Towards Cell free Therapy of Premature Ovarian Insufficiency: Human Bone Marrow Mesenchymal Stem Cells Secretome Enhances Angiogenesis in Human Ovarian Microvascular Endothelial Cells.

Hang-Soo Park, Dalia Ashour, Amro Elsharoud, Rishi Man Chugh, Nahed Ismail, Abdeljabar El Andaloussi, Ayman Al-Hendy
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引用次数: 16

Abstract

Primary Ovarian Insufficiency (POI) refers to an ovarian loss of function in women under the age of 40. Unfortunately, currently, there is no effective treatment available for POI-related infertility. Alternatives such as the use of egg donations are culturally and ethically unacceptable to many couples. Human Bone marrow-derived Mesenchymal Stem Cells (MSCs) are known for their ability to differentiate into other cell types, once primed by the organ microenvironment. Importantly MSCs produce a vast array of bioactive factors many of them have been shown to enhance neovascularization in various tissues. Recently, preliminary data from our ongoing clinical trial revealed encouraging preliminary data after autologous MSC engraftment into the ovaries of 2 POI patients with durable elevation in serum estrogen levels and increase in size of treated ovaries sustained up to one-year post cell therapy. In this study, we investigated the action of the mechanisms of MSCs treatment on a POI ovary. We designed an in vitro study using MSC secretome and Human Ovarian Endothelial Cells (HOVECs) to understand the molecular mechanisms by which MSC mediates their angiogenic properties and regenerative effects. Human primary HOVECs were treatment with MSC secretome and examined by FACS for the expression of angiogenesis markers such as Endoglin, Tie-2, and VEGF. The formation of vessels was evaluated by using a 3D Matrigel tubulogenesis assay. We observed that the expression of proliferation marker Ki67 was significantly increased under treatment with MSC secretome in HOVEC cells (P4). MSCs secretome treatment also induced significantly higher expression of several angiogenic markers such as VEGFR2, Tie2/Tek, VE-Cadherin, Endoglin, and VEGF compared to matched control (P4). Furthermore, MSC secretome significantly increased the number of branching points in tubulogenesis assay (P4). Our study suggests that MSC secretome likely contains bioactive factors that can enhance ovarian angiogenesis. Further characterization of these factors can lead to novel therapeutic options for women with premature ovarian insufficiency and other related causes of female infertility.

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无细胞治疗卵巢早衰:人骨髓间充质干细胞分泌组促进人卵巢微血管内皮细胞血管生成。
原发性卵巢功能不全(POI)是指40岁以下女性卵巢功能丧失。不幸的是,目前对于poi相关的不孕症没有有效的治疗方法。许多夫妇在文化和道德上都无法接受其他选择,比如使用卵子捐赠。人骨髓来源的间充质干细胞(MSCs)一旦被器官微环境激活,就能分化成其他类型的细胞。重要的是,间充质干细胞产生大量的生物活性因子,其中许多已被证明可以增强各种组织的新生血管。最近,我们正在进行的临床试验的初步数据显示了令人鼓舞的初步数据,在2例POI患者的卵巢中植入自体MSC后,血清雌激素水平持续升高,治疗后卵巢大小增加,持续长达一年的细胞治疗后。在这项研究中,我们研究了MSCs治疗对POI卵巢的作用机制。我们设计了一项利用间充质干细胞分泌组和人卵巢内皮细胞(HOVECs)的体外研究,以了解间充质干细胞介导其血管生成特性和再生作用的分子机制。用MSC分泌组治疗人原代HOVECs,并通过流式细胞仪检测血管生成标志物(如Endoglin、Tie-2和VEGF)的表达。血管的形成是通过使用3D Matrigel小管形成试验来评估的。我们观察到MSC分泌组在HOVEC细胞中增殖标志物Ki67的表达显著增加(P4)。与对照组相比,MSCs分泌组处理还诱导了几种血管生成标志物的显著表达,如VEGFR2、Tie2/Tek、VE-Cadherin、Endoglin和VEGF (P4)。此外,在微管形成实验中,MSC分泌组显著增加了分支点的数量(P4)。我们的研究表明MSC分泌组可能含有促进卵巢血管生成的生物活性因子。这些因素的进一步表征可以为卵巢功能不全和其他相关原因的女性不孕提供新的治疗选择。
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