Targeted deep sequencing from multiple sources demonstrates increased NOTCH1 alterations in lung cancer patient plasma

INTRODUCTION: Targeted therapies are based on specific gene alterations. Various specimen types have been used to determine gene alterations, however, no systemic comparisons have yet been made. Herein, we assessed alterations in selected cancer‐associated genes across varying sample sites in lung c...

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Autores principales: Liao, Yuwei, Ma, Zhaokui, Zhang, Yu, Li, Dan, Lv, Dekang, Chen, Zhisheng, Li, Peiying, AI‐Dherasi, Aisha, Zheng, Feng, Tian, Jichao, Zou, Kun, Wang, Yue, Wang, Dongxia, Cordova, Miguel, Zhou, Huan, Li, Xiuhua, Liu, Dan, Yu, Ruofei, Zhang, Qingzheng, Zhang, Xiaolong, Zhang, Jian, Zhang, Xuehong, Zhang, Xia, Li, Yulong, Shao, Yanyan, Song, Luyao, Liu, Ruimei, Wang, Yichen, Sufiyan, Sufiyan, Liu, Quentin, Owen, Gareth I., Li, Zhiguang, Chen, Jun
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2019
Materias:
Cancer Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6745866/
https://www.ncbi.nlm.nih.gov/pubmed/31369215
http://dx.doi.org/10.1002/cam4.2458
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author Liao, Yuwei
Ma, Zhaokui
Zhang, Yu
Li, Dan
Lv, Dekang
Chen, Zhisheng
Li, Peiying
AI‐Dherasi, Aisha
Zheng, Feng
Tian, Jichao
Zou, Kun
Wang, Yue
Wang, Dongxia
Cordova, Miguel
Zhou, Huan
Li, Xiuhua
Liu, Dan
Yu, Ruofei
Zhang, Qingzheng
Zhang, Xiaolong
Zhang, Jian
Zhang, Xuehong
Zhang, Xia
Li, Yulong
Shao, Yanyan
Song, Luyao
Liu, Ruimei
Wang, Yichen
Sufiyan, Sufiyan
Liu, Quentin
Owen, Gareth I.
Li, Zhiguang
Chen, Jun
author_facet Liao, Yuwei
Ma, Zhaokui
Zhang, Yu
Li, Dan
Lv, Dekang
Chen, Zhisheng
Li, Peiying
AI‐Dherasi, Aisha
Zheng, Feng
Tian, Jichao
Zou, Kun
Wang, Yue
Wang, Dongxia
Cordova, Miguel
Zhou, Huan
Li, Xiuhua
Liu, Dan
Yu, Ruofei
Zhang, Qingzheng
Zhang, Xiaolong
Zhang, Jian
Zhang, Xuehong
Zhang, Xia
Li, Yulong
Shao, Yanyan
Song, Luyao
Liu, Ruimei
Wang, Yichen
Sufiyan, Sufiyan
Liu, Quentin
Owen, Gareth I.
Li, Zhiguang
Chen, Jun
author_sort Liao, Yuwei
collection PubMed
description INTRODUCTION: Targeted therapies are based on specific gene alterations. Various specimen types have been used to determine gene alterations, however, no systemic comparisons have yet been made. Herein, we assessed alterations in selected cancer‐associated genes across varying sample sites in lung cancer patients. MATERIALS AND METHODS: Targeted deep sequencing for 48 tumor‐related genes was applied to 153 samples from 55 lung cancer patients obtained from six sources: Formalin‐fixed paraffin‐embedded (FFPE) tumor tissues, pleural effusion supernatant (PES) and pleural effusion cell sediments (PEC), white blood cells (WBCs), oral epithelial cells (OECs), and plasma. RESULTS: Mutations were detected in 96% (53/55) of the patients and in 83% (40/48) of the selected genes. Each sample type exhibited a characteristic mutational pattern. As anticipated, TP53 was the most affected sequence (54.5% patients), however this was followed by NOTCH1 (36%, across all sample types). EGFR was altered in patient samples at a frequency of 32.7% and KRAS 10.9%. This high EGFR/ low KRAS frequency is in accordance with other TCGA cohorts of Asian origin but differs from the Caucasian population where KRAS is the more dominant mutation. Additionally, 66% (31/47) of PEC samples had copy number variants (CNVs) in at least one gene. Unlike the concurrent loss and gain in most genes, herein NOTCH1 loss was identified in 21% patients, with no gain observed. Based on the relative prevalence of mutations and CNVs, we divided lung cancer patients into SNV‐dominated, CNV‐dominated, and codominated groups. CONCLUSIONS: Our results confirm previous reports that EGFR mutations are more prevalent than KRAS in Chinese lung cancer patients. NOTCH1 gene alterations are more common than previously reported and reveals a role of NOTCH1 modifications in tumor metastasis. Furthermore, genetic material from malignant pleural effusion cell sediments may be a noninvasive manner to identify CNV and participate in treatment decisions.
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spelling pubmed-67458662019-09-18 Targeted deep sequencing from multiple sources demonstrates increased NOTCH1 alterations in lung cancer patient plasma Liao, Yuwei Ma, Zhaokui Zhang, Yu Li, Dan Lv, Dekang Chen, Zhisheng Li, Peiying AI‐Dherasi, Aisha Zheng, Feng Tian, Jichao Zou, Kun Wang, Yue Wang, Dongxia Cordova, Miguel Zhou, Huan Li, Xiuhua Liu, Dan Yu, Ruofei Zhang, Qingzheng Zhang, Xiaolong Zhang, Jian Zhang, Xuehong Zhang, Xia Li, Yulong Shao, Yanyan Song, Luyao Liu, Ruimei Wang, Yichen Sufiyan, Sufiyan Liu, Quentin Owen, Gareth I. Li, Zhiguang Chen, Jun Cancer Med Cancer Biology INTRODUCTION: Targeted therapies are based on specific gene alterations. Various specimen types have been used to determine gene alterations, however, no systemic comparisons have yet been made. Herein, we assessed alterations in selected cancer‐associated genes across varying sample sites in lung cancer patients. MATERIALS AND METHODS: Targeted deep sequencing for 48 tumor‐related genes was applied to 153 samples from 55 lung cancer patients obtained from six sources: Formalin‐fixed paraffin‐embedded (FFPE) tumor tissues, pleural effusion supernatant (PES) and pleural effusion cell sediments (PEC), white blood cells (WBCs), oral epithelial cells (OECs), and plasma. RESULTS: Mutations were detected in 96% (53/55) of the patients and in 83% (40/48) of the selected genes. Each sample type exhibited a characteristic mutational pattern. As anticipated, TP53 was the most affected sequence (54.5% patients), however this was followed by NOTCH1 (36%, across all sample types). EGFR was altered in patient samples at a frequency of 32.7% and KRAS 10.9%. This high EGFR/ low KRAS frequency is in accordance with other TCGA cohorts of Asian origin but differs from the Caucasian population where KRAS is the more dominant mutation. Additionally, 66% (31/47) of PEC samples had copy number variants (CNVs) in at least one gene. Unlike the concurrent loss and gain in most genes, herein NOTCH1 loss was identified in 21% patients, with no gain observed. Based on the relative prevalence of mutations and CNVs, we divided lung cancer patients into SNV‐dominated, CNV‐dominated, and codominated groups. CONCLUSIONS: Our results confirm previous reports that EGFR mutations are more prevalent than KRAS in Chinese lung cancer patients. NOTCH1 gene alterations are more common than previously reported and reveals a role of NOTCH1 modifications in tumor metastasis. Furthermore, genetic material from malignant pleural effusion cell sediments may be a noninvasive manner to identify CNV and participate in treatment decisions. John Wiley and Sons Inc. 2019-08-01 /pmc/articles/PMC6745866/ /pubmed/31369215 http://dx.doi.org/10.1002/cam4.2458 Text en © 2019 The Authors. Cancer Medicine published by John Wiley & Sons Ltd. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Cancer Biology
Liao, Yuwei
Ma, Zhaokui
Zhang, Yu
Li, Dan
Lv, Dekang
Chen, Zhisheng
Li, Peiying
AI‐Dherasi, Aisha
Zheng, Feng
Tian, Jichao
Zou, Kun
Wang, Yue
Wang, Dongxia
Cordova, Miguel
Zhou, Huan
Li, Xiuhua
Liu, Dan
Yu, Ruofei
Zhang, Qingzheng
Zhang, Xiaolong
Zhang, Jian
Zhang, Xuehong
Zhang, Xia
Li, Yulong
Shao, Yanyan
Song, Luyao
Liu, Ruimei
Wang, Yichen
Sufiyan, Sufiyan
Liu, Quentin
Owen, Gareth I.
Li, Zhiguang
Chen, Jun
Targeted deep sequencing from multiple sources demonstrates increased NOTCH1 alterations in lung cancer patient plasma
title Targeted deep sequencing from multiple sources demonstrates increased NOTCH1 alterations in lung cancer patient plasma
title_full Targeted deep sequencing from multiple sources demonstrates increased NOTCH1 alterations in lung cancer patient plasma
title_fullStr Targeted deep sequencing from multiple sources demonstrates increased NOTCH1 alterations in lung cancer patient plasma
title_full_unstemmed Targeted deep sequencing from multiple sources demonstrates increased NOTCH1 alterations in lung cancer patient plasma
title_short Targeted deep sequencing from multiple sources demonstrates increased NOTCH1 alterations in lung cancer patient plasma
title_sort targeted deep sequencing from multiple sources demonstrates increased notch1 alterations in lung cancer patient plasma
topic Cancer Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6745866/
https://www.ncbi.nlm.nih.gov/pubmed/31369215
http://dx.doi.org/10.1002/cam4.2458
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