Department of Genetics, Washington University School of Medicine, St Louis, MO; Molecular Microbiology and Center for Women's Infectious Disease Research, Washington University School of Medicine, St Louis, MO.
Molecular Microbiology and Center for Women's Infectious Disease Research, Washington University School of Medicine, St Louis, MO.
Am J Obstet Gynecol. 2020 May;222(5):471.e1-471.e9. doi: 10.1016/j.ajog.2019.10.008. Epub 2019 Oct 22.
The composition of bacteria within the vaginal microbiome has garnered a lot of recent attention and has been associated with reproductive health and disease. Despite the common occurrence of yeast (primarily Candida) within the vaginal microbiome, there is still an incomplete picture of relationships between yeast and bacteria (especially lactobacilli), as well as how such associations are governed. Such relationships could be important to a more holistic understanding of the vaginal microbiome and its connection to reproductive health.
The objective of the study was to perform molecular characterization of clinical specimens to define associations between vaginal bacteria (especially Lactobacillus species) and Candida colonization. In vitro studies were conducted to test the 2 most common dominant Lactobacillus species (Lactobacillus crispatus and Lactobacillus iners) in their ability to inhibit Candida growth and to examine the basis for such inhibition.
A nested cross-sectional study of reproductive-age women from the Contraceptive CHOICE Project was conducted. Vaginal swabs from 299 women were selected to balance race and bacterial vaginosis status, resulting in a similar representation of black and white women in each of the 3 Nugent score categories (normal [0-3], intermediate [4-6], and bacterial vaginosis [7-10]). Sequencing of the 16S ribosomal gene (V4 region) was used to determine the dominant Lactobacillus species present (primarily Lactobacillus iners and Lactobacillus crispatus), defined as >50% of the community. Subjects without dominance by a single Lactobacillus species were classified as Diverse. A Candida-specific quantitative polymerase chain reaction targeting the internally transcribed spacer 1 was validated using vaginal samples collected from a second cohort of women and used to assess Candida colonization. Two hundred fifty-five nonpregnant women with sufficient bacterial biomass for analysis were included in the final analysis. Generalized linear models were used to evaluate associations between Lactobacillus dominance, sociodemographic and risk characteristics, and vaginal Candida colonization. In separate in vitro studies, the potential of cell-free supernatants from Lactobacillus crispatus and Lactobacillus iners cultures to inhibit Candida growth was evaluated.
Forty-two women (16%) were vaginally colonized with Candida. Microbiomes characterized as Diverse (38%), Lactobacillus iners-dominant (39%), and Lactobacillus crispatus-dominant (20%) were the most common. The microbiome, race, and Candida colonization co-varied with a higher prevalence of Candida among black women and Lactobacillus iners-dominant communities compared with white women and Lactobacillus crispatus-dominant communities. Lactobacillus iners-dominant communities were more likely to harbor Candida than Lactobacillus crispatus-dominant communities (odds ratio, 2.85, 95% confidence interval, 1.03-7.21; Fisher exact test, P = .048). In vitro, Lactobacillus crispatus produced greater concentrations of lactic acid and exhibited significantly more pH-dependent growth inhibition of Candida albicans, suggesting a potential mechanism for the clinical observations.
In nonpregnant women, Lactobacillus iners-dominant communities were significantly more likely to harbor Candida than Lactobacillus crispatus-dominant communities, suggesting that Lactobacillus species have different relationships with Candida. In vitro experiments indicate that Lactobacillus crispatus may impede Candida colonization more effectively than Lactobacillus iners through a greater production of lactic acid.
阴道微生物组中的细菌组成引起了广泛关注,并与生殖健康和疾病有关。尽管酵母(主要是念珠菌)在阴道微生物组中很常见,但酵母(尤其是乳杆菌)与细菌之间的关系以及这种关联是如何发生的,仍然存在不完整的认识。这些关系对于更全面地了解阴道微生物组及其与生殖健康的联系可能很重要。
本研究的目的是对临床标本进行分子特征分析,以确定阴道细菌(尤其是乳杆菌属物种)与念珠菌定植之间的关联。进行了体外研究,以测试两种最常见的优势乳杆菌(乳酸乳球菌和惰性乳杆菌)抑制念珠菌生长的能力,并研究这种抑制的基础。
对避孕选择项目中的育龄妇女进行嵌套的横断面研究。从 299 名妇女中选择阴道拭子进行平衡种族和细菌性阴道病状态,从而使每个努金评分类别(正常[0-3]、中间[4-6]和细菌性阴道病[7-10])中黑人和白人的比例相似。使用 16S 核糖体基因(V4 区)测序来确定存在的主要乳杆菌物种(主要是惰性乳杆菌和乳酸乳球菌),定义为> 50%的群落。没有单一乳杆菌物种优势的受试者被归类为多样化。使用从第二组妇女收集的阴道样本验证了针对内部转录间隔 1 的特定于念珠菌的定量聚合酶链反应,并用于评估念珠菌定植。在最终分析中,包括了 255 名非怀孕且具有足够细菌生物量进行分析的妇女。使用广义线性模型评估乳杆菌优势、社会人口学和风险特征与阴道念珠菌定植之间的关联。在单独的体外研究中,评估了乳酸乳球菌和惰性乳杆菌培养物的无细胞上清液抑制念珠菌生长的潜力。
42 名妇女(16%)阴道定植念珠菌。特征为多样化(38%)、惰性乳杆菌优势(39%)和乳酸乳球菌优势(20%)的微生物组最常见。微生物组、种族和念珠菌定植与黑人妇女中念珠菌定植率较高以及与白人和乳酸乳球菌优势社区相比,惰性乳杆菌优势社区相关。与乳酸乳球菌优势社区相比,惰性乳杆菌优势社区更有可能定植念珠菌(比值比,2.85;95%置信区间,1.03-7.21;Fisher 精确检验,P=.048)。在体外,乳酸乳球菌产生了更高浓度的乳酸,并且对白色念珠菌的 pH 依赖性生长抑制表现出明显更大的抑制作用,这表明了这种临床观察的潜在机制。
在非怀孕妇女中,与乳酸乳球菌优势社区相比,惰性乳杆菌优势社区更有可能定植念珠菌,这表明乳杆菌物种与念珠菌之间存在不同的关系。体外实验表明,通过产生更多的乳酸,乳酸乳球菌可能比惰性乳杆菌更有效地阻止念珠菌定植。