Your search keyword '"Isaacs Sarah D"' showing total 5 results

1. Association Between Two Unlinked Loci at 8q24 and Prostate Cancer Risk Among European Americans

Author

Zheng, S. Lilly, primary, Sun, Jielin, additional, Cheng, Yu, additional, Li, Ge, additional, Hsu, Fang-Chi, additional, Zhu, Yi, additional, Chang, Bao-Li, additional, Liu, Wennuan, additional, Kim, Jin Woo, additional, Turner, Aubrey R., additional, Gielzak, Marta, additional, Yan, Guifang, additional, Isaacs, Sarah D., additional, Wiley, Kathleen E., additional, Sauvageot, Jurga, additional, Chen, Huann-Sheng, additional, Gurganus, Robin, additional, Mangold, Leslie A., additional, Trock, Bruce J., additional, Gronberg, Henrik, additional, Duggan, David, additional, Carpten, John D., additional, Partin, Alan W., additional, Walsh, Patrick C., additional, Xu, Jianfeng, additional, and Isaacs, William B., additional

Published

2007

2. Two Genome-wide Association Studies of Aggressive Prostate Cancer Implicate Putative Prostate Tumor Suppressor Gene DAB2IP.

Author

Duggan, David, Zheng, Siqun L., Knowlton, Michele, Benitez, Debbie, Dimitrov, Latchezar, Wiklund, Fredrik, Robbins, Christiane, Isaacs, Sarah D., Yu Cheng, Ge Li, Jielin Sun, Bao-Li Chang, Marovich, Leslie, Wiley, Kathleen E., Baiter, Katarina, Stattin, Par, Adami, Hans-Olov, Gielzak, Marta, Guifang Yan, and Sauvageot, Jurga

Subjects

PROSTATE cancer, GENETIC polymorphisms, TUMOR suppressor genes, PROSTATE cancer treatment

Abstract

Background The consistent finding of a genetic susceptibility to prostate cancer suggests that there are germline sequence variants predisposing individuals to this disease. These variants could be useful in screening and treatment. Methods We performed an exploratory genome-wide association scan in 498 men with aggressive prostate cancer and 494 control subjects selected from a population-based case-control study in Sweden. We combined the results of this scan with those for aggressive prostate cancer from the publicly available Cancer Genetic Markers of Susceptibility (CGEMS) Study. Single-nucleotide polymorphisms (SNPs) that showed statistically significant associations with the risk of aggressive prostate cancer based on two-sided allele tests were tested for their association with aggressive prostate cancer in two independent study populations composed of individuals of European or African American descent using one-sided tests and the genetic model (dominant or additive) associated with the lowest value in the exploratory study. Results Among the approximately 60000 SNPs that were common to our study and CGEMS, we identified seven that had a similar (positive or negative) and statistically significant (P<.01) association with the risk of aggressive prostate cancer in both studies. Analysis of the distribution of these SNPs among 1032 prostate cancer patients and 571 control subjects of European descent indicated that one, rs1571801, located in the DAB2IP gene, which encodes a novel Ras GTPase-activating protein and putative prostate tumor suppressor, was associated with aggressive prostate cancer (one-sided P value = .004). The association was also statistically significant in an African American study population that included 210 prostate cancer patients and 346 control subjects (one-sided P value = .02). Conclusion A genetic variant in DAB2IP may be associated with the risk of aggressive prostate cancer and should be evaluated further. [ABSTRACT FROM AUTHOR]

Published

2007

3. Association Between Two Unlinked Loci at 8q24 and Prostate Cancer Risk Among European Americans.

Author

Lilly Zheng, S., Jielin Sun, Yu Cheng, Ge Li, Fang-Chi Hsu, Yi Zhu, Bao-Li Chang, Wennuan Liu, Jin Woo Kim, Turner, Aubrey A., Gielzak, Marta, Guifang Yan, Isaacs, Sarah D., Wiley, Kathleen E., Sauvageot, Jurga, Huann-Sheng Chen, Gurganus, Robin, Mangold, Leslie A., Trock, Bruce J., and Gronberg, Henrik

Subjects

PROSTATE cancer risk factors, EUROPEAN Americans, GENETIC markers, HUMAN chromosomes, GENETIC polymorphisms, MEDICAL statistics, DISEASES

Abstract

Background Recent studies have provided evidence of associations between genetic markers at human chromosome 8q24 and an increased risk of prostate cancer. We examined whether multiple independent risk variants exist in this region and whether the strength of observed associations differs as a function of disease aggressiveness. Methods We evaluated associations between 18 single-nucleotide polymorphisms (SNPs) in a 1-Mb interval at 8q24 and the risk of prostate cancer among 1563 case patients (1017 of whom had high-grade [Gleason score ≥7] and/or non-organ-confined disease) and 576 control subjects of European American ancestry. Differences in genotype frequencies between case and control subjects were compared using logistic regression analysis, with adjustment for age, and the Wald chi-square test. All statistical tests were two-sided. Results We identified multiple SNPs in a 50-kb region (referred to as locus 1) that are in linkage disequilibrium with a previously reported risk-associated SNP at 8q24, rs1447295, but were more strongly associated with prostate cancer risk in our study population. We also identified a novel susceptibility SNP, rs6983267, at a second locus (locus 2) that is approximately 70 kb centromeric of rs1447295 and in linkage equilibrium with, and independent of, locus 1. Risk alleles at locus 2 were common in our study population (minor allele frequency -50%, 25% homozygous for risk-associated allele). Analysis of the National Cancer Institute's Cancer Genetic Markers of Susceptibility (CGEMS) prostate cancer association study database alone and in combination with our data provided further evidence for this second prostate cancer risk locus; in the combined analysis, the allele frequencies for rs6983267 differed statistically significantly between case patients and control subjects (P = 1.61 × 10-4). We also identified a third locus at 8q24, approximately 400 kb centromeric to locus 2, that was statistically significantly associated with prostate cancer risk in a combined analysis of our data and CGEMS study data (P= 6.8 × 101. A joint analysis of loci 1 and 2 indicated that 35% of the control subjects carried risk genotypes at one or both these loci; compared with men with the nonrisk genotype at both loci, men with risk genotypes at both loci had an odds ratio of prostate cancer of 2.68 (95% confidence interval [CI] = 1.62 to 4.43) and men with risk genotypes at either locus had an odds ratio of prostate cancer of 1.70 (95% CI = 1.39 to 2.07). Conclusions Three loci at 8q24 are independent genetic risk factors for prostate cancer. [ABSTRACT FROM AUTHOR]

Published

2007

4. Combined Genome-Wide Scan for Prostate Cancer Susceptibility Genes.

Author

Gillanders, Elizabeth M., Jianfeng Xu, Bao-li Chang, Lange, Ethan M., Wiklund, Fredrik, Bailey-Wilson, Joan E., Baffoe-Bonnie, Agnes, Jones, MaryPat, Gildea, Derek, Riedesel, Erica, Albertus, Julie, Isaacs, Sarah D., Wiley, Kathleen E., Mohai, Caroline E., Matikainen, Mika P., Taminela, Teuvo L. J., Zheng, S. Lilly, Brown, W. Mark, Rökman, Annika, and Carpten, John D.

Subjects

PROSTATE cancer & genetics, CANCER genetics, CANCER in men, DISEASE susceptibility, GENOMICS

Abstract

Background: Prostate cancer represents a substantial public health burden worldwide. It is the second leading cause of cancer death among men in the United States. A family history of the disease is among the most well-established risk factors for prostate cancer. Efforts to localize prostate cancer susceptibility alleles by using genetic linkage analysis methods have been hindered by genetic heterogeneity, incomplete penetrance, disease phenocopies, and the lack of DNA samples from parents of individuals with late-onset prostate cancer. Methods: We performed a combined genome-wide linkage analysis among 426 families from four existing hereditary prostate cancer (HPC) study populations to systematically search for prostate cancer susceptibility genes. To decrease the degree of locus heterogeneity, we analyzed subsets of families with similar clinical and demographic characteristics. Nonparametric multipoint linkage was the primary method of analysis. Results are presented as allele-sharing logarithm of the odds (LOD) scores, and all reported P values are two-sided. Results: The strongest evidence for prostate cancer linkage was found at chromosome region 17q22 (nonparametric multipoint Kong and Cox allele-sharing LOD score = 3.16 at marker D17S787; P = .00007). Stratified analyses revealed several additional chromosomal regions that are likely to segregate prostate cancer susceptibility genes among specific subsets of HPC families, including 15q11 among families with late-onset disease (allele-sharing LOD = 5.57 at marker D15S128; P < .00001) and 4q35 among families with four or more affected family members (allele-sharing LOD = 3.10 at marker D4S1615; P = .00008). Conclusion: Fine mapping studies to facilitate identification of prostate cancer susceptibility genes in these linked regions are warranted. [ABSTRACT FROM AUTHOR]

Published

2004

5. Risk of cancer in relatives of prostate cancer probands.

Author

Isaacs, Sarah D. and Kiemeney, Lambertus A.L.M

Subjects

*PROSTATE cancer & genetics, *CANCER risk factors, *GENETIC disorders

Abstract

Determines whether hereditary prostate cancer is associated with cancers at other sites and possibly other heritable cancer syndromes. Case-control families; Multiplex families; Poisson regression analysis of relative risks; Cancer occurrence.

Published

1995