Polymorphisms in the vitamin D receptor gene, ultraviolet radiation, and susceptibility to prostate cancer

Polymorphisms in the vitamin D receptor gene, ultraviolet radiation, and susceptibility to prostate cancer

Ultraviolet radiation (UVR) exposure may protect against prostate cancer development via a mechanism involving vitamin D. The vitamin D receptor (VDR) gene is therefore a candidate susceptibility factor for prostate cancer. This possibility has been previously investigated with conflicting results....

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Published in:Environmental and molecular mutagenesis Vol. 43; no. 2; pp. 121 - 127
Main Authors: Bodiwala, Dhaval, Luscombe, Christopher J., French, Michael E., Liu, Samson, Saxby, Mark F., Jones, Peter W., Fryer, Anthony A., Strange, Richard C.
Format: Journal Article
Language:English
Published: Hoboken Wiley Subscription Services, Inc., A Wiley Company 2004
Wiley-Liss
Subjects:
Biological and medical sciences
Cell receptors
Cell structures and functions
Disease Susceptibility
Fundamental and applied biological sciences. Psychology
Genetics of eukaryotes. Biological and molecular evolution
Genotype
Humans
Male
Medical sciences
Miscellaneous
Molecular and cellular biology
Polymorphism, Genetic
prostate cancer
prostate cancer susceptibility
Prostatic Hyperplasia - genetics
Prostatic Neoplasms - genetics
Receptors, Calcitriol - genetics
Risk Factors
Toxicology
ultraviolet radiation
Ultraviolet Rays - adverse effects
vitamin D receptor
Ultraviolet radiation
Toxicology
prostate cancer
Gene
Vitamin D
prostate cancer susceptibility
Genetics
vitamin D receptor
Prostate
Polymorphism
Biological receptor
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Abstract Ultraviolet radiation (UVR) exposure may protect against prostate cancer development via a mechanism involving vitamin D. The vitamin D receptor (VDR) gene is therefore a candidate susceptibility factor for prostate cancer. This possibility has been previously investigated with conflicting results. We examined the association of VDR genotypes (variants at the CDX‐2, Fok1, and Taq1 sites), haplotypes, and genotype combinations with risk by studying 368 prostate cancer and 243 benign prostatic hypertrophy (BPH) patients. CDX‐2, Fok1, and Taq1 genotype and haplotype frequencies were not significantly different in cancer and BPH patients. As the impact of VDR polymorphisms may depend on UVR exposure, we studied associations of variants with risk in men stratified into low (below median) and high (above median) cumulative exposure/year groups. In men with UVR exposure above the median (1,100 hr/year), CDX‐2 GA and AA (odds ratios [OR] = 2.11 and 2.02, respectively) and Fok1 ff (OR = 2.91) were associated with increased prostate cancer risk. No associations were observed for Taq1 genotypes. Of the genotype combinations, relative to all other CDX‐2 and Taq1 and combinations, GGTT (P = 0.022, OR = 0.30), and relative to all other Fok1 and Taq1 combinations, FFTT (P = 0.026, OR = 0.35) were associated with reduced prostate cancer risk in the presence of the main effects. None of the other two‐ or three‐genotype combinations was associated with risk. These data indicate that VDR variants influence prostate cancer risk and that this association is dependent on the extent of UVR exposure. Environ. Mol. Mutagen. 43:121–127, 2004. © 2004 Wiley‐Liss, Inc.
AbstractList Ultraviolet radiation (UVR) exposure may protect against prostate cancer development via a mechanism involving vitamin D. The vitamin D receptor ( VDR ) gene is therefore a candidate susceptibility factor for prostate cancer. This possibility has been previously investigated with conflicting results. We examined the association of VDR genotypes (variants at the CDX‐2 , Fok 1, and Taq 1 sites), haplotypes, and genotype combinations with risk by studying 368 prostate cancer and 243 benign prostatic hypertrophy (BPH) patients. CDX‐2 , Fok 1, and Taq 1 genotype and haplotype frequencies were not significantly different in cancer and BPH patients. As the impact of VDR polymorphisms may depend on UVR exposure, we studied associations of variants with risk in men stratified into low (below median) and high (above median) cumulative exposure/year groups. In men with UVR exposure above the median (1,100 hr/year), CDX‐2 GA and AA (odds ratios [OR] = 2.11 and 2.02, respectively) and Fok 1 ff (OR = 2.91) were associated with increased prostate cancer risk. No associations were observed for Taq 1 genotypes. Of the genotype combinations, relative to all other CDX‐2 and Taq 1 and combinations, GGTT ( P = 0.022, OR = 0.30), and relative to all other Fok 1 and Taq 1 combinations, FFTT ( P = 0.026, OR = 0.35) were associated with reduced prostate cancer risk in the presence of the main effects. None of the other two‐ or three‐genotype combinations was associated with risk. These data indicate that VDR variants influence prostate cancer risk and that this association is dependent on the extent of UVR exposure. Environ. Mol. Mutagen. 43:121–127, 2004. © 2004 Wiley‐Liss, Inc.
Ultraviolet radiation (UVR) exposure may protect against prostate cancer development via a mechanism involving vitamin D. The vitamin D receptor (VDR) gene is therefore a candidate susceptibility factor for prostate cancer. This possibility has been previously investigated with conflicting results. We examined the association of VDR genotypes (variants at the CDX‐2, Fok1, and Taq1 sites), haplotypes, and genotype combinations with risk by studying 368 prostate cancer and 243 benign prostatic hypertrophy (BPH) patients. CDX‐2, Fok1, and Taq1 genotype and haplotype frequencies were not significantly different in cancer and BPH patients. As the impact of VDR polymorphisms may depend on UVR exposure, we studied associations of variants with risk in men stratified into low (below median) and high (above median) cumulative exposure/year groups. In men with UVR exposure above the median (1,100 hr/year), CDX‐2 GA and AA (odds ratios [OR] = 2.11 and 2.02, respectively) and Fok1 ff (OR = 2.91) were associated with increased prostate cancer risk. No associations were observed for Taq1 genotypes. Of the genotype combinations, relative to all other CDX‐2 and Taq1 and combinations, GGTT (P = 0.022, OR = 0.30), and relative to all other Fok1 and Taq1 combinations, FFTT (P = 0.026, OR = 0.35) were associated with reduced prostate cancer risk in the presence of the main effects. None of the other two‐ or three‐genotype combinations was associated with risk. These data indicate that VDR variants influence prostate cancer risk and that this association is dependent on the extent of UVR exposure. Environ. Mol. Mutagen. 43:121–127, 2004. © 2004 Wiley‐Liss, Inc.
Ultraviolet radiation (UVR) exposure may protect against prostate cancer development via a mechanism involving vitamin D. The vitamin D receptor (VDR) gene is therefore a candidate susceptibility factor for prostate cancer. This possibility has been previously investigated with conflicting results. We examined the association of VDR genotypes (variants at the CDX-2, Fok1, and Taq1 sites), haplotypes, and genotype combinations with risk by studying 368 prostate cancer and 243 benign prostatic hypertrophy (BPH) patients. CDX-2, Fok1, and Taq1 genotype and haplotype frequencies were not significantly different in cancer and BPH patients. As the impact of VDR polymorphisms may depend on UVR exposure, we studied associations of variants with risk in men stratified into low (below median) and high (above median) cumulative exposure/year groups. In men with UVR exposure above the median (1,100 hr/year), CDX-2 GA and AA (odds ratios [OR] = 2.11 and 2.02, respectively) and Fok1 ff (OR = 2.91) were associated with increased prostate cancer risk. No associations were observed for Taq1 genotypes. Of the genotype combinations, relative to all other CDX-2 and Taq1 and combinations, GGTT (P = 0.022, OR = 0.30), and relative to all other Fok1 and Taq1 combinations, FFTT (P = 0.026, OR = 0.35) were associated with reduced prostate cancer risk in the presence of the main effects. None of the other two- or three-genotype combinations was associated with risk. These data indicate that VDR variants influence prostate cancer risk and that this association is dependent on the extent of UVR exposure.
Author Fryer, Anthony A.
Strange, Richard C.
French, Michael E.
Bodiwala, Dhaval
Saxby, Mark F.
Jones, Peter W.
Luscombe, Christopher J.
Liu, Samson
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  surname: Luscombe
  fullname: Luscombe, Christopher J.
  organization: Department of Urology, North Staffordshire Hospital, Staffordshire, England
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  organization: Department of Urology, North Staffordshire Hospital, Staffordshire, England
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  organization: Department of Urology, North Staffordshire Hospital, Staffordshire, England
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  surname: Saxby
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  organization: Department of Urology, North Staffordshire Hospital, Staffordshire, England
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  surname: Fryer
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  organization: Human Genomics Research Group, Institute of Science and Technology in Medicine, Keele University Medical School, Hartshill Campus, University Hospital of North Staffordshire, Staffordshire, England
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  givenname: Richard C.
  surname: Strange
  fullname: Strange, Richard C.
  email: paa00@keele.ac.uk
  organization: Human Genomics Research Group, Institute of Science and Technology in Medicine, Keele University Medical School, Hartshill Campus, University Hospital of North Staffordshire, Staffordshire, England
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Issue 2
Keywords Ultraviolet radiation
Toxicology
prostate cancer
Gene
Vitamin D
prostate cancer susceptibility
Genetics
vitamin D receptor
Prostate
Polymorphism
Biological receptor
Language English
License CC BY 4.0
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Snippet Ultraviolet radiation (UVR) exposure may protect against prostate cancer development via a mechanism involving vitamin D. The vitamin D receptor (VDR) gene is...
Ultraviolet radiation (UVR) exposure may protect against prostate cancer development via a mechanism involving vitamin D. The vitamin D receptor ( VDR ) gene...
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SubjectTerms Biological and medical sciences
Cell receptors
Cell structures and functions
Disease Susceptibility
Fundamental and applied biological sciences. Psychology
Genetics of eukaryotes. Biological and molecular evolution
Genotype
Humans
Male
Medical sciences
Miscellaneous
Molecular and cellular biology
Polymorphism, Genetic
prostate cancer
prostate cancer susceptibility
Prostatic Hyperplasia - genetics
Prostatic Neoplasms - genetics
Receptors, Calcitriol - genetics
Risk Factors
Toxicology
ultraviolet radiation
Ultraviolet Rays - adverse effects
vitamin D receptor
Title Polymorphisms in the vitamin D receptor gene, ultraviolet radiation, and susceptibility to prostate cancer
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https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fem.20000
https://www.ncbi.nlm.nih.gov/pubmed/14991752
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