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9 results on '"Rider, D N"'

3. Risk of Ovarian Cancer and the NF-? B Pathway: Genetic Association with IL1A and TNFSF10

Author

Charbonneau, B., Block, M. S., Bamlet, W. R., Vierkant, R. A., Kalli, K. R., Fogarty, Z., Rider, D. N., Sellers, T. A., Tworoger, S. S., Poole, E., Risch, H. A., Salvesen, H. B., Kiemeney, L. A., Baglietto, L., Giles, G. G., Severi, G., Trabert, B., Wentzensen, N., Chenevix-Trench, G., Whittemore, A. S., Sieh, W., Chang-Claude, J., Bandera, E. V., Orlow, I., Terry, K., Goodman, M. T., Thompson, P. J., Cook, L. S., Rossing, M. A., Ness, R. B., Narod, S. A., Kupryjanczyk, J., Lu, K., Butzow, R., Dork, T., Pejovic, T., Campbell, I., Le, N. D., Bunker, C. H., Bogdanova, N., Runnebaum, I. B., Eccles, D., Paul, J., Wu, A. H., Gayther, S. A., Hogdall, E., Heitz, F., Kaye, S. B., Karlan, B. Y., Anton-Culver, H., Gronwald, J., Hogdall, C. K., Lambrechts, D., Fasching, P. A., Menon, U., Schildkraut, J., Pearce, C. L., Levine, D. A., Kjaer, S. K., Cramer, D., Flanagan, J. M., Phelan, C. M., Brown, R., Massuger, L. F. A. G., Song, H., Doherty, J. A., Krakstad, C., Liang, D., Odunsi, K., Berchuck, A., Jensen, A., Lubinski, J., Nevanlinna, H., Bean, Y. T., Lurie, G., Ziogas, A., Walsh, C., Despierre, E., Brinton, L., Hein, A., Rudolph, A., Dansonka-Mieszkowska, A., Olson, S. H., Harter, P., Tyrer, J., Vitonis, A. F., Brooks-Wilson, A., Aben, K. K., Pike, M. C., Ramus, S. J., Wik, E., Cybulski, C., Lin, J., Sucheston, L., Edwards, R., McGuire, V., Lester, J., du Bois, A., Lundvall, L., Wang-Gohrke, S., Szafron, L. M., Lambrechts, S., Yang, H., Beckmann, M. W., Pelttari, L. M., Van Altena, A. M., van den Berg, D., Halle, M. K., Gentry-Maharaj, A., Schwaab, I., Chandran, U., Menkiszak, J., Ekici, A. B., Wilkens, L. R., Leminen, A., Modugno, F., Friel, G., Rothstein, J. H., Vergote, I., Garcia-Closas, M., Hildebrandt, M. A. T., Sobiczewski, P., Kelemen, L. E., Pharoah, P. D. P., Moysich, K., Knutson, K. L., Cunningham, J. M., Fridley, B. L., and Goode, E. L.

Published
2014
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4. Cell cycle genes and ovarian cancer susceptibility: a tagSNP analysis

Author

Cunningham, J M, Vierkant, R A, Sellers, T A, Phelan, C, Rider, D N, Liebow, M, Schildkraut, J, Berchuck, A, Couch, F J, Wang, X, Fridley, B L, Gentry-Maharaj, A, Menon, U, Hogdall, E, Kjær, Susanne Krüger, Whittemore, A, DiCioccio, R, Song, H, Gayther, S A, Ramus, S J, Pharaoh, P D P, Goode, E L, Cunningham, J M, Vierkant, R A, Sellers, T A, Phelan, C, Rider, D N, Liebow, M, Schildkraut, J, Berchuck, A, Couch, F J, Wang, X, Fridley, B L, Gentry-Maharaj, A, Menon, U, Hogdall, E, Kjær, Susanne Krüger, Whittemore, A, DiCioccio, R, Song, H, Gayther, S A, Ramus, S J, Pharaoh, P D P, and Goode, E L

Abstract

Udgivelsesdato: 2009-Oct-20, BACKGROUND: Dysregulation of the cell cycle is a hallmark of many cancers including ovarian cancer, a leading cause of gynaecologic cancer mortality worldwide. METHODS: We examined single nucleotide polymorphisms (SNPs) (n=288) from 39 cell cycle regulation genes, including cyclins, cyclin-dependent kinases (CDKs) and CDK inhibitors, in a two-stage study. White, non-Hispanic cases (n=829) and ovarian cancer-free controls (n=941) were genotyped using an Illumina assay. RESULTS: Eleven variants in nine genes (ABL1, CCNB2, CDKN1A, CCND3, E2F2, CDK2, E2F3, CDC2, and CDK7) were associated with risk of ovarian cancer in at least one genetic model. Seven SNPs were then assessed in four additional studies with 1689 cases and 3398 controls. Association between risk of ovarian cancer and ABL1 rs2855192 found in the original population [odds ratio, OR(BB vs AA) 2.81 (1.29-6.09), P=0.01] was also observed in a replication population, and the association remained suggestive in the combined analysis [OR(BB vs AA) 1.59 (1.08-2.34), P=0.02]. No other SNP associations remained suggestive in the replication populations. CONCLUSION: ABL1 has been implicated in multiple processes including cell division, cell adhesion and cellular stress response. These results suggest that characterization of the function of genetic variation in this gene in other ovarian cancer populations is warranted.

Published
2009

5. Inherited Determinants of Ovarian Cancer Survival

Author

Goode, E. L., primary, Maurer, M. J., additional, Sellers, T. A., additional, Phelan, C. M., additional, Kalli, K. R., additional, Fridley, B. L., additional, Vierkant, R. A., additional, Armasu, S. M., additional, White, K. L., additional, Keeney, G. L., additional, Cliby, W. A., additional, Rider, D. N., additional, Kelemen, L. E., additional, Jones, M. B., additional, Peethambaram, P. P., additional, Lancaster, J. M., additional, Olson, J. E., additional, Schildkraut, J. M., additional, Cunningham, J. M., additional, and Hartmann, L. C., additional

Published
2010
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7. Cell cycle genes and ovarian cancer susceptibility: a tagSNP analysis.

Author

Cunningham, J. M., Vierkant, R. A., Sellers, T. A., Phelan, C., Rider, D. N., Liebow, M., Schildkraut, J., Berchuck, A., Couch, F. J., Wang, X., Fridley, B. L., Gentry-Maharaj, A., Menon, U., Hogdall, E., Kjaer, S., Whittemore, A., DiCioccio, R., Song, H., Gayther, S. A., and Ramus, S. J.

Subjects
NUCLEOTIDES, GENETIC polymorphisms, GENES, CELL cycle regulation, OVARIAN cancer, CYCLINS, CYCLIN-dependent kinases, CELL cycle, DISEASE susceptibility, OVARIAN tumors, RESEARCH funding, TRANSFERASES
Abstract

Background: Dysregulation of the cell cycle is a hallmark of many cancers including ovarian cancer, a leading cause of gynaecologic cancer mortality worldwide.Methods: We examined single nucleotide polymorphisms (SNPs) (n=288) from 39 cell cycle regulation genes, including cyclins, cyclin-dependent kinases (CDKs) and CDK inhibitors, in a two-stage study. White, non-Hispanic cases (n=829) and ovarian cancer-free controls (n=941) were genotyped using an Illumina assay.Results: Eleven variants in nine genes (ABL1, CCNB2, CDKN1A, CCND3, E2F2, CDK2, E2F3, CDC2, and CDK7) were associated with risk of ovarian cancer in at least one genetic model. Seven SNPs were then assessed in four additional studies with 1689 cases and 3398 controls. Association between risk of ovarian cancer and ABL1 rs2855192 found in the original population [odds ratio, OR(BB vs AA) 2.81 (1.29-6.09), P=0.01] was also observed in a replication population, and the association remained suggestive in the combined analysis [OR(BB vs AA) 1.59 (1.08-2.34), P=0.02]. No other SNP associations remained suggestive in the replication populations.Conclusion: ABL1 has been implicated in multiple processes including cell division, cell adhesion and cellular stress response. These results suggest that characterization of the function of genetic variation in this gene in other ovarian cancer populations is warranted. [ABSTRACT FROM AUTHOR]

Published
2009
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8. Variation in NF- B Signaling Pathways and Survival in Invasive Epithelial Ovarian Cancer

Author

Block, M. S., Charbonneau, B., Vierkant, R. A., Fogarty, Z., Bamlet, W. R., Pharoah, P. D. P., Rossing, M. A., Cramer, Daniel William, Pearce, C. L., Schildkraut, J., Menon, U., Kjaer, S. K., Levine, D. A., Gronwald, J., Culver, H. A., Whittemore, A. S., Karlan, B. Y., Lambrechts, D., Wentzensen, N., Kupryjanczyk, J., Chang-Claude, J., Bandera, E. V., Hogdall, E., Heitz, F., Kaye, S. B., Fasching, P. A., Campbell, I., Goodman, M. T., Pejovic, T., Bean, Y. T., Hays, L. E., Lurie, G., Eccles, D., Hein, A., Beckmann, M. W., Ekici, A. B., Paul, J., Brown, R., Flanagan, J. M., Harter, P., du Bois, A., Schwaab, I., Hogdall, C. K., Lundvall, L., Olson, S. H., Orlow, I., Paddock, L. E., Rudolph, A., Eilber, U., Dansonka-Mieszkowska, A., Rzepecka, I. K., Ziolkowska-Seta, I., Brinton, L. A., Yang, H., Garcia-Closas, M., Despierre, E., Lambrechts, S., Vergote, I., Walsh, C. S., Lester, J., Sieh, W., McGuire, V., Rothstein, J. H., Ziogas, A., Lubi ski, J., Cybulski, C., Menkiszak, J., Jensen, A., Gayther, S. A., Ramus, S. J., Gentry-Maharaj, A., Berchuck, A., Wu, A. H., Pike, M. C., Van Den Berg, D., Terry, Kathryn Lynne, Vitonis, A. F., Ramirez, S. M., Rider, D. N., Knutson, K. L., Sellers, T. A., Phelan, C. M., Doherty, J. A., Johnatty, S. E., deFazio, A., Song, H., Tyrer, J., Kalli, K. R., Fridley, B. L., Cunningham, J. M., and Goode, E. L.

Subjects
single nucleotide polymorphism, recurrence, survival, ovarian neoplasms
Abstract

Survival in epithelial ovarian cancer (EOC) is influenced by the host immune response, yet the key genetic determinants of inflammation and immunity that impact prognosis are not known. The nuclear factor-kappa B (NF-κB) transcription factor family plays an important role in many immune and inflammatory responses, including the response to cancer. We studied common inherited variation in 210 genes in the NF-κB family in 10,084 patients with invasive EOC (5,248 high grade serous, 1,452 endometrioid, 795 clear cell, and 661 mucinous) from the Ovarian Cancer Association Consortium. Associations between genotype and overall survival were assessed using Cox regression for all patients and by major histology, adjusting for known prognostic factors and correcting for multiple testing (threshold for statistical significance—p < 2.5×10−5). Results were statistically significant when assessed for patients of a single histology. Key associations were with CARD11 (caspase recruitment domain family, member 11) rs41324349 in patients with mucinous EOC (HR 1.82, 95% CI 1.41–2.35, p=4.13×10−6) and TNFRSF13B (tumor necrosis factor receptor superfamily, member 13B) rs7501462 in patients with endometrioid EOC (HR 0.68, 95% CI 0.56–0.82, p=2.33×10−5). Other associations of note included TRAF2 (TNF receptor-associated factor 2) rs17250239 in patients with high-grade serous EOC (HR 0.84, 95% CI 0.77–0.92, p=6.49×10−5) and PLCG1 (phospholipase C, gamma 1) rs11696662 in patients with clear cell EOC (HR 0.43, 95% CI 0.26–0.73, p=4.56×10−4). These associations highlight the potential importance of genes associated with host inflammation and immunity in modulating clinical outcomes in distinct EOC histologies.

Published
2014
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9. Single Nucleotide Polymorphisms in the TP53 Region and Susceptibility to Invasive Epithelial Ovarian Cancer

Author

Schildkraut, J. M., Goode, E. L., Clyde, M. A., Iversen, E. S., Moorman, P. G., Berchuck, A., Marks, J. R., Lissowska, J., Brinton, L., Peplonska, B., Cunningham, J. M., Vierkant, R. A., Rider, D. N., Chenevix-Trench, G., Webb, P. M., Beesley, J., Chen, X., Phelan, C., Sutphen, R., Sellers, T. A., Pearce, L., Wu, A. H., Van Den Berg, D., Conti, D., Elund, C. K., Anderson, R., Goodman, M. T., Lurie, G., Carney, M. E., Thompson, P. J., Gayther, S. A., Ramus, S. J., Jacobs, I., Kruger Kjaer, S., Hogdall, E., Blaakaer, J., Hogdall, C., Easton, D. F., Song, H., Pharoah, P. D.P., Whittemore, A. S., McGuire, V., Quaye, L., Anton-Culver, H., Ziogas, A., Terry, Kathryn Lynne, Cramer, Daniel William, Hankinson, Susan Elizabeth, Tworoger, Shelley Slate, Calingaert, B., Chanock, S., Sherman, M., and Garcia-Closas, M.

Subjects
TP53, polymorphisms, ovarian cancer, epidemiology
Abstract

The p53 protein is critical for multiple cellular functions including cell growth and DNA repair. We assessed whether polymorphisms in the region encoding TP53 were associated with risk of invasive ovarian cancer. The study population includes a total of 5,206 invasive ovarian cancer cases (2,829 of which were serous) and 8,790 controls from 13 case-control or nested case-control studies participating in the Ovarian Cancer Association Consortium (OCAC). Three of the studies performed independent discovery investigations involving genotyping of up to 23 single nucleotide polymorphisms (SNPs) in the TP53 region. Significant findings from this discovery phase were followed up for replication in the other OCAC studies. Mixed effects logistic regression was used to generate posterior median per allele odds ratios (ORs), 95% probability intervals (PIs) and Bayes factors (BFs) for genotype associations. Five SNPs showed significant associations with risk in one or more of the discovery investigations and were followed up by OCAC. Mixed effects analysis confirmed associations with serous invasive cancers for two correlated (r2 = 0.62) SNPs: rs2287498 (median per allele OR = 1.30; 95% PI = 1.07-1.57) and rs12951053 (median per allele OR = 1.19; 95% PI = 1.01 - 1.38). Analyses of other histological subtypes suggested similar associations with endometrioid but not with mucinous or clear cell cancers. This large study provides statistical evidence for a small increase in risk of ovarian cancer associated with common variants in the TP53 region.

Published
2009
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