Sun S G, Guo J J, Qu X Y, Tang X Y, Lin Y Y, Hua K Q, Qiu J J
Department of Gynecology, Obstetrics and Gynecology Hospital of Fudan University, Shanghai, China.
Department of Neurosurgery, Ren Ji Hospital, School of Medicine, Shanghai JiaoTong University, Shanghai, China.
Hum Reprod. 2022 Mar 1;37(3):447-465. doi: 10.1093/humrep/deab266.
How does ectopic endometrial stromal cell (Ecto-ESC)-derived extracellular vesicular Legumain pseudogene 1 (EV-LGMNP1), a newly identified pseudogene of Legumain (LGMN), contribute to M2-phenotype macrophage polarization, and does it predict recurrence in patients with ovarian endometriosis (EMs)?
EV-LGMNP1, which is abundant in Ecto-ESCs and serum from ovarian EMs, can direct macrophages towards an M2 phenotype by upregulating LGMN expression and is a promising biomarker for predicting ovarian EMs recurrence.
Extracellular vesicles (EVs) can mediate cell-to-cell crosstalk to promote disease progression via cargo molecule transport. Recently, LGMNP1, a newly identified pseudogene of LGMN, has been reported to promote cancer progression by upregulating LGMN. LGMN is a well-studied protein that can induce M2-like polarization.
STUDY DESIGN, SIZE, DURATION: An in vitro study was conducted with Ecto-ESCs isolated from ectopic endometrial samples, collected from two patients with ovarian EMs (diagnosed by laparoscopy and histological analysis). A clinical retrospective cohort study of 52 ovarian EMs patients and 21 controls with available preoperative serum samples was carried out (2013-2017). The follow-up period ended either at the time of recurrence or on 31 December 2018.
PARTICIPANTS/MATERIALS, SETTING, METHODS: Ecto-ESC-derived EVs (EV/Ecto-ESCs) were characterized by nanoparticle tracking analysis, transmission electron microscopy and western blotting. EV internalization by THP-1 cells, which are the most widely used primary human macrophages model, was detected by fluorescence labelling. After EV treatment, THP-1 cell polarization was detected by quantitative real-time PCR (qRT-PCR) and western blot analyses of CD86 (M1-related marker) and CD206 (M2-related marker). LGMNP1 mRNA expression level in EVs from both primary ectopic endometrioc stromal cells and serum was examined using qRT-PCR. Additionally, the expression of LGMN, the downstream target gene of LGMNP1, in THP-1 cells was evaluated using qRT-PCR and western blotting. Kaplan-Meier and multivariate Cox regression analyses were applied to evaluate the independent predictive factors of EMs recurrence-free survival. A novel nomogram model based on serum EV-LGMNP1 was then formulated to predict EMs recurrence.
In vitro assays demonstrated that EV/Ecto-ESCs drove macrophages towards an M2-like phenotype. Moreover, LGMNP1 contributed to EV/Ecto-ESC-induced M2 macrophage polarization by upregulating LGMN mRNA expression levels. Clinically, serum EV-LGMNP1 was more highly expressed in recurrent EMs patients than in controls and EMs patients without recurrence. Survival analysis and our novel nomogram reconfirmed that serum EV-LGMNP1 was a novel promising and meaningful non-invasive biomarker for predicting EMs recurrence.
N/A.
LIMITATIONS, REASONS FOR CAUTION: In vitro experiments were only performed on samples from two patients with ovarian endometriosis, and a larger sample size is needed. ESCs isolated from the eutopic endometrium of EMs and non-EMs patients should be studied in the future. Additionally, in vitro experiments should be performed using endometrial epithelium cells and further in vivo experiments, such as using mice endometriotic models to investigate whether EV/Ecto could induce M2 macrophage polarization, should be conducted. Moreover, multicentre, large-sample data are needed to validate our predictive nomogram model.
Our study provides novel insights into the mechanism of M2 polarization involved in ovarian EMs progression mediated by an 'EV-shuttled pseudogene LGMNP1' mode. In addition, serum EV-LGMNP1 may serve as a novel non-invasive biomarker for predicting recurrence, providing a new therapeutic target for ovarian EMs.
STUDY FUNDING/COMPETING INTEREST(S): This project was supported by funding from the National Natural Science Foundation of China (81971361), the Natural Science Foundation of Shanghai Science and Technology (19ZR1406900), the Shanghai 'Rising Stars of Medical Talent' Youth Development Program (AB83030002019004), the Clinical Research Plan of SHDC (SHDC2020CR4087), the Shanghai Municipal Health Commission (202040498), the Research and Innovation Project of the Shanghai Municipal Education Commission (2019-01-07-00-07-E00050) and the Clinical Research Plan of SHDC (SHDC2020CR1045B). There are no competing interests to declare.
异位子宫内膜间质细胞(Ecto-ESC)衍生的细胞外囊泡中的天冬酰胺酶假基因1(EV-LGMNP1),作为天冬酰胺酶(LGMN)新发现的假基因,如何促进M2型巨噬细胞极化,它能否预测卵巢子宫内膜异位症(EMs)患者的复发情况?
EV-LGMNP1在卵巢EMs患者的Ecto-ESCs和血清中含量丰富,可通过上调LGMN表达使巨噬细胞向M2型极化,是预测卵巢EMs复发的一个有前景的生物标志物。
细胞外囊泡(EVs)可通过转运货物分子介导细胞间通讯,促进疾病进展。最近,有报道称LGMNP1作为LGMN新发现的假基因,可通过上调LGMN促进癌症进展。LGMN是一种研究充分的蛋白质,可诱导M2样极化。
研究设计、规模、持续时间:对从两名卵巢EMs患者(经腹腔镜检查和组织学分析确诊)的异位子宫内膜样本中分离出的Ecto-ESCs进行体外研究。对52例卵巢EMs患者和21例有术前血清样本的对照进行临床回顾性队列研究(2013 - 2017年)。随访期在复发时或2018年12月31日结束。
参与者/材料、设置、方法:通过纳米颗粒跟踪分析、透射电子显微镜和蛋白质印迹对Ecto-ESC衍生的EVs(EV/Ecto-ESCs)进行表征。通过荧光标记检测最广泛使用的原代人巨噬细胞模型THP-1细胞对EV的内化。EV处理后,通过定量实时PCR(qRT-PCR)以及对CD86(M1相关标志物)和CD206(M2相关标志物)的蛋白质印迹分析检测THP-1细胞极化。使用qRT-PCR检测原发性异位子宫内膜间质细胞和血清中EVs的LGMNP1 mRNA表达水平。此外,使用qRT-PCR和蛋白质印迹评估THP-1细胞中LGMNP1的下游靶基因LGMN的表达。应用Kaplan-Meier和多变量Cox回归分析评估EMs无复发生存的独立预测因素。然后构建基于血清EV-LGMNP1的新型列线图模型来预测EMs复发。
体外实验表明,EV/Ecto-ESCs可使巨噬细胞向M2样表型极化。此外,LGMNP1通过上调LGMN mRNA表达水平促进EV/Ecto-ESC诱导的M2巨噬细胞极化。临床上,复发的EMs患者血清中的EV-LGMNP1表达高于对照组和未复发的EMs患者。生存分析和我们的新型列线图再次证实血清EV-LGMNP1是预测EMs复发的一种新的有前景且有意义的非侵入性生物标志物。
无。
局限性、注意事项:体外实验仅在两名卵巢子宫内膜异位症患者的样本上进行,需要更大的样本量。未来应研究从EMs患者和非EMs患者的在位子宫内膜中分离的ESCs。此外,应使用子宫内膜上皮细胞进行体外实验,并进一步开展体内实验,如使用小鼠子宫内膜异位模型研究EV/Ecto是否能诱导M2巨噬细胞极化。而且,需要多中心、大样本数据来验证我们的预测列线图模型。
我们的研究为“EV穿梭假基因LGMNP1”模式介导的卵巢EMs进展中M2极化机制提供了新见解。此外,血清EV-LGMNP1可作为预测复发的新型非侵入性生物标志物,为卵巢EMs提供新的治疗靶点。
研究资金/竞争利益:本项目得到了中国国家自然科学基金(81971361)、上海市自然科学基金(19ZR1406900)、上海市“医苑新星”青年医学人才培养资助计划(AB83030002019004)、上海市科委临床研究专项(SHDC2020CR4087)、上海市卫生健康委员会(项目编号:202040498)、上海市教育委员会科研创新项目(2019 - 01 - 07 - 00 - 07 - E00050)以及上海市科委临床研究专项(SHDC2020CR1045B)的资助。不存在利益冲突声明。
