Analysis of Xq27-28 linkage in the international consortium for prostate cancer genetics (ICPCG) families

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Analysis of Xq27-28 linkage in the international consortium for prostate cancer genetics (ICPCG) families. / Bailey-Wilson, Joan E.; Childs, Erica J.; Cropp, Cheryl D.; Schaid, Daniel J.; Xu, Jianfeng; Camp, Nicola J.; Cannon-Albright, Lisa A.; Farnham, James M.; George, Asha; Powell, Isaac; Carpten, John D.; Giles, Graham G.; Hopper, John L.; Severi, Gianluca; English, Dallas R.; Foulkes, William D.; Mæhle, Lovise; Møller, Pål; Eeles, Rosalind; Easton, Douglas; Guy, Michelle; Edwards, Steve; Badzioch, Michael D.; Whittemore, Alice S.; Oakley-Girvan, Ingrid; Hsieh, Chih Lin; Dimitrov, Latchezar; Stanford, Janet L.; Karyadi, Danielle M.; Deutsch, Kerry; McIntosh, Laura; Ostrander, Elaine A.; Wiley, Kathleen E.; Isaacs, Sarah D.; Walsh, Patrick C.; Thibodeau, Stephen N.; McDonnell, Shannon K.; Hebbring, Scott; Lange, Ethan M.; Cooney, Kathleen A.; Tammela, Teuvo L J; Schleutker, Johanna; Maier, Christiane; Bochum, Sylvia; Hoegel, Josef; Grönberg, Henrik; Wiklund, Fredrik; Emanuelsson, Monica; Cancel-Tassin, Geraldine; Valeri, Antoine; Cussenot, Olivier; Isaacs, William B.

julkaisussa: BMC MEDICAL GENETICS, Vuosikerta 13, 46, 19.06.2012.

Tutkimustuotos › › vertaisarvioitu

Harvard

Bailey-Wilson, JE, Childs, EJ, Cropp, CD, Schaid, DJ, Xu, J, Camp, NJ, Cannon-Albright, LA, Farnham, JM, George, A, Powell, I, Carpten, JD, Giles, GG, Hopper, JL, Severi, G, English, DR, Foulkes, WD, Mæhle, L, Møller, P, Eeles, R, Easton, D, Guy, M, Edwards, S, Badzioch, MD, Whittemore, AS, Oakley-Girvan, I, Hsieh, CL, Dimitrov, L, Stanford, JL, Karyadi, DM, Deutsch, K, McIntosh, L, Ostrander, EA, Wiley, KE, Isaacs, SD, Walsh, PC, Thibodeau, SN, McDonnell, SK, Hebbring, S, Lange, EM, Cooney, KA, Tammela, TLJ, Schleutker, J, Maier, C, Bochum, S, Hoegel, J, Grönberg, H, Wiklund, F, Emanuelsson, M, Cancel-Tassin, G, Valeri, A, Cussenot, O & Isaacs, WB 2012, 'Analysis of Xq27-28 linkage in the international consortium for prostate cancer genetics (ICPCG) families', BMC MEDICAL GENETICS, Vuosikerta. 13, 46. https://doi.org/10.1186/1471-2350-13-46

APA

Bailey-Wilson, J. E., Childs, E. J., Cropp, C. D., Schaid, D. J., Xu, J., Camp, N. J., ... Isaacs, W. B. (2012). Analysis of Xq27-28 linkage in the international consortium for prostate cancer genetics (ICPCG) families. BMC MEDICAL GENETICS, 13, [46]. https://doi.org/10.1186/1471-2350-13-46

Vancouver

Bailey-Wilson JE, Childs EJ, Cropp CD, Schaid DJ, Xu J, Camp NJ et al. Analysis of Xq27-28 linkage in the international consortium for prostate cancer genetics (ICPCG) families. BMC MEDICAL GENETICS. 2012 kesä 19;13. 46. https://doi.org/10.1186/1471-2350-13-46

Author

Bailey-Wilson, Joan E. ; Childs, Erica J. ; Cropp, Cheryl D. ; Schaid, Daniel J. ; Xu, Jianfeng ; Camp, Nicola J. ; Cannon-Albright, Lisa A. ; Farnham, James M. ; George, Asha ; Powell, Isaac ; Carpten, John D. ; Giles, Graham G. ; Hopper, John L. ; Severi, Gianluca ; English, Dallas R. ; Foulkes, William D. ; Mæhle, Lovise ; Møller, Pål ; Eeles, Rosalind ; Easton, Douglas ; Guy, Michelle ; Edwards, Steve ; Badzioch, Michael D. ; Whittemore, Alice S. ; Oakley-Girvan, Ingrid ; Hsieh, Chih Lin ; Dimitrov, Latchezar ; Stanford, Janet L. ; Karyadi, Danielle M. ; Deutsch, Kerry ; McIntosh, Laura ; Ostrander, Elaine A. ; Wiley, Kathleen E. ; Isaacs, Sarah D. ; Walsh, Patrick C. ; Thibodeau, Stephen N. ; McDonnell, Shannon K. ; Hebbring, Scott ; Lange, Ethan M. ; Cooney, Kathleen A. ; Tammela, Teuvo L J ; Schleutker, Johanna ; Maier, Christiane ; Bochum, Sylvia ; Hoegel, Josef ; Grönberg, Henrik ; Wiklund, Fredrik ; Emanuelsson, Monica ; Cancel-Tassin, Geraldine ; Valeri, Antoine ; Cussenot, Olivier ; Isaacs, William B. / Analysis of Xq27-28 linkage in the international consortium for prostate cancer genetics (ICPCG) families. Julkaisussa: BMC MEDICAL GENETICS. 2012 ; Vuosikerta 13.

Bibtex - Lataa

@article{a6f05c390872465d9a9ea2737a522376,

title = "Analysis of Xq27-28 linkage in the international consortium for prostate cancer genetics (ICPCG) families",

abstract = "Background: Genetic variants are likely to contribute to a portion of prostate cancer risk. Full elucidation of the genetic etiology of prostate cancer is difficult because of incomplete penetrance and genetic and phenotypic heterogeneity. Current evidence suggests that genetic linkage to prostate cancer has been found on several chromosomes including the X; however, identification of causative genes has been elusive.Methods: Parametric and non-parametric linkage analyses were performed using 26 microsatellite markers in each of 11 groups of multiple-case prostate cancer families from the International Consortium for Prostate Cancer Genetics (ICPCG). Meta-analyses of the resultant family-specific linkage statistics across the entire 1,323 families and in several predefined subsets were then performed.Results: Meta-analyses of linkage statistics resulted in a maximum parametric heterogeneity lod score (HLOD) of 1.28, and an allele-sharing lod score (LOD) of 2.0 in favor of linkage to Xq27-q28 at 138 cM. In subset analyses, families with average age at onset less than 65 years exhibited a maximum HLOD of 1.8 (at 138 cM) versus a maximum regional HLOD of only 0.32 in families with average age at onset of 65 years or older. Surprisingly, the subset of families with only 2-3 affected men and some evidence of male-to-male transmission of prostate cancer gave the strongest evidence of linkage to the region (HLOD = 3.24, 134 cM). For this subset, the HLOD was slightly increased (HLOD = 3.47 at 134 cM) when families used in the original published report of linkage to Xq27-28 were excluded.Conclusions: Although there was not strong support for linkage to the Xq27-28 region in the complete set of families, the subset of families with earlier age at onset exhibited more evidence of linkage than families with later onset of disease. A subset of families with 2-3 affected individuals and with some evidence of male to male disease transmission showed stronger linkage signals. Our results suggest that the genetic basis for prostate cancer in our families is much more complex than a single susceptibility locus on the X chromosome, and that future explorations of the Xq27-28 region should focus on the subset of families identified here with the strongest evidence of linkage to this region.",

author = "Bailey-Wilson, {Joan E.} and Childs, {Erica J.} and Cropp, {Cheryl D.} and Schaid, {Daniel J.} and Jianfeng Xu and Camp, {Nicola J.} and Cannon-Albright, {Lisa A.} and Farnham, {James M.} and Asha George and Isaac Powell and Carpten, {John D.} and Giles, {Graham G.} and Hopper, {John L.} and Gianluca Severi and English, {Dallas R.} and Foulkes, {William D.} and Lovise M{\ae}hle and P{\aa}l M{\o}ller and Rosalind Eeles and Douglas Easton and Michelle Guy and Steve Edwards and Badzioch, {Michael D.} and Whittemore, {Alice S.} and Ingrid Oakley-Girvan and Hsieh, {Chih Lin} and Latchezar Dimitrov and Stanford, {Janet L.} and Karyadi, {Danielle M.} and Kerry Deutsch and Laura McIntosh and Ostrander, {Elaine A.} and Wiley, {Kathleen E.} and Isaacs, {Sarah D.} and Walsh, {Patrick C.} and Thibodeau, {Stephen N.} and McDonnell, {Shannon K.} and Scott Hebbring and Lange, {Ethan M.} and Cooney, {Kathleen A.} and Tammela, {Teuvo L J} and Johanna Schleutker and Christiane Maier and Sylvia Bochum and Josef Hoegel and Henrik Gr{\"o}nberg and Fredrik Wiklund and Monica Emanuelsson and Geraldine Cancel-Tassin and Antoine Valeri and Olivier Cussenot and Isaacs, {William B.}",

year = "2012",

month = "6",

day = "19",

doi = "10.1186/1471-2350-13-46",

language = "English",

volume = "13",

journal = "BMC MEDICAL GENETICS",

}

RIS (suitable for import to EndNote) - Lataa

TY - JOUR

T1 - Analysis of Xq27-28 linkage in the international consortium for prostate cancer genetics (ICPCG) families

AU - Bailey-Wilson, Joan E.

AU - Childs, Erica J.

AU - Cropp, Cheryl D.

AU - Schaid, Daniel J.

AU - Xu, Jianfeng

AU - Camp, Nicola J.

AU - Cannon-Albright, Lisa A.

AU - Farnham, James M.

AU - George, Asha

AU - Powell, Isaac

AU - Carpten, John D.

AU - Giles, Graham G.

AU - Hopper, John L.

AU - Severi, Gianluca

AU - English, Dallas R.

AU - Foulkes, William D.

AU - Mæhle, Lovise

AU - Møller, Pål

AU - Eeles, Rosalind

AU - Easton, Douglas

AU - Guy, Michelle

AU - Edwards, Steve

AU - Badzioch, Michael D.

AU - Whittemore, Alice S.

AU - Oakley-Girvan, Ingrid

AU - Hsieh, Chih Lin

AU - Dimitrov, Latchezar

AU - Stanford, Janet L.

AU - Karyadi, Danielle M.

AU - Deutsch, Kerry

AU - McIntosh, Laura

AU - Ostrander, Elaine A.

AU - Wiley, Kathleen E.

AU - Isaacs, Sarah D.

AU - Walsh, Patrick C.

AU - Thibodeau, Stephen N.

AU - McDonnell, Shannon K.

AU - Hebbring, Scott

AU - Lange, Ethan M.

AU - Cooney, Kathleen A.

AU - Tammela, Teuvo L J

AU - Schleutker, Johanna

AU - Maier, Christiane

AU - Bochum, Sylvia

AU - Hoegel, Josef

AU - Grönberg, Henrik

AU - Wiklund, Fredrik

AU - Emanuelsson, Monica

AU - Cancel-Tassin, Geraldine

AU - Valeri, Antoine

AU - Cussenot, Olivier

AU - Isaacs, William B.

PY - 2012/6/19

Y1 - 2012/6/19

N2 - Background: Genetic variants are likely to contribute to a portion of prostate cancer risk. Full elucidation of the genetic etiology of prostate cancer is difficult because of incomplete penetrance and genetic and phenotypic heterogeneity. Current evidence suggests that genetic linkage to prostate cancer has been found on several chromosomes including the X; however, identification of causative genes has been elusive.Methods: Parametric and non-parametric linkage analyses were performed using 26 microsatellite markers in each of 11 groups of multiple-case prostate cancer families from the International Consortium for Prostate Cancer Genetics (ICPCG). Meta-analyses of the resultant family-specific linkage statistics across the entire 1,323 families and in several predefined subsets were then performed.Results: Meta-analyses of linkage statistics resulted in a maximum parametric heterogeneity lod score (HLOD) of 1.28, and an allele-sharing lod score (LOD) of 2.0 in favor of linkage to Xq27-q28 at 138 cM. In subset analyses, families with average age at onset less than 65 years exhibited a maximum HLOD of 1.8 (at 138 cM) versus a maximum regional HLOD of only 0.32 in families with average age at onset of 65 years or older. Surprisingly, the subset of families with only 2-3 affected men and some evidence of male-to-male transmission of prostate cancer gave the strongest evidence of linkage to the region (HLOD = 3.24, 134 cM). For this subset, the HLOD was slightly increased (HLOD = 3.47 at 134 cM) when families used in the original published report of linkage to Xq27-28 were excluded.Conclusions: Although there was not strong support for linkage to the Xq27-28 region in the complete set of families, the subset of families with earlier age at onset exhibited more evidence of linkage than families with later onset of disease. A subset of families with 2-3 affected individuals and with some evidence of male to male disease transmission showed stronger linkage signals. Our results suggest that the genetic basis for prostate cancer in our families is much more complex than a single susceptibility locus on the X chromosome, and that future explorations of the Xq27-28 region should focus on the subset of families identified here with the strongest evidence of linkage to this region.

AB - Background: Genetic variants are likely to contribute to a portion of prostate cancer risk. Full elucidation of the genetic etiology of prostate cancer is difficult because of incomplete penetrance and genetic and phenotypic heterogeneity. Current evidence suggests that genetic linkage to prostate cancer has been found on several chromosomes including the X; however, identification of causative genes has been elusive.Methods: Parametric and non-parametric linkage analyses were performed using 26 microsatellite markers in each of 11 groups of multiple-case prostate cancer families from the International Consortium for Prostate Cancer Genetics (ICPCG). Meta-analyses of the resultant family-specific linkage statistics across the entire 1,323 families and in several predefined subsets were then performed.Results: Meta-analyses of linkage statistics resulted in a maximum parametric heterogeneity lod score (HLOD) of 1.28, and an allele-sharing lod score (LOD) of 2.0 in favor of linkage to Xq27-q28 at 138 cM. In subset analyses, families with average age at onset less than 65 years exhibited a maximum HLOD of 1.8 (at 138 cM) versus a maximum regional HLOD of only 0.32 in families with average age at onset of 65 years or older. Surprisingly, the subset of families with only 2-3 affected men and some evidence of male-to-male transmission of prostate cancer gave the strongest evidence of linkage to the region (HLOD = 3.24, 134 cM). For this subset, the HLOD was slightly increased (HLOD = 3.47 at 134 cM) when families used in the original published report of linkage to Xq27-28 were excluded.Conclusions: Although there was not strong support for linkage to the Xq27-28 region in the complete set of families, the subset of families with earlier age at onset exhibited more evidence of linkage than families with later onset of disease. A subset of families with 2-3 affected individuals and with some evidence of male to male disease transmission showed stronger linkage signals. Our results suggest that the genetic basis for prostate cancer in our families is much more complex than a single susceptibility locus on the X chromosome, and that future explorations of the Xq27-28 region should focus on the subset of families identified here with the strongest evidence of linkage to this region.

UR - http://www.scopus.com/inward/record.url?scp=84862273373&partnerID=8YFLogxK

U2 - 10.1186/1471-2350-13-46

DO - 10.1186/1471-2350-13-46

M3 - Article

VL - 13

JO - BMC MEDICAL GENETICS

JF - BMC MEDICAL GENETICS

M1 - 46

ER -

TUTCRIS