Center for Reproductive Medicine, Shandong University, Jinan, Shandong, China.
Key Laboratory of Reproductive Endocrinology of Ministry of Education, Shandong University, Jinan, Shandong, China.
mSphere. 2023 Jun 22;8(3):e0009623. doi: 10.1128/msphere.00096-23. Epub 2023 Apr 5.
A balanced vaginal microbiome dominated by can help promote women's reproductive health, with Lactobacillus crispatus showing the most beneficial effect. However, the potential role of vaginal microbiomes in hypertensive disorders of pregnancy (HDP) development is not thoroughly explored. In this nested case-control study based on an assisted reproductive technology follow-up cohort, we prospectively assessed the association between pregestational vaginal microbiomes with HDP by collecting vaginal swabs from 75 HDP cases (HDP group) and 150 controls (NP group) and using 16S amplicon sequencing for bacterial identification. The vaginal microbial composition of the HDP group significantly differed from that of the NP group. The abundance of L. crispatus was significantly lower, and the abundances of Gardnerella vaginalis was significantly higher, in the HDP group than in the NP group. Of note, L. crispatus-dominated vaginal community state type was associated with a decreased risk for HDP (odds ratio = 0.436; 95% confidence interval, 0.229 to 0.831) compared with others. Additionally, network analysis revealed different bacterial interactions with 61 and 57 exclusive edges in the NP and HDP groups, respectively. Compared with the HDP group, the NP group showed a higher weighted degree and closeness centrality. Several taxa, including , , and bacterial vaginosis-associated bacteria (, , , and ), were identified as "drivers" for network rewiring. Notable alterations of predicted pathways involved in amino acid, cofactor, and vitamin metabolism; membrane transport; and bacterial toxins were observed in the HDP group. The etiology of HDP remains unclear to date. Effective methods for the individualized prediction and prevention are lacking. Pregestational vaginal dysbiosis precedes the diagnosis of HDP, providing a novel perspective on the etiology of HDP. Early pregnancy is the critical period of placental development, and abnormal placentation initiates HDP development. Thus, disease prevention should be considered before pregnancy. Vaginal microbiome characterization and probiotic interventions before pregnancy are preferred because of their safety and potential for early prevention. This study is the first to prospectively assess associations between pregestational vaginal microbiome and HDP. L. crispatus-dominated vaginal community state type is linked to a reduced risk for HDP. These findings suggest that vaginal microbiome characterization may help identify individuals at high risk for HDP and offer potential targets for the development of novel pregestational intervention methods.
阴道微生物组的平衡,以优势乳杆菌为主,可以帮助促进女性的生殖健康,其中短乳杆菌表现出最有益的效果。然而,阴道微生物组在妊娠高血压疾病(HDP)发展中的潜在作用尚未得到充分探索。在这项基于辅助生殖技术随访队列的嵌套病例对照研究中,我们前瞻性地评估了阴道微生物组与 HDP 的关系,从 75 例 HDP 病例(HDP 组)和 150 例对照(NP 组)中收集阴道拭子,并使用 16S 扩增子测序进行细菌鉴定。HDP 组的阴道微生物组成与 NP 组显著不同。与 NP 组相比,HDP 组中乳杆菌的丰度显著降低,而阴道加德纳菌的丰度显著升高。值得注意的是,与其他类型相比,以短乳杆菌为主导的阴道群落状态类型与 HDP 的风险降低相关(比值比=0.436;95%置信区间,0.229 至 0.831)。此外,网络分析显示,NP 组和 HDP 组分别有 61 个和 57 个独特的细菌相互作用。与 HDP 组相比,NP 组具有更高的权重度和接近中心度。一些分类群,包括 、 、 和细菌性阴道病相关细菌( 、 、 、 和 ),被鉴定为网络重连的“驱动因素”。在 HDP 组中观察到涉及氨基酸、辅助因子和维生素代谢、膜转运和细菌毒素的预测途径的显著改变。到目前为止,HDP 的病因尚不清楚。缺乏有效的个体化预测和预防方法。HDP 诊断前存在孕前阴道菌群失调,为 HDP 的病因提供了新的视角。早孕是胎盘发育的关键时期,异常胎盘形成启动 HDP 的发展。因此,应该在怀孕前考虑疾病预防。阴道微生物组特征分析和孕前益生菌干预因其安全性和早期预防的潜力而受到青睐。这项研究首次前瞻性地评估了孕前阴道微生物组与 HDP 之间的关系。以乳杆菌为主导的阴道群落状态类型与 HDP 的风险降低相关。这些发现表明,阴道微生物组特征分析可能有助于识别 HDP 高危人群,并为新的孕前干预方法的开发提供潜在靶点。
