IDH1 and IDH2 mutations in lung adenocarcinomas: Evidences of subclonal evolution

IDH1 and IDH2 mutations in lung adenocarcinomas: Evidences of subclonal evolution

Abstract Background Selective IDH1 and IDH2 inhibitors have been approved for targeted therapy of acute myeloid leukemia. Clinical trials for solid tumors with IDH1 and IDH2 (IDH1/2) mutations are ongoing. Reports of IDH1/2‐mutated non–small cell lung cancers (NSCLCs), however, are limited. Methods...

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Main Authors: Erika F. Rodriguez, Federico De Marchi, Parvez M. Lokhandwala, Deborah Belchis, Rena Xian, Christopher D. Gocke, James R. Eshleman, Peter Illei, Ming‐Tseh Li
Format: Article
Language:English
Published: Wiley 2020-06-01
Series:Cancer Medicine
Subjects:
cytosine deamination
IDH1
IDH2
lung cancers
parallel evolution
Online Access:https://doi.org/10.1002/cam4.3058
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spelling doaj-d4066f83fadc406b860f4b17fa765af82020-11-25T03:11:27ZengWileyCancer Medicine2045-76342020-06-019124386439410.1002/cam4.3058IDH1 and IDH2 mutations in lung adenocarcinomas: Evidences of subclonal evolutionErika F. Rodriguez0Federico De Marchi1Parvez M. Lokhandwala2Deborah Belchis3Rena Xian4Christopher D. Gocke5James R. Eshleman6Peter Illei7Ming‐Tseh Li8Department of Pathology Johns Hopkins University School of Medicine Baltimore MD USADepartment of Pathology Johns Hopkins University School of Medicine Baltimore MD USADepartment of Pathology Johns Hopkins University School of Medicine Baltimore MD USADepartment of Pathology Johns Hopkins University School of Medicine Baltimore MD USADepartment of Pathology Johns Hopkins University School of Medicine Baltimore MD USADepartment of Pathology Johns Hopkins University School of Medicine Baltimore MD USADepartment of Pathology Johns Hopkins University School of Medicine Baltimore MD USADepartment of Pathology Johns Hopkins University School of Medicine Baltimore MD USADepartment of Pathology Johns Hopkins University School of Medicine Baltimore MD USAAbstract Background Selective IDH1 and IDH2 inhibitors have been approved for targeted therapy of acute myeloid leukemia. Clinical trials for solid tumors with IDH1 and IDH2 (IDH1/2) mutations are ongoing. Reports of IDH1/2‐mutated non–small cell lung cancers (NSCLCs), however, are limited. Methods We evaluated IDH1/2 mutations in 1,924 NSCLC specimens (92% adenocarcinoma) using a next‐generation sequencing assay. Results Retrospective quality assessments identified false detection of IDH1 c.395G>A (p.R132H) resulting from cytosine deamination (C:G→T:A) artifact in one specimen. IDH1/2 mutations were detected in 9 (0.5%) adenocarcinomas taken by fine‐needle aspiration (n = 3), thoracentesis (n = 2) or core biopsy (n = 4). All nine adenocarcinomas showed high‐grade features. Extensive clear cell change, however, was not observed. High expression (50% or greater) of PD‐L1 was observed in two of five specimens examined. IDH1/2 mutations were associated with old age, smoking history, and coexisting KRAS mutation. Lower than expected variant allele frequency of IDH1/2 mutants and coexistence of IDH1/2 mutations with known trunk drivers in the BRAF, EGFR, and KRAS genes suggest they could be branching drivers leading to subclonal evolution in lung adenocarcinomas. Multiregional analysis of an adenocarcinoma harboring two IDH2 mutations revealed parallel evolution originating from a KRAS‐mutated lineage, further supporting subclonal evolution promoted by IDH1/2 mutations. Conclusions IDH1/2 mutations in NSCLCs are uncommon. They occur in adenocarcinomas with high‐grade features and may be branching drivers leading to subclonal evolution. Accumulation of more IDH1/2‐mutated NSCLCs is needed to clarify their clinicopathological characteristics and implications for targeted therapy.https://doi.org/10.1002/cam4.3058cytosine deaminationIDH1IDH2lung cancersparallel evolution
collection DOAJ
language English
format Article
sources DOAJ
author Erika F. Rodriguez
Federico De Marchi
Parvez M. Lokhandwala
Deborah Belchis
Rena Xian
Christopher D. Gocke
James R. Eshleman
Peter Illei
Ming‐Tseh Li
spellingShingle Erika F. Rodriguez
Federico De Marchi
Parvez M. Lokhandwala
Deborah Belchis
Rena Xian
Christopher D. Gocke
James R. Eshleman
Peter Illei
Ming‐Tseh Li
IDH1 and IDH2 mutations in lung adenocarcinomas: Evidences of subclonal evolution
Cancer Medicine
cytosine deamination
IDH1
IDH2
lung cancers
parallel evolution
author_facet Erika F. Rodriguez
Federico De Marchi
Parvez M. Lokhandwala
Deborah Belchis
Rena Xian
Christopher D. Gocke
James R. Eshleman
Peter Illei
Ming‐Tseh Li
author_sort Erika F. Rodriguez
title IDH1 and IDH2 mutations in lung adenocarcinomas: Evidences of subclonal evolution
title_short IDH1 and IDH2 mutations in lung adenocarcinomas: Evidences of subclonal evolution
title_full IDH1 and IDH2 mutations in lung adenocarcinomas: Evidences of subclonal evolution
title_fullStr IDH1 and IDH2 mutations in lung adenocarcinomas: Evidences of subclonal evolution
title_full_unstemmed IDH1 and IDH2 mutations in lung adenocarcinomas: Evidences of subclonal evolution
title_sort idh1 and idh2 mutations in lung adenocarcinomas: evidences of subclonal evolution
publisher Wiley
series Cancer Medicine
issn 2045-7634
publishDate 2020-06-01
description Abstract Background Selective IDH1 and IDH2 inhibitors have been approved for targeted therapy of acute myeloid leukemia. Clinical trials for solid tumors with IDH1 and IDH2 (IDH1/2) mutations are ongoing. Reports of IDH1/2‐mutated non–small cell lung cancers (NSCLCs), however, are limited. Methods We evaluated IDH1/2 mutations in 1,924 NSCLC specimens (92% adenocarcinoma) using a next‐generation sequencing assay. Results Retrospective quality assessments identified false detection of IDH1 c.395G>A (p.R132H) resulting from cytosine deamination (C:G→T:A) artifact in one specimen. IDH1/2 mutations were detected in 9 (0.5%) adenocarcinomas taken by fine‐needle aspiration (n = 3), thoracentesis (n = 2) or core biopsy (n = 4). All nine adenocarcinomas showed high‐grade features. Extensive clear cell change, however, was not observed. High expression (50% or greater) of PD‐L1 was observed in two of five specimens examined. IDH1/2 mutations were associated with old age, smoking history, and coexisting KRAS mutation. Lower than expected variant allele frequency of IDH1/2 mutants and coexistence of IDH1/2 mutations with known trunk drivers in the BRAF, EGFR, and KRAS genes suggest they could be branching drivers leading to subclonal evolution in lung adenocarcinomas. Multiregional analysis of an adenocarcinoma harboring two IDH2 mutations revealed parallel evolution originating from a KRAS‐mutated lineage, further supporting subclonal evolution promoted by IDH1/2 mutations. Conclusions IDH1/2 mutations in NSCLCs are uncommon. They occur in adenocarcinomas with high‐grade features and may be branching drivers leading to subclonal evolution. Accumulation of more IDH1/2‐mutated NSCLCs is needed to clarify their clinicopathological characteristics and implications for targeted therapy.
topic cytosine deamination
IDH1
IDH2
lung cancers
parallel evolution
url https://doi.org/10.1002/cam4.3058
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