studied, but germline functional polymorphisms are not typically considered in the context of cancer biology, where the focus is primarily on somatic mutations. Yet, there is evidence from familial cancers indicating that specific cancer subtypes tend to arise in carriers of high-risk germline variants (e.g., triple negative breast cancers in mutated BRCA carriers), which suggests that pre-existing germline variants may determine which complementary somatic driver mutations are needed to drive tumorigenesis. Recent genome sequencing studies of large breast cancer cohorts reported only a handful of highly recurrent driver mutations, suggesting that different oncogenic events drive individual cancers. Here, we propose that germline polymorphisms can function as oncogenic modifiers, or co-oncogenes, and these determine what complementary subsequent somatic events are required for full malignant transformation. Therefore, we propose that germline aberrations should be considered together with somatic mutations to determine what genes drive cancer and how they may be targeted.

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Conflict of interest statement

The authors declare that they have no competing financial interests.

Figures

Fig. 1
Fig. 1
Germline variants may act as co-oncogenes in the dysregulation of biological processes that are the “hallmarks of cancer”
See this image and copyright information in PMC

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