Germline EGFR Mutations and Familial Lung Cancer

Geoffrey R. Oxnard; Ruthia Chen; Jennifer C. Pharr; Diane R. Koeller; Arrien A. Bertram; Suzanne E. Dahlberg; Irene Rainville; Kate Shane-Carson; Kelly A. Taylor; Alicia Sable-Hunt; Lynette M. Sholl; Craig C. Teerlink; Alun Thomas; Lisa A. Cannon-Albright; André P. Fay; Patrícia Ashton-Prolla; Hao Yang; Mary M. Salvatore; Bonnie J. Addario; Pasi A. Jänne; David P. Carbone; Georgia L. Wiesner; Judy E. Garber

doi:10.1200/JCO.23.01372

Germline EGFR Mutations and Familial Lung Cancer

Geoffrey R. Oxnard, Ruthia Chen, Jennifer C. Pharr, Diane R. Koeller, Arrien A. Bertram, Suzanne E. Dahlberg, Irene Rainville, Kate Shane-Carson, Kelly A. Taylor, Alicia Sable-Hunt, Lynette M. Sholl, Craig C. Teerlink, Alun Thomas, Lisa A. Cannon-Albright, André P. Fay, Patrícia Ashton-Prolla, Hao Yang, Mary M. Salvatore, Bonnie J. Addario, Pasi A. JänneDavid P. Carbone, Georgia L. Wiesner, Judy E. Garber

Research output: Contribution to journal › Article › peer-review

29 Scopus citations

Abstract

PURPOSEThe genomic underpinnings of inherited lung cancer risk are poorly understood. This prospective study characterized the clinical phenotype of patients and families with germline EGFR pathogenic variants (PVs).METHODSThe Investigating Hereditary Risk from T790M study (ClinicalTrials.gov identifier: NCT01754025) enrolled patients with lung cancer whose tumor profiling harbored possible germline EGFR PVs and their relatives, either in person or remotely, providing germline testing and follow-up.RESULTSA total of 141 participants were enrolled over a 5-year period, 100 (71%) remotely. Based upon previous genotyping, 116 participants from 59 kindreds were tested for EGFR T790M, demonstrating a pattern of Mendelian inheritance with variable lung cancer penetrance. In confirmed or obligate carriers of a germline EGFR PV from 39 different kindreds, 50/91 (55%) were affected with lung cancer with 34/65 (52%) diagnosed by age 60 years. Somatic testing of lung cancers in carriers revealed that 35 of 37 (95%) had an EGFR driver comutation. Among 36 germline carriers without a cancer diagnosis, 15 had computed tomography (CT) imaging and nine had lung nodules, including a 28-year-old with >10 lung nodules. Given geographic enrichment of germline EGFR T790M in the southeast United States, genome-wide haplotyping of 46 germline carriers was performed and identified a 4.1-Mb haplotype shared by 41 (89%), estimated to originate 223-279 years ago.CONCLUSIONTo our knowledge, this is the first prospective description of familial EGFR-mutant lung cancer, identifying a recent founder germline EGFR T790M variant enriched in the Southeast United States. The high prevalence of EGFR-driver lung adenocarcinomas and lung nodules in germline carriers supports effort to identify affected patients and family members for investigation of CT-based screening for these high-risk individuals.

Original language	English
Pages (from-to)	5274-5284
Number of pages	11
Journal	Journal of Clinical Oncology
Volume	41
Issue number	34
DOIs	https://doi.org/10.1200/JCO.23.01372
State	Published - 1 Dec 2023
Externally published	Yes

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Oxnard, G. R., Chen, R., Pharr, J. C., Koeller, D. R., Bertram, A. A., Dahlberg, S. E., Rainville, I., Shane-Carson, K., Taylor, K. A., Sable-Hunt, A., Sholl, L. M., Teerlink, C. C., Thomas, A., Cannon-Albright, L. A., Fay, A. P., Ashton-Prolla, P., Yang, H., Salvatore, M. M., Addario, B. J., ... Garber, J. E. (2023). Germline EGFR Mutations and Familial Lung Cancer. Journal of Clinical Oncology, 41(34), 5274-5284. https://doi.org/10.1200/JCO.23.01372

@article{a59cd079c45545bf855f82a616f2b9d8,

title = "Germline EGFR Mutations and Familial Lung Cancer",

abstract = "PURPOSEThe genomic underpinnings of inherited lung cancer risk are poorly understood. This prospective study characterized the clinical phenotype of patients and families with germline EGFR pathogenic variants (PVs).METHODSThe Investigating Hereditary Risk from T790M study (ClinicalTrials.gov identifier: NCT01754025) enrolled patients with lung cancer whose tumor profiling harbored possible germline EGFR PVs and their relatives, either in person or remotely, providing germline testing and follow-up.RESULTSA total of 141 participants were enrolled over a 5-year period, 100 (71\%) remotely. Based upon previous genotyping, 116 participants from 59 kindreds were tested for EGFR T790M, demonstrating a pattern of Mendelian inheritance with variable lung cancer penetrance. In confirmed or obligate carriers of a germline EGFR PV from 39 different kindreds, 50/91 (55\%) were affected with lung cancer with 34/65 (52\%) diagnosed by age 60 years. Somatic testing of lung cancers in carriers revealed that 35 of 37 (95\%) had an EGFR driver comutation. Among 36 germline carriers without a cancer diagnosis, 15 had computed tomography (CT) imaging and nine had lung nodules, including a 28-year-old with >10 lung nodules. Given geographic enrichment of germline EGFR T790M in the southeast United States, genome-wide haplotyping of 46 germline carriers was performed and identified a 4.1-Mb haplotype shared by 41 (89\%), estimated to originate 223-279 years ago.CONCLUSIONTo our knowledge, this is the first prospective description of familial EGFR-mutant lung cancer, identifying a recent founder germline EGFR T790M variant enriched in the Southeast United States. The high prevalence of EGFR-driver lung adenocarcinomas and lung nodules in germline carriers supports effort to identify affected patients and family members for investigation of CT-based screening for these high-risk individuals.",

author = "Oxnard, \{Geoffrey R.\} and Ruthia Chen and Pharr, \{Jennifer C.\} and Koeller, \{Diane R.\} and Bertram, \{Arrien A.\} and Dahlberg, \{Suzanne E.\} and Irene Rainville and Kate Shane-Carson and Taylor, \{Kelly A.\} and Alicia Sable-Hunt and Sholl, \{Lynette M.\} and Teerlink, \{Craig C.\} and Alun Thomas and Cannon-Albright, \{Lisa A.\} and Fay, \{Andr{\'e} P.\} and Patr{\'i}cia Ashton-Prolla and Hao Yang and Salvatore, \{Mary M.\} and Addario, \{Bonnie J.\} and J{\"a}nne, \{Pasi A.\} and Carbone, \{David P.\} and Wiesner, \{Georgia L.\} and Garber, \{Judy E.\}",

note = "Publisher Copyright: {\textcopyright} American Society of Clinical Oncology.",

year = "2023",

month = dec,

day = "1",

doi = "10.1200/JCO.23.01372",

language = "English",

volume = "41",

pages = "5274--5284",

journal = "Journal of Clinical Oncology",

issn = "0732-183X",

publisher = "Lippincott Williams and Wilkins",

number = "34",

}

Oxnard, GR, Chen, R, Pharr, JC, Koeller, DR, Bertram, AA, Dahlberg, SE, Rainville, I, Shane-Carson, K, Taylor, KA, Sable-Hunt, A, Sholl, LM, Teerlink, CC, Thomas, A, Cannon-Albright, LA, Fay, AP, Ashton-Prolla, P, Yang, H, Salvatore, MM, Addario, BJ, Jänne, PA, Carbone, DP, Wiesner, GL & Garber, JE 2023, 'Germline EGFR Mutations and Familial Lung Cancer', Journal of Clinical Oncology, vol. 41, no. 34, pp. 5274-5284. https://doi.org/10.1200/JCO.23.01372

TY - JOUR

T1 - Germline EGFR Mutations and Familial Lung Cancer

AU - Oxnard, Geoffrey R.

AU - Chen, Ruthia

AU - Pharr, Jennifer C.

AU - Koeller, Diane R.

AU - Bertram, Arrien A.

AU - Dahlberg, Suzanne E.

AU - Rainville, Irene

AU - Shane-Carson, Kate

AU - Taylor, Kelly A.

AU - Sable-Hunt, Alicia

AU - Sholl, Lynette M.

AU - Teerlink, Craig C.

AU - Thomas, Alun

AU - Cannon-Albright, Lisa A.

AU - Fay, André P.

AU - Ashton-Prolla, Patrícia

AU - Yang, Hao

AU - Salvatore, Mary M.

AU - Addario, Bonnie J.

AU - Jänne, Pasi A.

AU - Carbone, David P.

AU - Wiesner, Georgia L.

AU - Garber, Judy E.

PY - 2023/12/1

Y1 - 2023/12/1

N2 - PURPOSEThe genomic underpinnings of inherited lung cancer risk are poorly understood. This prospective study characterized the clinical phenotype of patients and families with germline EGFR pathogenic variants (PVs).METHODSThe Investigating Hereditary Risk from T790M study (ClinicalTrials.gov identifier: NCT01754025) enrolled patients with lung cancer whose tumor profiling harbored possible germline EGFR PVs and their relatives, either in person or remotely, providing germline testing and follow-up.RESULTSA total of 141 participants were enrolled over a 5-year period, 100 (71%) remotely. Based upon previous genotyping, 116 participants from 59 kindreds were tested for EGFR T790M, demonstrating a pattern of Mendelian inheritance with variable lung cancer penetrance. In confirmed or obligate carriers of a germline EGFR PV from 39 different kindreds, 50/91 (55%) were affected with lung cancer with 34/65 (52%) diagnosed by age 60 years. Somatic testing of lung cancers in carriers revealed that 35 of 37 (95%) had an EGFR driver comutation. Among 36 germline carriers without a cancer diagnosis, 15 had computed tomography (CT) imaging and nine had lung nodules, including a 28-year-old with >10 lung nodules. Given geographic enrichment of germline EGFR T790M in the southeast United States, genome-wide haplotyping of 46 germline carriers was performed and identified a 4.1-Mb haplotype shared by 41 (89%), estimated to originate 223-279 years ago.CONCLUSIONTo our knowledge, this is the first prospective description of familial EGFR-mutant lung cancer, identifying a recent founder germline EGFR T790M variant enriched in the Southeast United States. The high prevalence of EGFR-driver lung adenocarcinomas and lung nodules in germline carriers supports effort to identify affected patients and family members for investigation of CT-based screening for these high-risk individuals.

AB - PURPOSEThe genomic underpinnings of inherited lung cancer risk are poorly understood. This prospective study characterized the clinical phenotype of patients and families with germline EGFR pathogenic variants (PVs).METHODSThe Investigating Hereditary Risk from T790M study (ClinicalTrials.gov identifier: NCT01754025) enrolled patients with lung cancer whose tumor profiling harbored possible germline EGFR PVs and their relatives, either in person or remotely, providing germline testing and follow-up.RESULTSA total of 141 participants were enrolled over a 5-year period, 100 (71%) remotely. Based upon previous genotyping, 116 participants from 59 kindreds were tested for EGFR T790M, demonstrating a pattern of Mendelian inheritance with variable lung cancer penetrance. In confirmed or obligate carriers of a germline EGFR PV from 39 different kindreds, 50/91 (55%) were affected with lung cancer with 34/65 (52%) diagnosed by age 60 years. Somatic testing of lung cancers in carriers revealed that 35 of 37 (95%) had an EGFR driver comutation. Among 36 germline carriers without a cancer diagnosis, 15 had computed tomography (CT) imaging and nine had lung nodules, including a 28-year-old with >10 lung nodules. Given geographic enrichment of germline EGFR T790M in the southeast United States, genome-wide haplotyping of 46 germline carriers was performed and identified a 4.1-Mb haplotype shared by 41 (89%), estimated to originate 223-279 years ago.CONCLUSIONTo our knowledge, this is the first prospective description of familial EGFR-mutant lung cancer, identifying a recent founder germline EGFR T790M variant enriched in the Southeast United States. The high prevalence of EGFR-driver lung adenocarcinomas and lung nodules in germline carriers supports effort to identify affected patients and family members for investigation of CT-based screening for these high-risk individuals.

UR - https://www.scopus.com/pages/publications/85178497800

U2 - 10.1200/JCO.23.01372

DO - 10.1200/JCO.23.01372

M3 - Article

C2 - 37579253

AN - SCOPUS:85178497800

SN - 0732-183X

VL - 41

SP - 5274

EP - 5284

JO - Journal of Clinical Oncology

JF - Journal of Clinical Oncology

IS - 34

ER -

Germline EGFR Mutations and Familial Lung Cancer

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