Your search keyword '"Olama, Ali Amin Al"' showing total 7 results

1. Genomic analysis of male puberty timing highlights shared genetic basis with hair colour and lifespan.

Author

Hollis, Ben, Day, Felix R., Busch, Alexander S., Thompson, Deborah J., Soares, Ana Luiza G., Timmers, Paul R. H. J., Kwong, Alex, Easton, Doug F., Joshi, Peter K., Timpson, Nicholas J., The PRACTICAL Consortium, Eeles, Rosalind A., Henderson, Brian E., Haiman, Christopher A., Kote-Jarai, Zsofia, Schumacher, Fredrick R., Olama, Ali Amin Al, Benlloch, Sara, Muir, Kenneth, and Berndt, Sonja I.

Subjects

PUBERTY, TIMESHARE (Real estate), MENARCHE, PITUITARY hormones, HAIR, HUMAN hair color

Abstract

The timing of puberty is highly variable and is associated with long-term health outcomes. To date, understanding of the genetic control of puberty timing is based largely on studies in women. Here, we report a multi-trait genome-wide association study for male puberty timing with an effective sample size of 205,354 men. We find moderately strong genomic correlation in puberty timing between sexes (rg = 0.68) and identify 76 independent signals for male puberty timing. Implicated mechanisms include an unexpected link between puberty timing and natural hair colour, possibly reflecting common effects of pituitary hormones on puberty and pigmentation. Earlier male puberty timing is genetically correlated with several adverse health outcomes and Mendelian randomization analyses show a genetic association between male puberty timing and shorter lifespan. These findings highlight the relationships between puberty timing and health outcomes, and demonstrate the value of genetic studies of puberty timing in both sexes. Age at voice-breaking is used to determine puberty timing in men, recall of which is considered less accurate than age at first menarche in women. Here, the authors perform multi-trait GWAS for male puberty timing by including both age at voice breaking and age of first facial hair for improved phenotype definition and power. [ABSTRACT FROM AUTHOR]

Published

2020

2. Height, selected genetic markers and prostate cancer risk: results from the PRACTICAL consortium.

Author

Lophatananon, Artitaya, Stewart-Brown, Sarah, Kote-Jarai, Zsofia, Olama, Ali Amin Al, Garcia, Sara Benlloch, Neal, David E, Hamdy, Freddie C, Donovan, Jenny L, Giles, Graham G, Fitzgerald, Liesel M, Southey, Melissa C, Pharoah, Paul, Pashayan, Nora, Gronberg, Henrik, Wiklund, Fredrik, Aly, Markus, Stanford, Janet L, Brenner, Hermann, Dieffenbach, Aida K, and Arndt, Volker

Subjects

GENETIC polymorphisms, PROSTATE tumors, RESEARCH funding, RISK assessment, STATURE, PHENOTYPES, CASE-control method, TUMOR grading

Abstract

Background: Evidence on height and prostate cancer risk is mixed, however, recent studies with large data sets support a possible role for its association with the risk of aggressive prostate cancer.Methods: We analysed data from the PRACTICAL consortium consisting of 6207 prostate cancer cases and 6016 controls and a subset of high grade cases (2480 cases). We explored height, polymorphisms in genes related to growth processes as main effects and their possible interactions.Results: The results suggest that height is associated with high-grade prostate cancer risk. Men with height >180 cm are at a 22% increased risk as compared to men with height <173 cm (OR 1.22, 95% CI 1.01-1.48). Genetic variants in the growth pathway gene showed an association with prostate cancer risk. The aggregate scores of the selected variants identified a significantly increased risk of overall prostate cancer and high-grade prostate cancer by 13% and 15%, respectively, in the highest score group as compared to lowest score group.Conclusions: There was no evidence of gene-environment interaction between height and the selected candidate SNPs.Our findings suggest a role of height in high-grade prostate cancer. The effect of genetic variants in the genes related to growth is seen in all cases and high-grade prostate cancer. There is no interaction between these two exposures. [ABSTRACT FROM AUTHOR]

Published

2017

3. Gene and pathway level analyses of germline DNA-repair gene variants and prostate cancer susceptibility using the iCOGS-genotyping array.

Author

Saunders, Edward J, Dadaev, Tokhir, Leongamornlert, Daniel A, Olama, Ali Amin Al, Benlloch, Sara, Giles, Graham G, Wiklund, Fredrik, Grönberg, Henrik, Haiman, Christopher A, Schleutker, Johanna, Nordestgaard, Børge G, Travis, Ruth C, Neal, David, Pasayan, Nora, Khaw, Kay-Tee, Stanford, Janet L, Blot, William J, Thibodeau, Stephen N, Maier, Christiane, and Kibel, Adam S

Subjects

DISEASE susceptibility, DNA, ENZYMES, GENETIC polymorphisms, LONGITUDINAL method, GENETIC mutation, PROSTATE tumors, PROTEINS, RESEARCH funding, DNA-binding proteins, BRCA genes, RELATIVE medical risk, CASE-control method, SEQUENCE analysis, GENOTYPES, CELL cycle proteins

Abstract

Background: Germline mutations within DNA-repair genes are implicated in susceptibility to multiple forms of cancer. For prostate cancer (PrCa), rare mutations in BRCA2 and BRCA1 give rise to moderately elevated risk, whereas two of B100 common, low-penetrance PrCa susceptibility variants identified so far by genome-wide association studies implicate RAD51B and RAD23B.Methods: Genotype data from the iCOGS array were imputed to the 1000 genomes phase 3 reference panel for 21 780 PrCa cases and 21 727 controls from the Prostate Cancer Association Group to Investigate Cancer Associated Alterations in the Genome (PRACTICAL) consortium. We subsequently performed single variant, gene and pathway-level analyses using 81 303 SNPs within 20 Kb of a panel of 179 DNA-repair genes.Results: Single SNP analyses identified only the previously reported association with RAD51B. Gene-level analyses using the SKAT-C test from the SNP-set (Sequence) Kernel Association Test (SKAT) identified a significant association with PrCa for MSH5. Pathway-level analyses suggested a possible role for the translesion synthesis pathway in PrCa risk and Homologous recombination/Fanconi Anaemia pathway for PrCa aggressiveness, even though after adjustment for multiple testing these did not remain significant.Conclusions: MSH5 is a novel candidate gene warranting additional follow-up as a prospective PrCa-risk locus. MSH5 has previously been reported as a pleiotropic susceptibility locus for lung, colorectal and serous ovarian cancers. [ABSTRACT FROM AUTHOR]

Published

2016

4. Identification of 23 new prostate cancer susceptibility loci using the iCOGS custom genotyping array.

Author

Eeles, Rosalind A, Haiman, Christopher A, Schumacher, Fredrick, Henderson, Brian E, Ingles, Sue A, Le Marchand, Loic, Lindstrom, Sara, Kraft, Peter, Hunter, David J, Gapstur, Susan, Chanock, Stephen J, Berndt, Sonja I, Albanes, Demetrius, Andriole, Gerald, Schleutker, Johanna, Weischer, Maren, Canzian, Federico, Campa, Daniele, Olama, Ali Amin Al, and Benlloch, Sara

Subjects

PROSTATE cancer risk factors, DISEASE susceptibility, GENOTYPES, LOCUS (Genetics), SINGLE nucleotide polymorphisms

Abstract

Prostate cancer is the most frequently diagnosed cancer in males in developed countries. To identify common prostate cancer susceptibility alleles, we genotyped 211,155 SNPs on a custom Illumina array (iCOGS) in blood DNA from 25,074 prostate cancer cases and 24,272 controls from the international PRACTICAL Consortium. Twenty-three new prostate cancer susceptibility loci were identified at genome-wide significance (P < 5 × 10−8). More than 70 prostate cancer susceptibility loci, explaining ∼30% of the familial risk for this disease, have now been identified. On the basis of combined risks conferred by the new and previously known risk loci, the top 1% of the risk distribution has a 4.7-fold higher risk than the average of the population being profiled. These results will facilitate population risk stratification for clinical studies. [ABSTRACT FROM AUTHOR]

Published

2013

5. Multiple newly identified loci associated with prostate cancer susceptibility.

Author

Eeles, Rosalind A, Kote-Jarai, Zsofia, Giles, Graham G, Olama, Ali Amin Al, Guy, Michelle, Jugurnauth, Sarah K, Mulholland, Shani, Leongamornlert, Daniel A, Edwards, Stephen M, Morrison, Jonathan, Field, Helen I, Southey, Melissa C, Severi, Gianluca, Donovan, Jenny L, Hamdy, Freddie C, Dearnaley, David P, Muir, Kenneth R, Smith, Charmaine, Bagnato, Melisa, and Ardern-Jones, Audrey T

Subjects

PROSTATE cancer, CANCER genetics, GENOMICS, GENOMES, GENETICS

Abstract

Prostate cancer is the most common cancer affecting males in developed countries. It shows consistent evidence of familial aggregation, but the causes of this aggregation are mostly unknown. To identify common alleles associated with prostate cancer risk, we conducted a genome-wide association study (GWAS) using blood DNA samples from 1,854 individuals with clinically detected prostate cancer diagnosed at ≤60 years or with a family history of disease, and 1,894 population-screened controls with a low prostate-specific antigen (PSA) concentration (<0.5 ng/ml). We analyzed these samples for 541,129 SNPs using the Illumina Infinium platform. Initial putative associations were confirmed using a further 3,268 cases and 3,366 controls. We identified seven loci associated with prostate cancer on chromosomes 3, 6, 7, 10, 11, 19 and X (P = 2.7 × 10−8 to P = 8.7 × 10−29). We confirmed previous reports of common loci associated with prostate cancer at 8q24 and 17q. Moreover, we found that three of the newly identified loci contain candidate susceptibility genes: MSMB, LMTK2 and KLK3. [ABSTRACT FROM AUTHOR]

Published

2008

6. Author Correction: Germline variation at 8q24 and prostate cancer risk in men of European ancestry.

Author

Matejcic, Marco, Saunders, Edward J., Dadaev, Tokhir, Brook, Mark N., Wang, Kan, Sheng, Xin, Olama, Ali Amin Al, Schumacher, Fredrick R., Ingles, Sue A., Govindasami, Koveela, Benlloch, Sara, Berndt, Sonja I., Albanes, Demetrius, Koutros, Stella, Muir, Kenneth, Stevens, Victoria L., Gapstur, Susan M., Tangen, Catherine M., Batra, Jyotsna, and Clements, Judith

Abstract

The original version of this Article contained an error in the spelling of the author Manuela Gago-Dominguez, which was incorrectly given as Manuela G. Dominguez. This has now been corrected in both the PDF and HTML versions of the Article. [ABSTRACT FROM AUTHOR]

Published

2019

7. Germline variation at 8q24 and prostate cancer risk in men of European ancestry.

Author

Matejcic, Marco, Saunders, Edward J., Dadaev, Tokhir, Brook, Mark N., Wang, Kan, Sheng, Xin, Olama, Ali Amin Al, Schumacher, Fredrick R., Ingles, Sue A., Govindasami, Koveela, Benlloch, Sara, Berndt, Sonja I., Albanes, Demetrius, Koutros, Stella, Muir, Kenneth, Stevens, Victoria L., Gapstur, Susan M., Tangen, Catherine M., Batra, Jyotsna, and Clements, Judith

Abstract

Chromosome 8q24 is a susceptibility locus for multiple cancers, including prostate cancer. Here we combine genetic data across the 8q24 susceptibility region from 71,535 prostate cancer cases and 52,935 controls of European ancestry to define the overall contribution of germline variation at 8q24 to prostate cancer risk. We identify 12 independent risk signals for prostate cancer (p < 4.28 × 10−15), including three risk variants that have yet to be reported. From a polygenic risk score (PRS) model, derived to assess the cumulative effect of risk variants at 8q24, men in the top 1% of the PRS have a 4-fold (95%CI = 3.62-4.40) greater risk compared to the population average. These 12 variants account for ~25% of what can be currently explained of the familial risk of prostate cancer by known genetic risk factors. These findings highlight the overwhelming contribution of germline variation at 8q24 on prostate cancer risk which has implications for population risk stratification. Chromosome 8q24 is known to be a major susceptibility region for prostate cancer risk. Here the authors analyze genetic data across the 8q24 region from 71,535 prostate cancer patients identifying 12 risk loci, three previously unreported, highlighting the contribution of germline variation at this locus. [ABSTRACT FROM AUTHOR]

Published

2018