Oxidative Damage to DNA of Ovarian Surface Epithelial Cells Affected by Ovulation: Carcinogenic Implication and Chemoprevention

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ORIGINAL RESEARCH ARTICLE

Oxidative Damage to DNA of Ovarian Surface Epithelial Cells Affected by Ovulation: Carcinogenic Implication and Chemoprevention

William J. Murdoch^*^,1 and James F. Martinchick

^* Department of Animal Science and Reproductive Biology Program, University of Wyoming, Laramie, Wyoming 82071; and Department of Surgical Pathology, Ivinson Memorial Hospital, Laramie, Wyoming 82072

To whom requests for reprints should be addressed at ¹ Department of Animal Science, 1000 East University Avenue, University of Wyoming, Laramie, WY 82071. E-mail: wmurdoch{at}uwyo.edu.

The majority of cancers of the ovary are thought to originatefrom a surface epithelial cell perturbed by ovulation. Outgrowthof a follicle destined to ovulate brings it into appositionwith the ovarian epithelium. Ovarian surface cells are consequentlyexposed, within a limited diffusion radius, to inflammatoryagents and reactive oxidants generated during periovulatoryprocesses. Cells that overlie the formative site of follicularrupture suffer irreparable damages and undergo apoptosis. Potentiallymutagenic 8-oxoguanine modifications were detected in (surviving)cells circumjacent to postovulatory ovine and human follicles.It is conceivable that clonal expansion of a cell with unrepairedDNA, but not committed to death, could be an initiating factorin the etiology of malignancy, insofar as proliferative ovulatorywound-repair responses may propagate mutations. Since the prognosisfor ovarian cancer patients with invasive disease is so poor,and early detection has proven elusive, it is imperative thatprospective methods of chemo-prevention be explored. Ovulation-inducedoxidative base damages to the ovarian epithelium of ewes wereprevented by vitamin E. Oxoguanine adducts persisted and CA-125(a phenotype of metaplastic transformation) was expressed incultures of cells that were distressed by ovulation in whichp53 synthesis was inhibited. Vitamin E negated this reaction.Ovarian cyclicity and fertility were not altered in vitamin-treatedewes. A prophylactic benefit of a supplemental antioxidant issuggested in ‘‘ovulating’’ individualsdesignated at risk (e.g., due to a tumor suppressor malfunction)for the development of ovarian cancer.

Key Words: ovulation • oxidative DNA damage • epithelial ovarian cancer • vitamin E

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