A major lung cancer susceptibility locus maps to chromosome 6q23-25

J. E. Bailey-Wilson; C. I. Amos; S. M. Pinney; G. M. Petersen; M. De Andrade; J. S. Wiest; P. Fain; A. G. Schwartz; M. You; W. Franklin; C. Klein; A. Gazdar; H. Rothschild; D. Mandal; T. Coons; J. Slusser; J. Lee; C. Gaba; E. Kupert; A. Perez; X. Zhou; D. Zeng; Q. Liu; Q. Zhang; D. Seminara; J. Minna; Marshall W. Anderson

doi:10.1086/423857

A major lung cancer susceptibility locus maps to chromosome 6q23-25

J. E. Bailey-Wilson, C. I. Amos, S. M. Pinney, G. M. Petersen, M. De Andrade, J. S. Wiest, P. Fain, A. G. Schwartz, M. You, W. Franklin, C. Klein, A. Gazdar, H. Rothschild, D. Mandal, T. Coons, J. Slusser, J. Lee, C. Gaba, E. Kupert, A. PerezX. Zhou, D. Zeng, Q. Liu, Q. Zhang, D. Seminara, J. Minna, Marshall W. Anderson

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248 Scopus citations

Abstract

Lung cancer is a major cause of death in the United States and other countries. The risk of lung cancer is greatly increased by cigarette smoking and by certain occupational exposures, but familial factors also clearly play a major role. To identify susceptibility genes for familial lung cancer, we conducted a genomewide linkage analysis of 52 extended pedigrees ascertained through probands with lung cancer who had several first-degree relatives with the same disease. Multipoint linkage analysis, under a simple autosomal dominant model, of all 52 families with three or more individuals affected by lung, throat, or laryngeal cancer, yielded a maximum heterogeneity LOD score (HLOD) of 2.79 at 155 cM on chromosome 6q (marker D6S2436). A subset of 38 pedigrees with four or more affected individuals yielded a multipoint HLOD of 3.47 at 155 cM. Analysis of a further subset of 23 multigenerational pedigrees with five or more affected individuals yielded a multipoint HLOD score of 4.26 at the same position. The 14 families with only three affected relatives yielded negative LOD scores in this region. A predivided samples test for heterogeneity comparing the LOD scores from the 23 multigenerational families with those from the remaining families was significant (P = .007). The 1-HLOD multipoint support interval from the multigenerational families extends from C6S1848 at 146 cM to 164 cM near D6S1035, overlapping a genomic region that is deleted in sporadic lung cancers as well as numerous other cancer types. Parametric linkage and variance-components analysis that incorporated effects of age and personal smoking also supported linkage in this region, but with somewhat diminished support. These results localize a major susceptibility locus influencing lung cancer risk to 6q23-25.

Original language	English (US)
Pages (from-to)	460-474
Number of pages	15
Journal	American Journal of Human Genetics
Volume	75
Issue number	3
DOIs	https://doi.org/10.1086/423857
State	Published - Sep 2004

ASJC Scopus subject areas

Genetics
Genetics(clinical)

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10.1086/423857

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Bailey-Wilson, J. E., Amos, C. I., Pinney, S. M., Petersen, G. M., De Andrade, M., Wiest, J. S., Fain, P., Schwartz, A. G., You, M., Franklin, W., Klein, C., Gazdar, A., Rothschild, H., Mandal, D., Coons, T., Slusser, J., Lee, J., Gaba, C., Kupert, E., ... Anderson, M. W. (2004). A major lung cancer susceptibility locus maps to chromosome 6q23-25. American Journal of Human Genetics, 75(3), 460-474. https://doi.org/10.1086/423857

Bailey-Wilson, JE, Amos, CI, Pinney, SM, Petersen, GM, De Andrade, M, Wiest, JS, Fain, P, Schwartz, AG, You, M, Franklin, W, Klein, C, Gazdar, A, Rothschild, H, Mandal, D, Coons, T, Slusser, J, Lee, J, Gaba, C, Kupert, E, Perez, A, Zhou, X, Zeng, D, Liu, Q, Zhang, Q, Seminara, D, Minna, J & Anderson, MW 2004, 'A major lung cancer susceptibility locus maps to chromosome 6q23-25', American Journal of Human Genetics, vol. 75, no. 3, pp. 460-474. https://doi.org/10.1086/423857

@article{77a20d161a434c34a1cb1df701eeb8e3,

title = "A major lung cancer susceptibility locus maps to chromosome 6q23-25",

abstract = "Lung cancer is a major cause of death in the United States and other countries. The risk of lung cancer is greatly increased by cigarette smoking and by certain occupational exposures, but familial factors also clearly play a major role. To identify susceptibility genes for familial lung cancer, we conducted a genomewide linkage analysis of 52 extended pedigrees ascertained through probands with lung cancer who had several first-degree relatives with the same disease. Multipoint linkage analysis, under a simple autosomal dominant model, of all 52 families with three or more individuals affected by lung, throat, or laryngeal cancer, yielded a maximum heterogeneity LOD score (HLOD) of 2.79 at 155 cM on chromosome 6q (marker D6S2436). A subset of 38 pedigrees with four or more affected individuals yielded a multipoint HLOD of 3.47 at 155 cM. Analysis of a further subset of 23 multigenerational pedigrees with five or more affected individuals yielded a multipoint HLOD score of 4.26 at the same position. The 14 families with only three affected relatives yielded negative LOD scores in this region. A predivided samples test for heterogeneity comparing the LOD scores from the 23 multigenerational families with those from the remaining families was significant (P = .007). The 1-HLOD multipoint support interval from the multigenerational families extends from C6S1848 at 146 cM to 164 cM near D6S1035, overlapping a genomic region that is deleted in sporadic lung cancers as well as numerous other cancer types. Parametric linkage and variance-components analysis that incorporated effects of age and personal smoking also supported linkage in this region, but with somewhat diminished support. These results localize a major susceptibility locus influencing lung cancer risk to 6q23-25.",

author = "Bailey-Wilson, {J. E.} and Amos, {C. I.} and Pinney, {S. M.} and Petersen, {G. M.} and {De Andrade}, M. and Wiest, {J. S.} and P. Fain and Schwartz, {A. G.} and M. You and W. Franklin and C. Klein and A. Gazdar and H. Rothschild and D. Mandal and T. Coons and J. Slusser and J. Lee and C. Gaba and E. Kupert and A. Perez and X. Zhou and D. Zeng and Q. Liu and Q. Zhang and D. Seminara and J. Minna and Anderson, {Marshall W.}",

note = "Funding Information: We thank Tori Harris, Leticia B. Borrouso, Gary Lagasse, Shazia Iqbal, Ping Yang, Ph.D., Tracee Shevlin, Cynthia Nixa, Michelle McCullough, Alicia Salkowski, Glenda Sneed, Gracie Ehlert, Teara Carr, Derall Willis, Cassie Kirby, Lynn Mark, Kathryn Burton, Troy Rappold, and Julie Sorensen for assistance with data collection and Richard Levy, M.D. (Oncology/Hematology Care, Inc.), for referral of family probands. We thank Dana Behnemann and Erica Lockwood for assistance with statistical analyses. We thank Medford Klein, M.D., for his assistance. We are grateful to the families who participated in this research. We also thank the Alliance for Lung Cancer Advocacy, Support, and Education for assistance with this project. This work was supported in part by U. S. Public Health Service National Cancer Institute research grants U01 CA76293, R01 HL 71197, R01 CA637000, R01 CA60691, R01 CA87895, SEER N01 CN65064, UT Southwestern SPORE P50 CA070907, Johns Hopkins SPORE P50 CA058184, and Colorado SPORE P50 058187; U. S. Public Health Service National Institute of Environmental Health Sciences research grant P30-ES06096; and U. S. Department of Energy research grant DE-FG02-90ER60939. Some of the results of this study were obtained by the use of the program package S.A.G.E. 3.1 , which is supported by U. S. Public Health Resource grant RR03655 from the National Center for Research Resources. Genotyping services for DNA extracted from blood samples were provided by CIDR. CIDR is fully funded through a federal contract from the National Institutes of Health to The Johns Hopkins University, contract N01-HG-65403. ",

year = "2004",

month = sep,

doi = "10.1086/423857",

language = "English (US)",

volume = "75",

pages = "460--474",

journal = "American Journal of Human Genetics",

issn = "0002-9297",

publisher = "Cell Press",

number = "3",

}

TY - JOUR

T1 - A major lung cancer susceptibility locus maps to chromosome 6q23-25

AU - Bailey-Wilson, J. E.

AU - Amos, C. I.

AU - Pinney, S. M.

AU - Petersen, G. M.

AU - De Andrade, M.

AU - Wiest, J. S.

AU - Fain, P.

AU - Schwartz, A. G.

AU - You, M.

AU - Franklin, W.

AU - Klein, C.

AU - Gazdar, A.

AU - Rothschild, H.

AU - Mandal, D.

AU - Coons, T.

AU - Slusser, J.

AU - Lee, J.

AU - Gaba, C.

AU - Kupert, E.

AU - Perez, A.

AU - Zhou, X.

AU - Zeng, D.

AU - Liu, Q.

AU - Zhang, Q.

AU - Seminara, D.

AU - Minna, J.

AU - Anderson, Marshall W.

N1 - Funding Information: We thank Tori Harris, Leticia B. Borrouso, Gary Lagasse, Shazia Iqbal, Ping Yang, Ph.D., Tracee Shevlin, Cynthia Nixa, Michelle McCullough, Alicia Salkowski, Glenda Sneed, Gracie Ehlert, Teara Carr, Derall Willis, Cassie Kirby, Lynn Mark, Kathryn Burton, Troy Rappold, and Julie Sorensen for assistance with data collection and Richard Levy, M.D. (Oncology/Hematology Care, Inc.), for referral of family probands. We thank Dana Behnemann and Erica Lockwood for assistance with statistical analyses. We thank Medford Klein, M.D., for his assistance. We are grateful to the families who participated in this research. We also thank the Alliance for Lung Cancer Advocacy, Support, and Education for assistance with this project. This work was supported in part by U. S. Public Health Service National Cancer Institute research grants U01 CA76293, R01 HL 71197, R01 CA637000, R01 CA60691, R01 CA87895, SEER N01 CN65064, UT Southwestern SPORE P50 CA070907, Johns Hopkins SPORE P50 CA058184, and Colorado SPORE P50 058187; U. S. Public Health Service National Institute of Environmental Health Sciences research grant P30-ES06096; and U. S. Department of Energy research grant DE-FG02-90ER60939. Some of the results of this study were obtained by the use of the program package S.A.G.E. 3.1 , which is supported by U. S. Public Health Resource grant RR03655 from the National Center for Research Resources. Genotyping services for DNA extracted from blood samples were provided by CIDR. CIDR is fully funded through a federal contract from the National Institutes of Health to The Johns Hopkins University, contract N01-HG-65403.

PY - 2004/9

Y1 - 2004/9

N2 - Lung cancer is a major cause of death in the United States and other countries. The risk of lung cancer is greatly increased by cigarette smoking and by certain occupational exposures, but familial factors also clearly play a major role. To identify susceptibility genes for familial lung cancer, we conducted a genomewide linkage analysis of 52 extended pedigrees ascertained through probands with lung cancer who had several first-degree relatives with the same disease. Multipoint linkage analysis, under a simple autosomal dominant model, of all 52 families with three or more individuals affected by lung, throat, or laryngeal cancer, yielded a maximum heterogeneity LOD score (HLOD) of 2.79 at 155 cM on chromosome 6q (marker D6S2436). A subset of 38 pedigrees with four or more affected individuals yielded a multipoint HLOD of 3.47 at 155 cM. Analysis of a further subset of 23 multigenerational pedigrees with five or more affected individuals yielded a multipoint HLOD score of 4.26 at the same position. The 14 families with only three affected relatives yielded negative LOD scores in this region. A predivided samples test for heterogeneity comparing the LOD scores from the 23 multigenerational families with those from the remaining families was significant (P = .007). The 1-HLOD multipoint support interval from the multigenerational families extends from C6S1848 at 146 cM to 164 cM near D6S1035, overlapping a genomic region that is deleted in sporadic lung cancers as well as numerous other cancer types. Parametric linkage and variance-components analysis that incorporated effects of age and personal smoking also supported linkage in this region, but with somewhat diminished support. These results localize a major susceptibility locus influencing lung cancer risk to 6q23-25.

AB - Lung cancer is a major cause of death in the United States and other countries. The risk of lung cancer is greatly increased by cigarette smoking and by certain occupational exposures, but familial factors also clearly play a major role. To identify susceptibility genes for familial lung cancer, we conducted a genomewide linkage analysis of 52 extended pedigrees ascertained through probands with lung cancer who had several first-degree relatives with the same disease. Multipoint linkage analysis, under a simple autosomal dominant model, of all 52 families with three or more individuals affected by lung, throat, or laryngeal cancer, yielded a maximum heterogeneity LOD score (HLOD) of 2.79 at 155 cM on chromosome 6q (marker D6S2436). A subset of 38 pedigrees with four or more affected individuals yielded a multipoint HLOD of 3.47 at 155 cM. Analysis of a further subset of 23 multigenerational pedigrees with five or more affected individuals yielded a multipoint HLOD score of 4.26 at the same position. The 14 families with only three affected relatives yielded negative LOD scores in this region. A predivided samples test for heterogeneity comparing the LOD scores from the 23 multigenerational families with those from the remaining families was significant (P = .007). The 1-HLOD multipoint support interval from the multigenerational families extends from C6S1848 at 146 cM to 164 cM near D6S1035, overlapping a genomic region that is deleted in sporadic lung cancers as well as numerous other cancer types. Parametric linkage and variance-components analysis that incorporated effects of age and personal smoking also supported linkage in this region, but with somewhat diminished support. These results localize a major susceptibility locus influencing lung cancer risk to 6q23-25.

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DO - 10.1086/423857

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JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

SN - 0002-9297

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ER -

A major lung cancer susceptibility locus maps to chromosome 6q23-25

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