排卵的机制和病理生物学。

W J Murdoch, C J Murphy, E A Van Kirk, Y Shen
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引用次数: 16

摘要

排卵过程是不寻常的,因为它构成了激素诱导的损伤。促性腺激素经卵泡血管环输送,刺激相邻卵巢表面上皮细胞分泌纤溶酶原激活剂。随之而来的间质纤溶酶升高激活胶原酶,并使肿瘤坏死因子α脱离其锚定在内皮上的位置。排卵前卵泡顶端的胶原纤维降解和细胞死亡是即将排卵的标志。卵泡收缩使顶端脆弱的组织破裂,与下层颗粒分离的卵子被排出;级联反应的这些组成部分是前列腺素介导的。排卵是生育所必需的;不幸的是,它会给卵巢表面上皮细胞带来癌症风险。损伤dna的活性氧是由炎性细胞吸引到排卵期柱头附近产生的。与排卵和伤口修复相一致的缺血再灌注通量也有助于遗传毒性。DNA中潜在的诱变损伤通常通过TP53肿瘤抑制因子依赖的细胞周期阻滞和碱基切除修复机制进行调解;这是一种可能有问题的单一逃逸。上皮性卵巢癌是一种致命的潜伏性疾病,因为它通常在转移到重要的腹部器官之前没有症状。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mechanisms and pathobiology of ovulation.

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.

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