A genome wide linkage search for breast cancer susceptibility genes

Paula Smith; Lesley McGuffog; Douglas F. Easton; Graham J. Mann; Gulietta M. Pupo; Beth Newman; Georgia Chenevix-Trench; Csilla Szabo; Melissa Southey; Hélène Renard; Fabrice Odefrey; Henry Lynch; Dominique Stoppa-Lyonnet; Fergus Couch; John L. Hopper; Graham G. Giles; Margaret R.E. McCredie; Saundra Buys; Irene Andrulis; Ruby Senie; David E. Goldgar; Rogier Oldenburg; Karin Kroeze-Jansema; Jaennelle Kraan; Hanne Meijers-Heijboer; Jan G.M. Klijn; Christi Van Asperen; Inge Van Leeuwen; Hans F.A. Vasen; Cees J. Cornelisse; Peter Devilee; Linda Baskcomb; Sheila Seal; Rita Barfoot; Jon Mangion; Anita Hall; Sarah Edkins; Elizabeth Rapley; Richard Wooster; Jenny Chang-Claude; Diana Eccles; D. Gareth Evans; P. Andrew Futreal; Katherine L. Nathanson; Barbara L. Weber; Nazneen Rahman; Michael R. Stratton

doi:10.1002/gcc.20330

A genome wide linkage search for breast cancer susceptibility genes

Paula Smith, Lesley McGuffog, Douglas F. Easton, Graham J. Mann, Gulietta M. Pupo, Beth Newman, Georgia Chenevix-Trench, Csilla Szabo, Melissa Southey, Hélène Renard, Fabrice Odefrey, Henry Lynch, Dominique Stoppa-Lyonnet, Fergus Couch, John L. Hopper, Graham G. Giles, Margaret R.E. McCredie, Saundra Buys, Irene Andrulis, Ruby SenieDavid E. Goldgar, Rogier Oldenburg, Karin Kroeze-Jansema, Jaennelle Kraan, Hanne Meijers-Heijboer, Jan G.M. Klijn, Christi Van Asperen, Inge Van Leeuwen, Hans F.A. Vasen, Cees J. Cornelisse, Peter Devilee, Linda Baskcomb, Sheila Seal, Rita Barfoot, Jon Mangion, Anita Hall, Sarah Edkins, Elizabeth Rapley, Richard Wooster, Jenny Chang-Claude, Diana Eccles, D. Gareth Evans, P. Andrew Futreal, Katherine L. Nathanson, Barbara L. Weber, Nazneen Rahman, Michael R. Stratton

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Abstract

Mutations in known breast cancer susceptibility genes account for a minority of the familial aggregation of the disease. To search for further breast cancer susceptibility genes, we performed a combined analysis of four genome-wide linkage screens, which included a total of 149 multiple case breast cancer families. All families included at least three cases of breast cancer diagnosed below age 60 years, at least one of whom had been tested and found not to carry a BRCA1 or BRCA2 mutation. Evidence for linkage was assessed using parametric linkage analysis, assuming both a dominant and a recessive mode of inheritance, and using nonparametric methods. The highest LOD score obtained in any analysis of the combined data was 1.80 under the dominant model, in a region on chromosome 4 close to marker D4S392. Three further LOD scores over 1 were identified in the parametric analyses and two in the nonparametric analyses. A maximum LOD score of 2.40 was found on chromosome arm 2p in families with four or more cases of breast cancer diagnosed below age 50 years. The number of linkage peaks did not differ from the number expected by chance. These results suggest regions that may harbor novel breast cancer susceptibility genes. They also indicate that no single gene is likely to account for a large fraction of the familial aggregation of breast cancer that is not due to mutations in BRCA1 or BRCA2.

Original language	English (US)
Pages (from-to)	646-655
Number of pages	10
Journal	Genes Chromosomes and Cancer
Volume	45
Issue number	7
DOIs	https://doi.org/10.1002/gcc.20330
State	Published - Jul 2006

ASJC Scopus subject areas

Genetics
Cancer Research

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Smith, P., McGuffog, L., Easton, D. F., Mann, G. J., Pupo, G. M., Newman, B., Chenevix-Trench, G., Szabo, C., Southey, M., Renard, H., Odefrey, F., Lynch, H., Stoppa-Lyonnet, D., Couch, F., Hopper, J. L., Giles, G. G., McCredie, M. R. E., Buys, S., Andrulis, I., ... Stratton, M. R. (2006). A genome wide linkage search for breast cancer susceptibility genes. Genes Chromosomes and Cancer, 45(7), 646-655. https://doi.org/10.1002/gcc.20330

Smith, P, McGuffog, L, Easton, DF, Mann, GJ, Pupo, GM, Newman, B, Chenevix-Trench, G, Szabo, C, Southey, M, Renard, H, Odefrey, F, Lynch, H, Stoppa-Lyonnet, D, Couch, F, Hopper, JL, Giles, GG, McCredie, MRE, Buys, S, Andrulis, I, Senie, R, Goldgar, DE, Oldenburg, R, Kroeze-Jansema, K, Kraan, J, Meijers-Heijboer, H, Klijn, JGM, Van Asperen, C, Van Leeuwen, I, Vasen, HFA, Cornelisse, CJ, Devilee, P, Baskcomb, L, Seal, S, Barfoot, R, Mangion, J, Hall, A, Edkins, S, Rapley, E, Wooster, R, Chang-Claude, J, Eccles, D, Evans, DG, Futreal, PA, Nathanson, KL, Weber, BL, Rahman, N & Stratton, MR 2006, 'A genome wide linkage search for breast cancer susceptibility genes', Genes Chromosomes and Cancer, vol. 45, no. 7, pp. 646-655. https://doi.org/10.1002/gcc.20330

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title = "A genome wide linkage search for breast cancer susceptibility genes",

abstract = "Mutations in known breast cancer susceptibility genes account for a minority of the familial aggregation of the disease. To search for further breast cancer susceptibility genes, we performed a combined analysis of four genome-wide linkage screens, which included a total of 149 multiple case breast cancer families. All families included at least three cases of breast cancer diagnosed below age 60 years, at least one of whom had been tested and found not to carry a BRCA1 or BRCA2 mutation. Evidence for linkage was assessed using parametric linkage analysis, assuming both a dominant and a recessive mode of inheritance, and using nonparametric methods. The highest LOD score obtained in any analysis of the combined data was 1.80 under the dominant model, in a region on chromosome 4 close to marker D4S392. Three further LOD scores over 1 were identified in the parametric analyses and two in the nonparametric analyses. A maximum LOD score of 2.40 was found on chromosome arm 2p in families with four or more cases of breast cancer diagnosed below age 50 years. The number of linkage peaks did not differ from the number expected by chance. These results suggest regions that may harbor novel breast cancer susceptibility genes. They also indicate that no single gene is likely to account for a large fraction of the familial aggregation of breast cancer that is not due to mutations in BRCA1 or BRCA2.",

author = "Paula Smith and Lesley McGuffog and Easton, {Douglas F.} and Mann, {Graham J.} and Pupo, {Gulietta M.} and Beth Newman and Georgia Chenevix-Trench and Csilla Szabo and Melissa Southey and H{\'e}l{\`e}ne Renard and Fabrice Odefrey and Henry Lynch and Dominique Stoppa-Lyonnet and Fergus Couch and Hopper, {John L.} and Giles, {Graham G.} and McCredie, {Margaret R.E.} and Saundra Buys and Irene Andrulis and Ruby Senie and Goldgar, {David E.} and Rogier Oldenburg and Karin Kroeze-Jansema and Jaennelle Kraan and Hanne Meijers-Heijboer and Klijn, {Jan G.M.} and {Van Asperen}, Christi and {Van Leeuwen}, Inge and Vasen, {Hans F.A.} and Cornelisse, {Cees J.} and Peter Devilee and Linda Baskcomb and Sheila Seal and Rita Barfoot and Jon Mangion and Anita Hall and Sarah Edkins and Elizabeth Rapley and Richard Wooster and Jenny Chang-Claude and Diana Eccles and Evans, {D. Gareth} and Futreal, {P. Andrew} and Nathanson, {Katherine L.} and Weber, {Barbara L.} and Nazneen Rahman and Stratton, {Michael R.}",

year = "2006",

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doi = "10.1002/gcc.20330",

language = "English (US)",

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AU - Smith, Paula

AU - McGuffog, Lesley

AU - Easton, Douglas F.

AU - Mann, Graham J.

AU - Pupo, Gulietta M.

AU - Newman, Beth

AU - Chenevix-Trench, Georgia

AU - Szabo, Csilla

AU - Southey, Melissa

AU - Renard, Hélène

AU - Odefrey, Fabrice

AU - Lynch, Henry

AU - Stoppa-Lyonnet, Dominique

AU - Couch, Fergus

AU - Hopper, John L.

AU - Giles, Graham G.

AU - McCredie, Margaret R.E.

AU - Buys, Saundra

AU - Andrulis, Irene

AU - Senie, Ruby

AU - Goldgar, David E.

AU - Oldenburg, Rogier

AU - Kroeze-Jansema, Karin

AU - Kraan, Jaennelle

AU - Meijers-Heijboer, Hanne

AU - Klijn, Jan G.M.

AU - Van Asperen, Christi

AU - Van Leeuwen, Inge

AU - Vasen, Hans F.A.

AU - Cornelisse, Cees J.

AU - Devilee, Peter

AU - Baskcomb, Linda

AU - Seal, Sheila

AU - Barfoot, Rita

AU - Mangion, Jon

AU - Hall, Anita

AU - Edkins, Sarah

AU - Rapley, Elizabeth

AU - Wooster, Richard

AU - Chang-Claude, Jenny

AU - Eccles, Diana

AU - Evans, D. Gareth

AU - Futreal, P. Andrew

AU - Nathanson, Katherine L.

AU - Weber, Barbara L.

AU - Rahman, Nazneen

AU - Stratton, Michael R.

PY - 2006/7

Y1 - 2006/7

N2 - Mutations in known breast cancer susceptibility genes account for a minority of the familial aggregation of the disease. To search for further breast cancer susceptibility genes, we performed a combined analysis of four genome-wide linkage screens, which included a total of 149 multiple case breast cancer families. All families included at least three cases of breast cancer diagnosed below age 60 years, at least one of whom had been tested and found not to carry a BRCA1 or BRCA2 mutation. Evidence for linkage was assessed using parametric linkage analysis, assuming both a dominant and a recessive mode of inheritance, and using nonparametric methods. The highest LOD score obtained in any analysis of the combined data was 1.80 under the dominant model, in a region on chromosome 4 close to marker D4S392. Three further LOD scores over 1 were identified in the parametric analyses and two in the nonparametric analyses. A maximum LOD score of 2.40 was found on chromosome arm 2p in families with four or more cases of breast cancer diagnosed below age 50 years. The number of linkage peaks did not differ from the number expected by chance. These results suggest regions that may harbor novel breast cancer susceptibility genes. They also indicate that no single gene is likely to account for a large fraction of the familial aggregation of breast cancer that is not due to mutations in BRCA1 or BRCA2.

AB - Mutations in known breast cancer susceptibility genes account for a minority of the familial aggregation of the disease. To search for further breast cancer susceptibility genes, we performed a combined analysis of four genome-wide linkage screens, which included a total of 149 multiple case breast cancer families. All families included at least three cases of breast cancer diagnosed below age 60 years, at least one of whom had been tested and found not to carry a BRCA1 or BRCA2 mutation. Evidence for linkage was assessed using parametric linkage analysis, assuming both a dominant and a recessive mode of inheritance, and using nonparametric methods. The highest LOD score obtained in any analysis of the combined data was 1.80 under the dominant model, in a region on chromosome 4 close to marker D4S392. Three further LOD scores over 1 were identified in the parametric analyses and two in the nonparametric analyses. A maximum LOD score of 2.40 was found on chromosome arm 2p in families with four or more cases of breast cancer diagnosed below age 50 years. The number of linkage peaks did not differ from the number expected by chance. These results suggest regions that may harbor novel breast cancer susceptibility genes. They also indicate that no single gene is likely to account for a large fraction of the familial aggregation of breast cancer that is not due to mutations in BRCA1 or BRCA2.

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A genome wide linkage search for breast cancer susceptibility genes

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