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Query: UMLS:C0277787 (
stigma
)
13,352
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ovarian surface epithelial cells have been implicated in the genesis of common ovarian cancers. The integrity of DNA of ovarian surface epithelial cells contiguous with the ovulatory
stigma
becomes compromised during the rupture process; most cells degenerate by apoptosis, however some, bearing sublethal lesions, persist along the margins of ovulated follicles. Clonal expansion of a genetically-damaged surface epithelial cell (i.e. with unrepaired DNA, but not committed to death) can presumably give rise to
ovarian carcinoma
. It was hypothesized that estradiol and progesterone regulate ovarian surface epithelial cell-cycle dynamics associated with folliculo-luteal transitions and ovulatory wound repair/remodeling. Progesterone up-regulated the tumor suppressor p53 and inhibited baseline and estradiol-stimulated proliferation of cultured sheep ovarian surface epithelial cells. Anti/mitotic responses to steroid hormones were transcriptionally- and receptor-dependent. Rates of apoptosis (DNA fragmentation) were unaffected by progesterone. High concentrations of estradiol, via a nongenomic (perhaps antioxidant) mechanism, suppressed basal and H(2)O(2)-induced apoptosis. We suggest that, progesterone serves to inhibit proliferation of ovarian surface epithelial cells throughout the luteal phase--providing the time (growth arrest) required to correct any metabolic disturbances to DNA that are perpetrated as an inevitable by-product of the ovulatory process. With luteolysis and dominance of an estrogenic preovulatory follicle the ovarian surface epithelium is then regenerated. Thus, it is conceivable that perturbations to the steroid hormonal milieu of ovarian cycles could be a predisposing factor for cancerous transformation of an ovarian surface epithelial cell.
...
PMID:Steroid hormonal regulation of proliferative, p53 tumor suppressor, and apoptotic responses of sheep ovarian surface epithelial cells. 1185 Jan 22
Although ovarian mechanisms of ovulation have been a subject of investigation for more than a century, essential regulatory pathways remain uncertain. A role for the ovarian surface epithelium in ovulation has recently been demonstrated. Ovarian surface epithelial cells in close contact with the apical wall of preovulatory ovine follicles secrete a urokinase-type plasminogen activator in response to surge concentrations of (locally delivered) gonadotrophins. Urokinase activates latent collagenases and stimulates release of tumour necrosis factor alpha from thecal endothelium. Tumour necrosis factor alpha progressively induces matrix metalloproteinase gene expression, apoptosis and inflammatory necrosis. Collagenolysis and cellular death are a prelude to
stigma
formation and ovarian rupture. Epithelium exfoliated from the dome of ovulatory follicles is replenished by generative stem cell replication and migration from the wound edges. Common
epithelial ovarian cancer
has been related to successive bouts of ovulation and mitosis. The integrity of the DNA of surface cells circumjacent to the ovarian rupture site is compromised during the ovulatory process. Clonal expansion of an epithelial cell with damaged (unrepaired) DNA is a putative factor in carcinogenesis. Ovarian cancer is a deadly insidious disease because typically it is asymptomatic until the malignancy has reached beyond the ovaries.
...
PMID:Roles of the ovarian surface epithelium in ovulation and carcinogenesis. 1205 28
A cause-effect relationship between ovulation and common (surface)
epithelial ovarian cancer
has been suspected for many years. The ovarian surface epithelium apparently becomes exposed to genotoxins that are generated during the ovulatory process. Intensive egg-laying hens readily develop ovarian carcinomatosis. Indeed, elevated levels of potentially mutagenic 8-oxo-guanine adducts were detected in avian ovarian epithelial cells isolated from the apical surfaces and perimeters of pre-and postovulatory follicles, respectively. Internucleosomal DNA fragmentation indicative of apoptosis was evident in ovarian surface epithelial cells associated with the formative site of ovulation (
stigma
line) and regressive ruptured follicles. It is conceivable that a genetically altered progenitor cell with unrepaired DNA but not committed to death (i.e., a unifocal "escape") could give rise to a transformed phenotype. Hence, the high rate of ovarian cancer in egg-laying hens could be the consequence of genomic damages to the ovarian surface epithelium associated with incessant ovulations, thereby increasing the likelihood of mutation and clonal expansion.
...
PMID:DNA damages in ovarian surface epithelial cells of ovulatory hens. 1595 73
The ovulatory process is extraordinary in that it constitutes a hormone-induced injury. Gonadotropin delivered via the follicular vascular wreath stimulates secretion of plasminogen activator by contiguous ovarian surface epithelial cells. A consequent elevation in interstitial plasmin activates collagenases and cleaves tumor necrosis factor alpha from its anchors on endothelium. Collagen fibril degradation and cellular death at the apex of the preovulatory follicle are hallmarks of impending ovulation. Follicular contractions rupture the weakened fabric at the apex, and the ovum, which has been disconnected from the underlying granulosa, is expelled; these components of the cascade are prostaglandin-mediated. Ovulation is required for fertility; unfortunately, it imparts a cancer risk to the ovarian surface epithelium. DNA-damaging reactive oxygen species are generated by inflammatory cells attracted into the vicinity of the ovulatory
stigma
. An ischemia-reperfusion flux coincident with ovulation and wound repair also contributes to genotoxicity. Potentially mutagenic lesions in DNA are normally reconciled by TP53 tumor suppressor-dependent cell-cycle arrest and base excision repair mechanisms; it is a unifocal escape that could be problematic.
Epithelial ovarian cancer
is a deadly insidious disease because it typically remains asymptomatic until it has metastasized to vital abdominal organs.
...
PMID:Mechanisms and pathobiology of ovulation. 2175 73
