Abstract
Simple SummaryThe cancer associated protein BRCA2 is the subject of intense continual study. Because of this, new insights into the relation of specific variants of this gene and cancer are regularly generated. These discoveries shed light on cancer risk and management for patients carrying these mutations. Additionally, new techniques for variant discovery and investigation are developed and tested, further enhancing scientific and clinical understanding of this key protein. In this review we will investigate the recent literature associated with variants in the C-terminus of BRCA2 and their effect on health and cancer predisposition.Whole genome analysis and the search for mutations in germline and tumor DNAs is becoming a major tool in the evaluation of risk as well as the management of hereditary cancer syndromes. Because of the identification of cancer predisposition gene panels, thousands of such variants have been catalogued yet many remain unclassified, presenting a clinical challenge for the management of hereditary cancer syndromes. Although algorithms exist to estimate the likelihood of a variant being deleterious, these tools are rarely used for clinical decision-making. Here, we review the progress in classifying K3326X, a rare truncating variant on the C-terminus of BRCA2 and review recent literature on other novel single nucleotide polymorphisms, SNPs, on the C-terminus of the protein, defined in this review as the portion after the final BRC repeat (amino acids 2058–3418).
Highlights
The central role BRCA2 plays in human genome stability makes it a key player in hereditary cancers
Phosphorylation of BRCA2 by Chk1, Chk2, and CDK1 enables the binding of BRCA2 to Rad51 and exposure of nuclear localization signals on BRCA2 and binding of PALB2 to BRCA2 enables the attachment of BRCA2 to DNA. This step brings the BRCA2-Rad51 complex into the nucleus, after which the action of BRCA2 s BRC repeats and Rad51-nucleofilament binding domain facilitate the displacement of RPA, and, by different affinity for Rad51 and ssDNA and high affinity for the Rad51-ssDNA complex, the formation of the Rad51-ssDNA complex [15,16]
Recent evidence indicates that BRCA2 may play a key role in the repair and recovery of the cell from stalled replication forks and that exon 27, in which the K3326X mutation occurs, is essential in this function [23,30,35,40,41]
Summary
The central role BRCA2 plays in human genome stability makes it a key player in hereditary cancers. Due to its role in cancer initiation and progression, BRCA2 loss of function variants play a key role in determining patient prognosis and treatment patterns. It is important to study and understand the hereditary mutations affecting the BRCA2 protein throughout the human population in order to increase the ability of clinicians to predict and treat cancers related to hypomorphic or nonfunctional BRCA2 alleles. Understanding these variants will play a key role in delivering precision medicine to patients carrying such mutations
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