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Literature DB >> 18524946

Endocrine disruptors and prostate cancer risk.

Abstract

There is increasing evidence both from epidemiology studies and animal models that specific endocrine-disrupting compounds may influence the development or progression of prostate cancer. In large part, these effects appear to be linked to interference with estrogen signaling, either through interacting with ERs or by influencing steroid metabolism and altering estrogen levels within the body. In humans, epidemiologic evidence links specific pesticides, PCBs and inorganic arsenic exposures to elevated prostate cancer risk. Studies in animal models also show augmentation of prostate carcinogenesis with several other environmental estrogenic compounds including cadmium, UV filters and BPA. Importantly, there appears to be heightened sensitivity of the prostate to these endocrine disruptors during the critical developmental windows including in utero and neonatal time points as well as during puberty. Thus infants and children may be considered a highly susceptible population for ED exposures and increased risk of prostate cancers with aging.

Entities: Chemical Disease Species

Mesh：

Substances：

Year: 2008 PMID： 18524946 PMCID： PMC2822396 DOI： 10.1677/ERC-08-0043

Source DB: PubMed Journal: Endocr Relat Cancer ISSN： 1351-0088 Impact factor: 5.678

73 in total

Review 1. The role of estrogens and estrogen receptors in normal prostate growth and disease.

Authors: Gail S Prins; Kenneth S Korach
Journal: Steroids Date: 2007-11-12 Impact factor: 2.668

Review 2. Perinatal exposure to oestradiol and bisphenol A alters the prostate epigenome and increases susceptibility to carcinogenesis.

Authors: Gail S Prins; Wan-Yee Tang; Jessica Belmonte; Shuk-Mei Ho
Journal: Basic Clin Pharmacol Toxicol Date: 2008-02 Impact factor: 4.080

3. Detection of cytochrome P450 mRNA transcripts in prostate samples by RT-PCR.

Authors: N Finnström; C Bjelfman; T G Söderström; G Smith; L Egevad; B J Norlén; C R Wolf; A Rane
Journal: Eur J Clin Invest Date: 2001-10 Impact factor: 4.686

4. Use of agricultural pesticides and prostate cancer risk in the Agricultural Health Study cohort.

Authors: Michael C R Alavanja; Claudine Samanic; Mustafa Dosemeci; Jay Lubin; Robert Tarone; Charles F Lynch; Charles Knott; Kent Thomas; Jane A Hoppin; Joseph Barker; Joseph Coble; Dale P Sandler; Aaron Blair
Journal: Am J Epidemiol Date: 2003-05-01 Impact factor: 4.897

5. Organochlorines and risk of prostate cancer.

Authors: Justine M Ritchie; Scott L Vial; Laurence J Fuortes; Haijun Guo; Victoria E Reedy; Elaine M Smith
Journal: J Occup Environ Med Date: 2003-07 Impact factor: 2.162

6. Toremifene increases bone mineral density in men receiving androgen deprivation therapy for prostate cancer: interim analysis of a multicenter phase 3 clinical study.

Authors: M R Smith; S B Malkowicz; F Chu; J Forrest; D Price; P Sieber; K G Barnette; D Rodriguez; M S Steiner
Journal: J Urol Date: 2007-11-14 Impact factor: 7.450

7. Electromagnetic fields, polychlorinated biphenyls, and prostate cancer mortality in electric utility workers.

Authors: Luenda E Charles; Dana Loomis; Carl M Shy; Beth Newman; Robert Millikan; Leena A Nylander-French; David Couper
Journal: Am J Epidemiol Date: 2003-04-15 Impact factor: 4.897

8. Constitutive and inducible expression of cytochromes P4501A (CYP1A1 and CYP1A2) in normal prostate and prostate cancer cells.

Authors: Kenneth M Sterling; Kenneth R Cutroneo
Journal: J Cell Biochem Date: 2004-02-01 Impact factor: 4.429

9. Phase IIA clinical trial to test the efficacy and safety of Toremifene in men with high-grade prostatic intraepithelial neoplasia.

Authors: Mitchell S Steiner; Charlie R Pound
Journal: Clin Prostate Cancer Date: 2003-06

10. Exposure of the U.S. population to bisphenol A and 4-tertiary-octylphenol: 2003-2004.

Authors: Antonia M Calafat; Xiaoyun Ye; Lee-Yang Wong; John A Reidy; Larry L Needham
Journal: Environ Health Perspect Date: 2008-01 Impact factor: 9.031

46 in total

1. Central role for PELP1 in nonandrogenic activation of the androgen receptor in prostate cancer.

Authors: Lin Yang; Preethi Ravindranathan; Meera Ramanan; Payal Kapur; Stephen R Hammes; Jer-Tsong Hsieh; Ganesh V Raj
Journal: Mol Endocrinol Date: 2012-03-08

Review 2. Disruption of androgen receptor signaling in males by environmental chemicals.

Authors: Doug C Luccio-Camelo; Gail S Prins
Journal: J Steroid Biochem Mol Biol Date: 2011-04-13 Impact factor: 4.292

3. Cancer incidence among Swedish pulp and paper mill workers: a cohort study of sulphate and sulphite mills.

Authors: Eva Andersson; Håkan Westberg; Ing-Liss Bryngelsson; Anders Magnuson; Bodil Persson
Journal: Int Arch Occup Environ Health Date: 2012-05-29 Impact factor: 3.015

Review 4. Cosmetics as endocrine disruptors: are they a health risk?

Authors: Polyxeni Nicolopoulou-Stamati; Luc Hens; Annie J Sasco
Journal: Rev Endocr Metab Disord Date: 2015-12 Impact factor: 6.514

5. Exposure to ethinylestradiol during prenatal development and postnatal supplementation with testosterone causes morphophysiological alterations in the prostate of male and female adult gerbils.

Authors: Ana Paula Silva Perez; Manoel Francisco Biancardi; Rejane Maira Góes; Fernanda Alcântara dos Santos; Sebastião Roberto Taboga
Journal: Int J Exp Pathol Date: 2011-02-12 Impact factor: 1.925