黄体酮和黄体酮受体在癌症中的作用:近5年的进展。

IF 2.7 Q3 ENDOCRINOLOGY & METABOLISM
Jerome H Check, Diane L Check
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引用次数: 1

摘要

导说:各种核黄体酮受体(nPR)缺失的晚期癌症患者在接受PR调节剂米非司酮治疗后,其质量和寿命都有所提高,这可能是通过与膜PR (mPR)相互作用而起作用的。涵盖的领域:讨论了两种免疫调节蛋白,它们似乎在恶性肿瘤的增殖中发挥作用,无论恶性肿瘤的nPR是阳性还是阴性。这两个蛋白分别是黄体酮受体膜组分-1 (PGRMC-1)和黄体酮诱导阻断因子(PIBF)。PGRMC-1和亲本形式的PIBF都能增强肿瘤侵袭性,而90 kDa形式的PIBF的剪接变体抑制对癌细胞的免疫反应。专家意见:200- 300mg米非司酮后显著的临床改善可能与阻断PIBF有关。在低剂量使用时,米非司酮可能作为PGRMC-1蛋白的激动剂。米非司酮对nPR呈阳性的癌症可能效果较差因为nPR可能具有保护作用而阻断它可能会产生有害影响。基于这一假设模型,讨论了其他潜在治疗方案的发展,以提供更有效的治疗癌症。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The role of progesterone and the progesterone receptor in cancer: progress in the last 5 years.

Introduction: Patients with various advanced cancers devoid of nuclear progesterone receptors (nPR) have demonstrated increased quality and length of life when treated with the PR modulator mifepristone, which likely works by interacting with membrane PRs (mPR).

Areas covered: Two immunomodulatory proteins are discussed that seem to play a role in cancers that proliferate whether the malignant tumor is positive or negative for the nPR. These two proteins are the progesterone receptor membrane component-1 (PGRMC-1) and the progesterone-induced blocking factor (PIBF). Both PGRMC-1 and the parent form of PIBF foster increased tumor aggressiveness, whereas splice variants of the 90 kDa form of PIBF inhibit immune response against cancer cells.

Expert opinion: The marked clinical improvement following 200-300 mg of mifepristone is likely related to blocking PIBF. In the low dosage used, mifepristone likely acts as an agonist for PGRMC-1 protein. Mifepristone may be less effective for cancers positive for the nPR because the nPR may be protective and blocking it may have detrimental effects. Based on this hypothetical model, the development of other potential treatment options to provide even greater efficacy for treating cancer are discussed.

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来源期刊
Expert Review of Endocrinology & Metabolism
Expert Review of Endocrinology & Metabolism ENDOCRINOLOGY & METABOLISM-
CiteScore
4.80
自引率
0.00%
发文量
44
期刊介绍: Implicated in a plethora of regulatory dysfunctions involving growth and development, metabolism, electrolyte balances and reproduction, endocrine disruption is one of the highest priority research topics in the world. As a result, we are now in a position to better detect, characterize and overcome the damage mediated by adverse interaction with the endocrine system. Expert Review of Endocrinology and Metabolism (ISSN 1744-6651), provides extensive coverage of state-of-the-art research and clinical advancements in the field of endocrine control and metabolism, with a focus on screening, prevention, diagnostics, existing and novel therapeutics, as well as related molecular genetics, pathophysiology and epidemiology.
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