Prevalence and detection of low-allele-fraction variants in clinical cancer samples

Hyun‐Tae Shin; Yoon‐La Choi; Jae Won Yun; Nayoung K. D. Kim; Sook‐Young Kim; Hyo Jeong Jeon; Jae‐Yong Nam; Chung Lee; Daeun Ryu; Sang Cheol Kim; Kyunghee Park; Eunjin Lee; Joon Seol Bae; Dae Soon Son; Je‐Gun Joung; Jeeyun Lee; Seung Tae Kim; Myung‐Ju Ahn; Se‐Hoon Lee; Jin Seok Ahn; Woo Yong Lee; Bo Young Oh; Yeon Hee Park; Jeong Eon Lee; Kwang Hyuk Lee; Hee Cheol Kim; Kyoung‐Mee Kim; Young‐Hyuck Im; Keunchil Park; Peter J. Park; Woong‐Yang Park

doi:10.1038/s41467-017-01470-y

Prevalence and detection of low-allele-fraction variants in clinical cancer samples

Hyun‐Tae Shin(Samsung (South Korea)), Yoon‐La Choi(Samsung (South Korea)), Jae Won Yun(Samsung (South Korea)), Nayoung K. D. Kim(Samsung Medical Center), Sook‐Young Kim(Samsung Medical Center), Hyo Jeong Jeon(Samsung Medical Center), Jae‐Yong Nam(Samsung (South Korea)), Chung Lee(Samsung (South Korea)), Daeun Ryu(Samsung (South Korea)), Sang Cheol Kim(Samsung Medical Center), Kyunghee Park(Samsung Medical Center), Eunjin Lee(Samsung Medical Center), Joon Seol Bae(Samsung Medical Center), Dae Soon Son(Samsung Medical Center), Je‐Gun Joung(Samsung Medical Center), Jeeyun Lee(Samsung Medical Center), Seung Tae Kim(Samsung Medical Center), Myung‐Ju Ahn(Samsung Medical Center), Se‐Hoon Lee(Samsung Medical Center), Jin Seok Ahn(Samsung Medical Center), Woo Yong Lee(Samsung Medical Center), Bo Young Oh(Ewha Womans University), Yeon Hee Park(Samsung Medical Center), Jeong Eon Lee(Samsung Medical Center), Kwang Hyuk Lee(Samsung Medical Center), Hee Cheol Kim(Samsung Medical Center), Kyoung‐Mee Kim(Samsung Medical Center), Young‐Hyuck Im(Samsung Medical Center), Keunchil Park(Samsung Medical Center), Peter J. Park(Harvard University), Woong‐Yang Park(Samsung (South Korea))

Nature Communications

November 3, 2017

10.1038/s41467-017-01470-y

Cited by 198Open Access

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Abstract

Accurate detection of genomic alterations using high-throughput sequencing is an essential component of precision cancer medicine. We characterize the variant allele fractions (VAFs) of somatic single nucleotide variants and indels across 5095 clinical samples profiled using a custom panel, CancerSCAN. Our results demonstrate that a significant fraction of clinically actionable variants have low VAFs, often due to low tumor purity and treatment-induced mutations. The percentages of mutations under 5% VAF across hotspots in EGFR, KRAS, PIK3CA, and BRAF are 16%, 11%, 12%, and 10%, respectively, with 24% for EGFR T790M and 17% for PIK3CA E545. For clinical relevance, we describe two patients for whom targeted therapy achieved remission despite low VAF mutations. We also characterize the read depths necessary to achieve sensitivity and specificity comparable to current laboratory assays. These results show that capturing low VAF mutations at hotspots by sufficient sequencing coverage and carefully tuned algorithms is imperative for a clinical assay.

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