胰岛素样生长因子系统对黄体生成血管的影响。

Chinwe U Nwachukwu, Robert S Robinson, Kathryn J Woad
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引用次数: 0

摘要

排卵前卵泡的生长和黄体过渡期需要大量的血管生成。这样才能使孕酮的分泌增加到足以支持怀孕的程度。卵泡或黄体血管生成不足会导致卵巢功能减退,从而影响生育能力。胰岛素样生长因子1(IGF1)和IGF2调节卵巢的多个过程,是动物生殖和代谢状态之间的关键环节。本研究调查了 IGF 系统在体外调节黄体化卵泡内皮细胞(EC)网络和孕酮分泌中的作用。在有或没有 LR3-IGF1、IGF2 或 LR3-IGF1+IGF2 组合(10ng/ml)的条件下,用 1) LR3-IGF1(10 或 100ng/ml)处理牛黄体化卵泡血管生成培养物,或用 2) IGF1 受体抑制剂(苦茶碱(PPP);1µM)处理牛黄体化卵泡血管生成培养物。通过 von Willebrand 因子免疫组化对心血管细胞网络进行量化。通过酶联免疫吸附分析了孕酮的产生情况,并通过 MTT 试验确定了细胞的增殖情况。LR3-IGF1 对心肌细胞生长参数的影响有限,而 PPP(p
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effect of insulin-like growth factor system on luteinising angiogenesis.

Effect of insulin-like growth factor system on luteinising angiogenesis.

Effect of insulin-like growth factor system on luteinising angiogenesis.

Effect of insulin-like growth factor system on luteinising angiogenesis.

Preovulatory follicle growth and the luteal transition requires intense angiogenesis. This enables progesterone production to increase sufficiently to support a pregnancy. Inadequate follicular or luteal vascularisation can lead to reduced ovarian function and thus compromise fertility. Insulin-like growth factor 1 (IGF1) and IGF2 regulate multiple ovarian processes and are key links between an animal's reproductive and metabolic status. This study investigated the role that the IGF system plays in regulating luteinising follicular endothelial cell (EC) networks and progesterone production in vitro. Bovine luteinising follicular angiogenesis cultures were treated with 1) LR3-IGF1 (10 or 100ng/ml) under basal and angiogenic-stimulated conditions or 2) IGF1 receptor inhibitor (picropodophyllin (PPP); 1µM) in the presence or absence of LR3-IGF1, IGF2, or combined LR3-IGF1+IGF2 (10ng/ml). EC networks were quantified by von Willebrand factor immunohistochemistry. Progesterone production was analysed by ELISA and cell proliferation was determined by MTT assay. LR3-IGF1 had limited effects on EC growth parameters, whilst PPP (p<0.001) markedly reduced EC growth parameters (by 60-70%). Cell proliferation was slightly increased (by 3-5%) by LR3-IGF1 (p<0.001). LR3-IGF1 had variable effects on progesterone production, whilst PPP reduced progesterone concentration (p<0.001) with or without LR3-IGF1 or IGF2 alone or in combination. IGF1 was detected in cell conditioned media and was increased by LH (50ng/ml) (p<0.001). In conclusion, exogenous IGF1 and IGF2 had minimal effects on luteinising follicular angiogenesis and progesterone production, but the inhibitory effect of the IGFR1 inhibitor (PPP) suggests that IGF1 receptor signalling is critical for the development of EC networks and progesterone production in luteinising follicular cells.

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