宫颈转录组在月经周期中会发生变化,但不能预测着床窗口期。

IF 2.3 Q2 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH
Frontiers in reproductive health Pub Date : 2023-07-14 eCollection Date: 2023-01-01 DOI:10.3389/frph.2023.1224919
Amruta D S Pathare, Merli Saare, Alvin Meltsov, Ankita Lawarde, Vijayachitra Modhukur, Aive Kalinina, Aire Sekavin, Viktorija Kukushkina, Helle Karro, Andres Salumets, Maire Peters
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引用次数: 0

摘要

简介女性生殖器官中基因的表达受月经周期中激素水平周期性变化的影响。虽然对促进胚胎着床的子宫内膜分子变化进行了广泛研究,但对月经周期对宫颈细胞的影响了解有限。在进行妇科检查时,可以使用细胞刷轻松、常规地采集宫颈细胞,这为诊断测试提供了一种标准化方法。在这项研究中,我们调查了宫颈细胞的转录组在月经周期中的变化,并评估了这些细胞对确定子宫内膜受孕率的作用:方法:用细胞刷收集了16名健康女性在自然周期的不同月经周期阶段和4名接受激素替代周期的女性的宫颈内膜细胞。应用 RNA 测序深入了解宫颈细胞的转录组:结果:转录组分析在早期分泌期样本和中期分泌期样本之间发现了四个差异表达基因(DEGs),这表明宫颈细胞的转录组在种植窗打开期间没有显著变化。最大的差异出现在月经来潮前向分泌期晚期过渡的过程中(2136 个 DEGs)。在激素替代周期中收集的宫颈细胞显示有 1899 个 DEGs 富含免疫系统过程:我们的研究结果表明,宫颈细胞在整个月经周期中会发生适度的转录组变化;然而,这些变化并不能反映子宫内膜组织的基因表达模式,因此几乎不可能用于子宫内膜受孕诊断。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The cervical transcriptome changes during the menstrual cycle but does not predict the window of implantation.

The cervical transcriptome changes during the menstrual cycle but does not predict the window of implantation.

The cervical transcriptome changes during the menstrual cycle but does not predict the window of implantation.

Introduction: The expression of genes in female reproductive organs is influenced by the cyclic changes in hormone levels during the menstrual cycle. While the molecular changes in the endometrium that facilitate embryo implantation have been extensively studied, there is limited knowledge about the impact of the menstrual cycle on cervical cells. Cervical cells can be easily and routinely collected using a cytobrush during gynecological examination, offering a standardized approach for diagnostic testing. In this study we investigated how the transcriptome of cervical cells changes during the menstrual cycle and assessed the utility of these cells to determine endometrial receptivity.

Methods: Endocervical cells were collected with cytobrushes from 16 healthy women at different menstrual cycle phases in natural cycles and from four women undergoing hormonal replacement cycles. RNA sequencing was applied to gain insight into the transcriptome of cervical cells.

Results: Transcriptome analysis identified four differentially expressed genes (DEGs) between early- and mid-secretory samples, suggesting that the transcriptome of cervical cells does not change significantly during the opening of the implantation window. The most differences appeared during the transition to the late secretory phase (2136 DEGs) before the onset of menstruation. Cervical cells collected during hormonal replacement cycles showed 1899 DEGs enriched in immune system processes.

Conclusions: The results of our study suggested that cervical cells undergo moderate transcriptomic changes throughout the menstrual cycle; however, these changes do not reflect the gene expression pattern of endometrial tissue and offer little or no potential for endometrial receptivity diagnostics.

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