TY - JOUR
T1 - Whole exome sequencing of highly aggregated lung cancer families reveals linked loci for increased cancer risk on chromosomes 12q, 7p, and 4q
AU - Musolf, Anthony M.
AU - Moiz, Bilal A.
AU - Sun, Haiming
AU - Pikielny, Claudio W.
AU - Bosse, Yohan
AU - Mandal, Diptasri
AU - De Andrade, Mariza
AU - Gaba, Colette
AU - Yang, Ping
AU - Li, Yafang
AU - You, Ming
AU - Govindan, Ramaswamy
AU - Wilson, Richard K.
AU - Kupert, Elena Y.
AU - Anderson, Marshall W.
AU - Schwartz, Ann G.
AU - Pinney, Susan M.
AU - Amos, Christopher I.
AU - Bailey-Wilson, Joan E.
N1 - Funding Information:
The authors thank all study participants and their families. This work was funded in part by the NIH, NCI grants U01CA76293 (S.M. Pinney and M.W. Anderson), U19CA148127 (C.I. Amos and M. You), P30CA22453 (A.G. Schwartz), R03CA77118 (P. Yang), R01CA80127 (P. Yang), R01CA84354 (P. Yang), NIH, National Institute of Environmental Health Sciences P30ES006096 (S.M. Pinney), and Department of Health and Human Services contracts HHSN26820100007C (D. Mandal) and HHSN268201700012C (D. Mandal). C.I. Amos is a Research Scholar of the Cancer Prevention & Research Institute of Texas (CPRIT). This research was partially supported by CPRIT grant RR170048. J.E. Bailey-Wilson, A.M. Musolf, B.A. Moiz, and H. Sun were funded in part by the Intramural Research Program of the National Human Genome Research Institute, NIH. P. Yang and M. de Andrade were funded in part by the Mayo Foundation Fund. This work utilized the computational resources of the NIH HPC Biowulf cluster (http://hpc.nih.gov).
Publisher Copyright:
© 2020 American Association for Cancer Research Inc.. All rights reserved.
PY - 2020/2/1
Y1 - 2020/2/1
N2 - Background: Lung cancer kills more people than any other cancer in the United States. In addition to environmental factors, lung cancer has genetic risk factors as well, though the genetic etiology is still not well understood. We have performed whole exome sequencing on 262 individuals from 28 extended families with a family history of lung cancer. Methods: Parametric genetic linkage analysis was performed on these samples using two distinct analyses the lung cancer only (LCO) analysis, where only patients with lung cancer were coded as affected, and the all aggregated cancers (AAC) analysis, where other cancers seen in the pedigree were coded as affected. Results: The AAC analysis yielded a genome-wide significant result at rs61943670 in POLR3B at 12q23.3. POLR3B has been implicated somatically in lung cancer, but this germline finding is novel and is a significant expression quantitative trait locus in lung tissue. Interesting genome-wide suggestive haplotypes were also found within individual families, particularly near SSPO at 7p36.1 in one family and a large linked haplotype spanning 4q21.3-28.3 in a different family. The 4q haplotype contains potential causal rare variants in DSPP at 4q22.1 and PTPN13 at 4q21.3. Conclusions: Regions on 12q, 7p, and 4q are linked to increased cancer risk in highly aggregated lung cancer families, 12q across families and 7p and 4q within a single family. POLR3B, SSPO, DSPP, and PTPN13 are currently the best candidate genes. Impact: Functional work on these genes is planned for future studies and if confirmed would lead to potential biomarkers for risk in cancer.
AB - Background: Lung cancer kills more people than any other cancer in the United States. In addition to environmental factors, lung cancer has genetic risk factors as well, though the genetic etiology is still not well understood. We have performed whole exome sequencing on 262 individuals from 28 extended families with a family history of lung cancer. Methods: Parametric genetic linkage analysis was performed on these samples using two distinct analyses the lung cancer only (LCO) analysis, where only patients with lung cancer were coded as affected, and the all aggregated cancers (AAC) analysis, where other cancers seen in the pedigree were coded as affected. Results: The AAC analysis yielded a genome-wide significant result at rs61943670 in POLR3B at 12q23.3. POLR3B has been implicated somatically in lung cancer, but this germline finding is novel and is a significant expression quantitative trait locus in lung tissue. Interesting genome-wide suggestive haplotypes were also found within individual families, particularly near SSPO at 7p36.1 in one family and a large linked haplotype spanning 4q21.3-28.3 in a different family. The 4q haplotype contains potential causal rare variants in DSPP at 4q22.1 and PTPN13 at 4q21.3. Conclusions: Regions on 12q, 7p, and 4q are linked to increased cancer risk in highly aggregated lung cancer families, 12q across families and 7p and 4q within a single family. POLR3B, SSPO, DSPP, and PTPN13 are currently the best candidate genes. Impact: Functional work on these genes is planned for future studies and if confirmed would lead to potential biomarkers for risk in cancer.
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U2 - 10.1158/1055-9965.EPI-19-0887
DO - 10.1158/1055-9965.EPI-19-0887
M3 - Article
C2 - 31826912
AN - SCOPUS:85079076161
SN - 1055-9965
VL - 29
SP - 434
EP - 442
JO - Cancer Epidemiology Biomarkers and Prevention
JF - Cancer Epidemiology Biomarkers and Prevention
IS - 2
ER -