OBJECTIVE: One of four American cancer patients dies of lung cancer. Environmental factors such as tobacco smoking are known to affect lung cancer risk. However, there is a genetic factor to lung cancer risk as well. Here, we perform parametric linkage analysis on family-based genotype data in an effort to find genetic loci linked to the disease. METHODS: 197 individuals from families with a high-risk history of lung cancer were recruited and genotyped using an Illumina array. Parametric linkage analyses were performed using an affected-only phenotype model with an autosomal dominant inheritance using a disease allele frequency of 0.01. Three types of analyses were performed: single variant two-point, collapsed haplotype pattern variant two-point, and multipoint analysis. RESULTS: Five novel genome-wide significant loci were identified at 18p11.23, 2p22.2, 14q13.1, 16p13, and 20q13.11. The families most informative for linkage were also determined. CONCLUSIONS: The 5 novel signals are good candidate regions, containing genes that have been implicated as having somatic changes in lung cancer or other cancers (though not in germ line cells). Targeted sequencing on the significant loci is planned to determine the causal variants at these loci.
OBJECTIVE: One of four American cancerpatientsdies of lung cancer. Environmental factors such as tobacco smoking are known to affect lung cancer risk. However, there is a genetic factor to lung cancer risk as well. Here, we perform parametric linkage analysis on family-based genotype data in an effort to find genetic loci linked to the disease. METHODS: 197 individuals from families with a high-risk history of lung cancer were recruited and genotyped using an Illumina array. Parametric linkage analyses were performed using an affected-only phenotype model with an autosomal dominant inheritance using a disease allele frequency of 0.01. Three types of analyses were performed: single variant two-point, collapsed haplotype pattern variant two-point, and multipoint analysis. RESULTS: Five novel genome-wide significant loci were identified at 18p11.23, 2p22.2, 14q13.1, 16p13, and 20q13.11. The families most informative for linkage were also determined. CONCLUSIONS: The 5 novel signals are good candidate regions, containing genes that have been implicated as having somatic changes in lung cancer or other cancers (though not in germ line cells). Targeted sequencing on the significant loci is planned to determine the causal variants at these loci.
Authors: Jinyoung Byun; Ann G Schwartz; Christine Lusk; Angela S Wenzlaff; Mariza de Andrade; Diptasri Mandal; Colette Gaba; Ping Yang; Ming You; Elena Y Kupert; Marshall W Anderson; Younghun Han; Yafang Li; David Qian; Adrienne Stilp; Cathy Laurie; Sarah Nelson; Wenying Zheng; Rayjean J Hung; Valerie Gaborieau; James Mckay; Paul Brennan; Neil E Caporaso; Maria Teresa Landi; Xifeng Wu; John R McLaughlin; Yonathan Brhane; Yohan Bossé; Susan M Pinney; Joan E Bailey-Wilson; Christopher I Amos Journal: Carcinogenesis Date: 2018-09-21 Impact factor: 4.944
Authors: Anthony M Musolf; Bilal A Moiz; Haiming Sun; Claudio W Pikielny; Yohan Bossé; Diptasri Mandal; Mariza de Andrade; Colette Gaba; Ping Yang; Yafang Li; Ming You; Ramaswamy Govindan; Richard K Wilson; Elena Y Kupert; Marshall W Anderson; Ann G Schwartz; Susan M Pinney; Christopher I Amos; Joan E Bailey-Wilson Journal: Cancer Epidemiol Biomarkers Prev Date: 2019-12-11 Impact factor: 4.254
Authors: Aideen M McInerney-Leo; Hui Yi Chew; Po-Ling Inglis; Paul J Leo; Shannon R Joseph; Caroline L Cooper; Satomi Okano; Tim Hassall; Lisa K Anderson; Rayleen V Bowman; Michael Gattas; Jessica E Harris; Mhairi S Marshall; Janet G Shaw; Lawrie Wheeler; Ian A Yang; Matthew A Brown; Kwun M Fong; Fiona Simpson; Emma L Duncan Journal: Hum Mol Genet Date: 2021-11-30 Impact factor: 6.150