Patterns and functional implications of rare germline variants across 12 cancer types

Charles Lu(James S. McDonnell Foundation), Mingchao Xie(James S. McDonnell Foundation), Michael C. Wendl(James S. McDonnell Foundation), Jiayin Wang(James S. McDonnell Foundation), Michael D. McLellan(James S. McDonnell Foundation), Mark D.M. Leiserson(Brown University), Kuan‐lin Huang(James S. McDonnell Foundation), Matthew A. Wyczalkowski(James S. McDonnell Foundation), Reyka G. Jayasinghe(James S. McDonnell Foundation), Tapahsama Banerjee(The Ohio State University), Jie Ning(James S. McDonnell Foundation), Piyush Tripathi(Washington University in St. Louis), Qunyuan Zhang(James S. McDonnell Foundation), Beifang Niu(James S. McDonnell Foundation), Kai Ye(James S. McDonnell Foundation), Heather K. Schmidt(James S. McDonnell Foundation), Robert S. Fulton(James S. McDonnell Foundation), Joshua F. McMichael(James S. McDonnell Foundation), Prag Batra(James S. McDonnell Foundation), Cyriac Kandoth(James S. McDonnell Foundation), Maheetha Bharadwaj(James S. McDonnell Foundation), Daniel C. Koboldt(James S. McDonnell Foundation), Christopher A. Miller(James S. McDonnell Foundation), Krishna Kanchi(James S. McDonnell Foundation), James M. Eldred(James S. McDonnell Foundation), David E. Larson(James S. McDonnell Foundation), John S. Welch(Washington University in St. Louis), Ming You(Medical College of Wisconsin), Bradley A. Ozenberger(James S. McDonnell Foundation), Ramaswamy Govindan(Washington University in St. Louis), Matthew J. Walter(Washington University in St. Louis), Matthew J. Ellis(Washington University in St. Louis), Elaine R. Mardis(James S. McDonnell Foundation), Timothy A. Graubert(Washington University in St. Louis), John F. DiPersio(Washington University in St. Louis), Timothy J. Ley(James S. McDonnell Foundation), Richard K. Wilson(James S. McDonnell Foundation), Paul J. Goodfellow(The Ohio State University), Benjamin J. Raphael(Brown University), Feng Chen(Washington University in St. Louis), Kimberly J. Johnson(Washington University in St. Louis), Jeffrey D. Parvin(The Ohio State University), Li Ding(James S. McDonnell Foundation)
Nature Communications
December 22, 2015
10.1038/ncomms10086
Cited by 312Open Access
Full Text

Abstract

Large-scale cancer sequencing data enable discovery of rare germline cancer susceptibility variants. Here we systematically analyse 4,034 cases from The Cancer Genome Atlas cancer cases representing 12 cancer types. We find that the frequency of rare germline truncations in 114 cancer-susceptibility-associated genes varies widely, from 4% (acute myeloid leukaemia (AML)) to 19% (ovarian cancer), with a notably high frequency of 11% in stomach cancer. Burden testing identifies 13 cancer genes with significant enrichment of rare truncations, some associated with specific cancers (for example, RAD51C, PALB2 and MSH6 in AML, stomach and endometrial cancers, respectively). Significant, tumour-specific loss of heterozygosity occurs in nine genes (ATM, BAP1, BRCA1/2, BRIP1, FANCM, PALB2 and RAD51C/D). Moreover, our homology-directed repair assay of 68 BRCA1 rare missense variants supports the utility of allelic enrichment analysis for characterizing variants of unknown significance. The scale of this analysis and the somatic-germline integration enable the detection of rare variants that may affect individual susceptibility to tumour development, a critical step toward precision medicine.

Related Papers

No related papers found

Powered by citation graph analysis