Your search keyword '"gardnerella"' showing total 169 results

1. Phase variable colony variants are conserved across Gardnerella spp. and exhibit different virulence-associated phenotypes

Author

Erin M. Garcia, Amy K. Klimowicz, Laahirie Edupuganti, Madeline A. Topf, Shraddha R. Bhide, Dawson J. Slusser, Samantha M. Leib, Cayden L. Coddington, Andrey Matveyev, Gregory A. Buck, Kimberly K. Jefferson, Caitlin S. Pepperell, and Joseph P. Dillard

Subjects

phase variation, Gardnerella, phenotypic variation, vaginosis, Microbiology, QR1-502

Abstract

ABSTRACT The Gardnerella genus, comprising at least 13 species, is associated with the polymicrobial disorder bacterial vaginosis (BV). However, the details of BV pathogenesis are poorly defined, and the contributions made by individual species, including Gardnerella spp., are largely unknown. We report here that colony phenotypes characterized by size (large and small) and opacity (opaque and translucent) are phase variable and are conserved among all tested Gardnerella strains, representing at least 10 different species. With the hypothesis that these different variants could be an important missing piece to the enigma of how BV develops in vivo, we characterized their phenotypic, proteomic, and genomic differences. Beyond increased colony size, large colony variants showed reduced vaginolysin secretion and faster growth rate relative to small colony variants. The ability to inhibit the growth of Neisseria gonorrhoeae and commensal Lactobacillus species varied by strain and, in some instances, differed between variants. Proteomics analyses indicated that 127–173 proteins were differentially expressed between variants. Proteins with increased expression in large variants of both strains were associated with amino acid and protein synthesis and protein folding, whereas those increased in small variants were related to nucleotide synthesis, phosphate transport, ABC transport, and glycogen breakdown. Furthermore, whole genome sequencing analyses revealed an abundance of genes associated with variable homopolymer tracts, implicating slipped strand mispairing in Gardnerella phase variation and illuminating the potential for previously unrecognized heterogeneity within clonal populations. Collectively, these results suggest that phase variants may be primed to serve different roles in BV pathogenesis.IMPORTANCEBacterial vaginosis is the most common gynecological disorder in women of childbearing age. Gardnerella species are crucial to the development of this dysbiosis, but the mechanisms involved in the infection are not understood. We discovered that Gardnerella species vary between two different forms, reflected in bacterial colony size. A slow-growing form makes large amounts of the toxin vaginolysin and is better able to survive in human cervix tissue. A fast-growing form is likely the one that proliferates to high numbers just prior to symptom onset and forms the biofilm that serves as a scaffold for multiple BV-associated anaerobic bacteria. Identification of the proteins that vary between different forms of the bacteria as well as those that vary randomly provides insight into the factors important for Gardnerella infection and immune avoidance.

Published

2024

2. Gardnerella diversity and ecology in pregnancy and preterm birth

Author

Hanna L. Berman, Daniela S. Aliaga Goltsman, Megan Anderson, David A. Relman, and Benjamin J. Callahan

Subjects

Gardnerella, vaginal microbiome, preterm birth, Microbiology, QR1-502

Abstract

ABSTRACT The vaginal microbiome has been linked to negative health outcomes including preterm birth. Specific taxa, including Gardnerella spp., have been identified as risk factors for these conditions. Historically, microbiome analysis methods have treated all Gardnerella spp. as one species, but the broad diversity of Gardnerella has become more apparent. We explore the diversity of Gardnerella clades and genomic species in the vaginal microbiome of pregnant women and their associations with microbiome composition and preterm birth. Relative abundance of Gardnerella clades and genomic species and other taxa was quantified in shotgun metagenomic sequencing data from three distinct cohorts of pregnant women. We also assessed the diversity and abundance of Gardnerella variants in 16S rRNA gene amplicon sequencing data from seven previously conducted studies in differing populations. Individual microbiomes often contained multiple Gardnerella variants, and the number of clades was associated with increased microbial load, or the ratio of non-human reads to human reads. Taxon co-occurrence patterns were largely consistent across Gardnerella clades and among cohorts. Some variants previously described as rare were prevalent in other cohorts, highlighting the importance of surveying a diverse set of populations to fully capture the diversity of Gardnerella. The diversity of Gardnerella both across populations and within individual vaginal microbiomes has long been unappreciated, as has been the intra-species diversity of many other members of the vaginal microbiome. The broad genomic diversity of Gardnerella has led to its reclassification as multiple species; here we demonstrate the diversity of Gardnerella found within and between vaginal microbiomes.IMPORTANCEThe present study shows that single microbiomes can contain all currently known species of Gardnerella and that multiple similar species can exist within the same environment. Furthermore, surveys of demographically distinct populations suggest that some species appear more commonly in certain populations. Further studies in broad and diverse populations will be necessary to fully understand the ecological roles of each Gardnerella sp., how they can co-exist, and their distinct impacts on microbial communities, preterm birth, and other health outcomes.

Published

2024

3. The Vaginal Microbiota of Pregnant Women Varies with Gestational Age, Maternal Age, and Parity

Author

Roberto Romero, Kevin R. Theis, Nardhy Gomez-Lopez, Andrew D. Winters, Jonathan J. Panzer, Huang Lin, Jose Galaz, Jonathan M. Greenberg, Zachary Shaffer, David J. Kracht, Tinnakorn Chaiworapongsa, Eunjung Jung, Francesca Gotsch, Jacques Ravel, Shyamal D. Peddada, and Adi L. Tarca

Subjects

Cannabis, Gardnerella, gestation, Lactobacillus, microbiome, obesity, Microbiology, QR1-502

Abstract

ABSTRACT The composition of the vaginal microbiota is heavily influenced by pregnancy and may factor into pregnancy complications, including spontaneous preterm birth. However, results among studies have been inconsistent due, in part, to variation in sample sizes and ethnicity. Thus, an association between the vaginal microbiota and preterm labor continues to be debated. Yet, before assessing associations between the composition of the vaginal microbiota and preterm labor, a robust and in-depth characterization of the vaginal microbiota throughout pregnancy in the specific study population under investigation is required. Here, we report a large longitudinal study (n = 474 women, 1,862 vaginal samples) of a predominantly African-American cohort—a population that experiences a relatively high rate of pregnancy complications—evaluating associations between individual identity, gestational age, and other maternal characteristics with the composition of the vaginal microbiota throughout gestation resulting in term delivery. The principal factors influencing the composition of the vaginal microbiota in pregnancy are individual identity and gestational age at sampling. Other factors are maternal age, parity, obesity, and self-reported Cannabis use. The general pattern across gestation is for the vaginal microbiota to remain or transition to a state of Lactobacillus dominance. This pattern can be modified by maternal parity and obesity. Regardless, network analyses reveal dynamic associations among specific bacterial taxa within the vaginal ecosystem, which shift throughout the course of pregnancy. This study provides a robust foundational understanding of the vaginal microbiota in pregnancy and sets the stage for further investigation of this microbiota in obstetrical disease. IMPORTANCE There is debate regarding links between the vaginal microbiota and pregnancy complications, especially spontaneous preterm birth. Inconsistencies in results among studies are likely due to differences in sample sizes and cohort ethnicity. Ethnicity is a complicating factor because, although all bacterial taxa commonly inhabiting the vagina are present among all ethnicities, the frequencies of these taxa vary among ethnicities. Therefore, an in-depth characterization of the vaginal microbiota throughout pregnancy in the specific study population under investigation is required prior to evaluating associations between the vaginal microbiota and obstetrical disease. This initial investigation is a large longitudinal study of the vaginal microbiota throughout gestation resulting in a term delivery in a predominantly African-American cohort, a population that experiences disproportionally negative maternal-fetal health outcomes. It establishes the magnitude of associations between maternal characteristics, such as age, parity, body mass index, and self-reported Cannabis use, on the vaginal microbiota in pregnancy.

Published

2023

4. A novel Gardnerella, Prevotella, and Lactobacillus standard that improves accuracy in quantifying bacterial burden in vaginal microbial communities

Author

Jacob H. Elnaggar, Caleb M. Ardizzone, Nuno Cerca, Evelyn Toh, Paweł Łaniewski, Rebecca A. Lillis, Melissa M. Herbst-Kralovetz, Alison J. Quayle, Christina A. Muzny, and Christopher M. Taylor

Subjects

bacterial burden, vaginal microbiome, bacterial vaginosis, biofilm, qPCR standard, Gardnerella, Microbiology, QR1-502

Abstract

Bacterial vaginosis (BV) is the most common vaginal dysbiosis. In this condition, a polymicrobial biofilm develops on vaginal epithelial cells. Accurately quantifying the bacterial burden of the BV biofilm is necessary to further our understanding of BV pathogenesis. Historically, the standard for calculating total bacterial burden of the BV biofilm has been based on quantifying Escherichia coli 16S rRNA gene copy number. However, E. coli is improper for measuring the bacterial burden of this unique micro-environment. Here, we propose a novel qPCR standard to quantify bacterial burden in vaginal microbial communities, from an optimal state to a mature BV biofilm. These standards consist of different combinations of vaginal bacteria including three common BV-associated bacteria (BVAB) Gardnerella spp. (G), Prevotella spp. (P), and Fannyhessea spp. (F) and commensal Lactobacillus spp. (L) using the 16S rRNA gene (G:P:F:L, G:P:F, G:P:L and 1G:9L). We compared these standards to the traditional E. coli (E) reference standard using known quantities of mock vaginal communities and 16 vaginal samples from women. The E standard significantly underestimated the copy numbers of the mock communities, and this underestimation was significantly greater at lower copy numbers of these communities. The G:P:L standard was the most accurate across all mock communities and when compared to other mixed vaginal standards. Mixed vaginal standards were further validated with vaginal samples. This new G:P:L standard can be used in BV pathogenesis research to enhance reproducibility and reliability in quantitative measurements of BVAB, spanning from the optimal to non-optimal (including BV) vaginal microbiota.

Published

2023

5. Metabolic Network Models of the Gardnerella Pangenome Identify Key Interactions with the Vaginal Environment

Author

Lillian R. Dillard, Emma M. Glass, Amanda L. Lewis, Krystal Thomas-White, and Jason A. Papin

Subjects

Gardnerella, bacterial vaginosis, metabolic modeling, women’s health, Microbiology, QR1-502

Abstract

ABSTRACT Gardnerella is the primary pathogenic bacterial genus present in the polymicrobial condition known as bacterial vaginosis (BV). Despite BV’s high prevalence and associated chronic and acute women’s health impacts, the Gardnerella pangenome is largely uncharacterized at both the genetic and functional metabolic levels. Here, we used genome-scale metabolic models to characterize in silico the Gardnerella pangenome metabolic content. We also assessed the metabolic functional capacity in a BV-positive cervicovaginal fluid context. The metabolic capacity varied widely across the pangenome, with 38.15% of all reactions being core to the genus, compared to 49.60% of reactions identified as being unique to a smaller subset of species. We identified 57 essential genes across the pangenome via in silico gene essentiality screens within two simulated vaginal metabolic environments. Four genes, gpsA, fas, suhB, and psd, were identified as core essential genes critical for the metabolic function of all analyzed bacterial species of the Gardnerella genus. Further understanding these core essential metabolic functions could inform novel therapeutic strategies to treat BV. Machine learning applied to simulated metabolic network flux distributions showed limited clustering based on the sample isolation source, which further supports the presence of extensive core metabolic functionality across this genus. These data represent the first metabolic modeling of the Gardnerella pangenome and illustrate strain-specific interactions with the vaginal metabolic environment across the pangenome. IMPORTANCE Bacterial vaginosis (BV) is the most common vaginal infection among reproductive-age women. Despite its prevalence and associated chronic and acute women’s health impacts, the diverse bacteria involved in BV infection remain poorly characterized. Gardnerella is the genus of bacteria most commonly and most abundantly represented during BV. In this paper, we use metabolic models, which are a computational representation of the possible functional metabolism of an organism, to investigate metabolic conservation, gene essentiality, and pathway utilization across 110 Gardnerella strains. These models allow us to investigate in silico how strains may differ with respect to their metabolic interactions with the vaginal-host environment.

Published

2023

6. Postbiotic gel relieves clinical symptoms of bacterial vaginitis by regulating the vaginal microbiota

Author

Xin Shen, Lin Xu, Zhiquan Zhang, Yitong Yang, Pengxian Li, Teng Ma, Shuai Guo, Lai-Yu Kwok, and Zhihong Sun

Subjects

bacterial vaginitis, lactobacilli, Gardnerella, vaginal microbiota, postbiotic, Microbiology, QR1-502

Abstract

Vaginitis is the most common disease in gynecology. Vaginal dysbiosis is a main reason of bacteria vaginitis (BV), as the disrupted microecological environment facilitates the growth of various vaginal pathogens. The most dominant bacteria in the vaginal microbiota are lactic acid bacteria, which are important for maintaining vaginal health. At present, antibiotics and other drugs are often used in clinical treatment, but there are many adverse reactions and easy to relapse, and the intervention of probiotics can help restore vaginal microbiota and alleviate BV. This study is a human clinical trial of 50 patients with bacterial vaginitis (BV). The alleviation effect of applying a postbiotic gel for one week in BV was evaluated. Changes in patients’ clinical indicators of BV (properties of vaginal secretion) and the vaginal microbiota after using the postbiotic gel were monitored. Our results showed that apply the postbiotic gel improved the symptoms of BV, indicated by improvement in the abnormalities of patients’ vaginal secretions. After applying the gel, the relative abundance of vaginal lactobacilli increased compared to baseline. Significant negative correlations were found between lactobacilli and potential vaginal pathogens (including Gardnerella, Prevotella, and Atopobium), as well as the abnormalities of the vaginal secretion. Overall, our results showed that applying the postbiotic gel ameliorated BV, and the symptom improvement was accompanied by significant changes in the bacterial vaginal microbiota. Our study provides valuable clinical data in managing BV.

Published

2023

7. Urinary Microbiome of Reproductive-Age Asymptomatic European Women

Author

Svetlana Ugarcina Perovic, Magdalena Ksiezarek, Joana Rocha, Elisabete Alves Cappelli, Márcia Sousa, Teresa Gonçalves Ribeiro, Filipa Grosso, and Luísa Peixe

Subjects

midstream urine, extended culturomics, 16S rRNA gene amplicon sequencing, Lactobacillus, Gardnerella, Corynebacterium, Microbiology, QR1-502

Abstract

ABSTRACT The knowledge of bacterial species diversity within the female urinary microbiome (FUM) is essential for understanding the role of the FUM in urinary tract health and disease. This study aimed to characterize the bacterial species diversity of the FUM of asymptomatic reproductive-age European women by combining extended culturomics and long-read sequencing of the near-full-length 16S rRNA gene. A total of 297 bacterial species (median of 53 species/sample) were identified, yet only 22% of the species were detected by both culture and sequencing methods. Recently recognized Gardnerella, Lactobacillus, and Limosilactobacillus species and 5 new putative Corynebacterium species were identified by culturomics, while anaerobic species (e.g., 11 Peptoniphilus spp.) were mostly detected by amplicon sequencing. Notably, there was not a single species common to all samples, although members of the genus Lactobacillus were detected in all. Lactobacillus crispatus, Lactobacillus iners, and Lactobacillus mulieris were observed in high relative abundance in several samples, as well as other species (e.g., Streptococcus agalactiae, Fannyhessea vaginae, Gardnerella vaginalis, Gardnerella swidsinskii), while low-abundance members (e.g., Finegoldia magna) were often more prevalent. A moderate correlation (Mantel test; r = 0.5) between community structure types captured by culturomics and amplicon sequencing was observed, highlighting the benefit of combining both methodologies. This study provided a detailed FUM structure at the species level, which is critical to unveil the potential relationship between specific microbiome members and urinary diseases/disorders. Moreover, the different capacity to characterize microbiome profiles of culturomic and amplicon sequencing is described, providing valuable insights for further urinary microbiome studies. IMPORTANCE The bacterial species diversity within the female urinary microbiome (FUM) has been insufficiently characterized. This study demonstrated that complementarity between optimized culture-dependent and -independent approaches is highly beneficial for comprehensive FUM species profiling by detecting higher FUM species diversity than previously reported, including identification of unreported species belonging to the genera Lactobacillus, Limosilactobacillus, and Latilactobacillus and putative novel Corynebacterium species. Although some species were present in high relative abundance, low-abundance members were more prevalent. FUM classification into community structure types demonstrated high interindividual differences in urinary microbiome composition among asymptomatic women. We also report moderate correlation between culture-dependent and -independent derived data—highlighting drawbacks of each methodological approach. Our findings suggest that FUM bacterial diversity reported from previous studies may be underestimated. Finally, our results contribute to the fundamental knowledge of the FUM required for further exploration of the urinary microbiome role in urinary tract diseases.

Published

2022

8. Editorial: The urogenital microbiota in urinary tract diseases

Author

Nicole M. Gilbert, A. Lenora Ackerman, and Amanda L. Lewis

Subjects

bladder, urobiome, vagina, vaginal microbiome, lower urinary track symptoms, Gardnerella, Microbiology, QR1-502

Published

2022

9. Correlation Analysis of Vaginal Microbiome Changes and Bacterial Vaginosis Plus Vulvovaginal Candidiasis Mixed Vaginitis Prognosis

Author

Bingbing Xiao, Disi A, Hanyu Qin, Lan Mi, and Dai Zhang

Subjects

mixed vaginitis, vulvovaginal candidiasis (VVC), vaginal microbiome, Gardnerella, Atopobium, Lactobacillus, Microbiology, QR1-502

Abstract

Mixed vaginitis is the result of the simultaneous presence of different pathogenic processes mediated by at least two types of vaginal pathogens. Among the various types of mixed vaginitis presentations, bacterial vaginosis (BV) plus vulvovaginal candidiasis (VVC) presents to be the most prevalent form. Mixed vaginitis affects the health of women of all ages worldwide. However, few studies have focused on clinical manifestations, pathogenesis, diagnostic criteria, or therapy of mixed vaginitis. We recruited 48 symptomatic patients with clinical diagnoses of VVC complicated with BV, they were treated with oral metronidazole combined with local clotrimazole and followed to assess the drug efficacy and vaginal microbiome alterations before and after treatment. The vaginal microbiome in BV+VVC mixed vaginitis patients was altered significantly after the combined drug treatment within a unique form different from a simple overlay mode of BV and VVC, the key bacteria including Gardnerella and Atopobium, Lactobacillus. The combined drug therapy for the mixed vaginitis in this study was effective and enhanced treatment for BV may be more favorable because of more difficulty in dealing with BV according to the treatment outcome. The abundance of Lactobacillus in patients with mixed vaginitis affects the recovery of the vaginal microbiome as well as the prognosis, and the abundance should be actively restored. This is the first study to investigate the composition, diversity, and other characteristics of the vaginal microbiome in patients with BV+VVC mixed vaginitis before and after drug treatment, our results provide clues to improving the cure rate and reducing recurrences.

Published

2022

10. Research Progress on the Correlation Between Gardnerella Typing and Bacterial Vaginosis

Author

Hanyu Qin and Bingbing Xiao

Subjects

Gardnerella, bacterial vaginosis, clinical outcomes, subtypes, qPCR, cpn-60, Microbiology, QR1-502

Abstract

Bacterial vaginosis (BV) is the most common infectious disease of the reproductive tract in women of childbearing age. It often manifests as an imbalance in the vaginal microbiome, including a decrease in Lactobacillus and an increase in anaerobic bacteria. While Gardnerella spp. are considered a major cause of BV, they are also detected in the vaginal microbiome of healthy women. G. vaginalis was the only recognized species of Gardnerella until a recent study characterized three new species, G. leopoldii, G. piotii, and G. swidsinskii. This review describes the different types and genetic diversity of Gardnerella, as well as new findings on the correlation between different Gardnerella spp. and BV.

Published

2022

11. Sialidase Activity in the Cervicovaginal Fluid Is Associated With Changes in Bacterial Components of Lactobacillus-Deprived Microbiota

Author

Carolina Sanitá Tafner Ferreira, Camila Marconi, Cristina M. G. L. Parada, Jacques Ravel, and Marcia Guimaraes da Silva

Subjects

vaginal microbiota, sialidases, bacterial vaginosis, Gardnerella, 16S rRNA, Microbiology, QR1-502

Abstract

IntroductionSialidase activity in the cervicovaginal fluid (CVF) is associated with microscopic findings of bacterial vaginosis (BV). Sequencing of bacterial 16S rRNA gene in vaginal samples has revealed that the majority of microscopic BV cases fit into vaginal community-state type IV (CST IV), which was recently named “molecular-BV.” Bacterial vaginosis-associated bacterial species, such as Gardnerella spp., may act as sources of CVF sialidases. These hydrolases lead to impairment of local immunity and enable bacterial adhesion to epithelial and biofilm formation. However, the impact of CVL sialidase on microbiota components and diversity remains unknown.ObjectiveTo assess if CVF sialidase activity is associated with changes in bacterial components of CST IV.MethodsOne hundred forty women were cross-sectionally enrolled. The presence of molecular-BV (CST IV) was assessed by V3–V4 16S rRNA sequencing (Illumina). Fluorometric assays were performed using 2-(4-methylumbelliferyl)-α-D-N-acetylneuraminic acid (MUAN) for measuring sialidase activity in CVF samples. Linear discriminant analysis effect size (LEfSe) was performed to identify the differently enriched bacterial taxa in molecular-BV according to the status of CVF sialidase activity.ResultsForty-four participants (31.4%) had molecular-BV, of which 30 (68.2%) had sialidase activity at detectable levels. A total of 24 bacterial taxa were enriched in the presence of sialidase activity, while just two taxa were enriched in sialidase-negative samples.ConclusionSialidase activity in molecular-BV is associated with changes in bacterial components of the local microbiome. This association should be further investigated, since it may result in diminished local defenses against pathogens.

Published

2022

12. Association Between Vaginal Gardnerella and Tubal Pregnancy in Women With Symptomatic Early Pregnancies in China: A Nested Case-Control Study

Author

Yingxuan Zhang, Si Chen, Xiaofeng Chen, Huimin Zhang, Xuge Huang, Xiaomeng Xue, Yinan Guo, Xiaofeng Ruan, Xiaorong Liu, Gaopi Deng, Songping Luo, and Jie Gao

Subjects

tubal pregnancy, vaginal microbiota, Gardnerella, symptomatic early pregnancy, China, Microbiology, QR1-502

Abstract

The early diagnosis and treatment of ectopic pregnancy (EP) remains a major challenge. Despite a known link between vaginal microbiota and female reproductive health, few studies have focused on the association between vaginal microbiota and pregnancy location. This nested case-control study aimed to characterize the vaginal microbiota in tubal pregnancy (TP) among symptomatic women in early pregnancy. Women with symptomatic early pregnancy of unknown location (PUL) were included in this study. 16S rDNA gene sequencing was performed to assess vaginal microbial diversity and relative abundance. Machine learning and multivariate logistic regression were also used to evaluate the association between Gardnerella and TP. The results indicate that the vaginal microbiome in TP was more diverse (Shannon, p < 0.05) and was different in composition to that of women with intrauterine pregnancy (IUP) (weighted Unifrac, R = 0.08, p = 0.01). The genus Gardnerella was significantly enriched in TP. The XGBoost analysis was able to classify Gardnerella-induced TP more reliably (AUC = 0.621). Moreover, after adjusting potential confounders, our results indicate a robust association between Gardnerella and TP (as a continuous variable, adjusted OR: 12.0, 95% CI: 2.1–67.4, p < 0.01; as a categorical variable (≥0.85%), and adjusted OR: 4.2, 95% CI: 2.0–8.8, p < 0.01). In conclusion, we found that higher virginal Gardnerella levels were associated with TP in women with symptomatic early pregnancy.

Published

2022

13. Gardnerella vaginalis Enhances Atopobium vaginae Viability in an in vitro Model

Author

Joana Castro, Aliona S. Rosca, Piet Cools, Mario Vaneechoutte, and Nuno Cerca

Subjects

bacterial vaginosis, polymicrobial biofilms, Gardnerella, Atopobium vaginae, PNA-FISH, Microbiology, QR1-502

Abstract

Bacterial vaginosis (BV) is the most common vaginal infection among women of reproductive age. A hallmark of BV is the presence of a highly structured polymicrobial biofilm on the vaginal epithelium, presumably initiated by facultative anaerobes of the genus Gardnerella, which then becomes a scaffold for other species to adhere to. One of the species often found incorporated in Gardnerella mediated biofilms is Atopobium vaginae. Interestingly, A. vaginae is very rarely found without the presence of Gardnerella. However, not much is known regarding the interactions between A. vaginae and Gardnerella species. This study assessed biological interactions between Gardnerella vaginalis and A. vaginae. In our in vitro model, by using specific Gardnerella and A. vaginae Peptide Nucleic Acid (PNA)-Fluorescence In Situ Hybridization (FISH) probes, we confirmed that A. vaginae was able to incorporate a pre-formed G. vaginalis biofilm, accounting for up to 20% of the total number of biofilm cells. However, our findings showed that almost 92% of A. vaginae cells lost viability after 48 h of mono-species planktonic growth, but were able to maintain viability when co-cultured with Gardnerella or after pre-conditioning with cell-free supernatant of Gardnerella cultures. While the in vitro conditions are very different from the in vivo microenvironment, this study contributes to a better understanding of why A. vaginae vaginal colonization rarely occurs in the absence of Gardnerella. Overall, this highlights the importance of microbial interactions between BV-associated bacteria and demands more studies focused on the polymicrobial bacterial communities found in BV.

Published

2020

14. Potential Role of Extracellular ATP Released by Bacteria in Bladder Infection and Contractility

Author

Behnam Abbasian, Aidan Shair, David B. O’Gorman, Ana M. Pena-Diaz, Liam Brennan, Kathleen Engelbrecht, David W. Koenig, Gregor Reid, and Jeremy P. Burton

Subjects

ATP, Escherichia coli, Gardnerella, Lactobacillus, extracellular, Microbiology, QR1-502

Abstract

ABSTRACT Urgency urinary incontinence (UUI) and overactive bladder (OAB) can both potentially be influenced by commensal and urinary tract infection-associated bacteria. The sensing of bladder filling involves interplay between various components of the nervous system, eventually resulting in contraction of the detrusor muscle during micturition. This study models host responses to various urogenital bacteria, first by using urothelial bladder cell lines and then with myofibroblast contraction assays. To measure responses, we examined Ca2+ influx, gene expression, and alpha smooth muscle actin deposition assays. Organisms such as Escherichia coli and Gardnerella vaginalis were found to strongly induce Ca2+ influx and contraction, whereas Lactobacillus crispatus and L. gasseri did not induce this response. Additionally, supernatants from lactobacilli impeded Ca2+ influx and contraction induced by uropathogens. Upon further investigation of factors associated with purinergic signaling pathways, the Ca2+ influx and contraction of cells correlated with the amount of extracellular ATP produced by E. coli. Certain lactobacilli appear to mitigate this response by utilizing extracellular ATP or producing inhibitory compounds that may act as a receptor agonist or Ca2+ channel blocker. These findings suggest that members of the urinary microbiota may be influencing UUI or OAB. IMPORTANCE The ability of uropathogenic bacteria to release excitatory compounds, such as ATP, may act as a virulence factor to stimulate signaling pathways that could have profound effects on the urothelium, perhaps extending to the vagina. This may be countered by the ability of certain commensal urinary microbiota constituents, such as lactobacilli. Further understanding of these interactions is important for the treatment and prevention of UUI and OAB. The clinical implications may require a more targeted approach to enhance the commensal bacteria and reduce ATP release by pathogens.

Published

2019

15. Competition Among Gardnerella Subgroups From the Human Vaginal Microbiome

Author

Salahuddin Khan, Maarten J. Voordouw, and Janet E. Hill

Subjects

Gardnerella, vaginal microbiome, interaction, bacterial vaginosis (BV), competition, microbial ecology, Microbiology, QR1-502

Abstract

Gardnerella spp. are hallmarks of bacterial vaginosis, a clinically significant dysbiosis of the vaginal microbiome. Gardnerella has four subgroups (A, B, C, and D) based on cpn60 sequences. Multiple subgroups are often detected in individual women, and interactions between these subgroups are expected to influence their population dynamics and associated clinical signs and symptoms of bacterial vaginosis. In the present study, contact-independent and contact-dependent interactions between the four Gardnerella subgroups were investigated in vitro. The cell free supernatants of mono- and co-cultures had no effect on growth rates of the Gardnerella subgroups suggesting that there are no contact-independent interactions (and no contest competition). For contact-dependent interactions, mixed communities of 2, 3, or 4 subgroups were created and the initial (0 h) and final population sizes (48 h) were quantified using subgroup-specific PCR. Compared to the null hypothesis of neutral interactions, most (69.3%) of the mixed communities exhibited competition. Competition reduced the growth rates of subgroups A, B, and C. In contrast, the growth rate of subgroup D increased in the presence of the other subgroups. All subgroups were able to form biofilm alone and in mixed communities. Our study suggests that there is scramble competition among Gardnerella subgroups, which likely contributes to the observed distributions of Gardnerella spp. in vaginal microbiomes and the formation of the multispecies biofilms characteristic of bacterial vaginosis.

Published

2019

16. Covert pathogenesis: Transient exposures to microbes as triggers of disease.

Author

Gilbert, Nicole M. and Lewis, Amanda L.

Subjects

*TRANSMISSION of pathogenic microorganisms, *GARDNERELLA, *ESCHERICHIA coli, *LABORATORY mice, *CELL death, *URINARY tract infection diagnosis, *URINARY tract infection treatment, *PATHOGENIC microorganisms

Abstract

The article discusses how microbes cause or trigger a disease through covert pathogenesis, as well as the possible diagnosis and treatment. Also cited are the urinary tract infection (UTI) caused by vaginal bacterium Gardnerella vaginalis as example, the mice study showing how the bacterium inoculated the bladder causing cell linings to undergo noninflammatory cell death, and how Escherichia coli caused recurrent UTI (rUTI).

Published

2019

17. Significance of Gardnerella vaginalis genotyping in diagnosis of recurrent bacterial vaginosis

Subjects

First episode, Vaginal discharge, Reproductive age, Biology, medicine.disease, medicine.disease_cause, Microbiology, Gardnerella, Genotype, Multiplex polymerase chain reaction, medicine, Gardnerella vaginalis, Bacterial vaginosis, medicine.symptom

Abstract

Objective. To assess the importance of identifying different genotypes of Gardnerella vaginalis in the diagnosis of recurrent bacterial vaginosis.Materials and methods. The study involved 299 women of reproductive age. All patients were divided into three groups (healthy women, women with the first episode of bacterial vaginosis, and women with recurrent bacterial vaginosis). DNA of Gardnerella vaginalis in vaginal discharge was detected by real-time PCR. The detection of four genotypes of G. vaginalis was performed using real-time multiplex PCR. To quantify the amplified PCR fragments, quantitative standard samples were constructed. Statistical analysis of the results was carried out using the statistical package NCSS 11 (NCSS, LCC).Results. In 38.2 % of healthy women, any one genotype of G. vaginalis was identified in the vaginal biotope, most often it was genotype 4 (35.2 %), while the concentration of G. vaginalis DNA was low (102–103 geqs/ml). When several genotypes of gardnerella were detected simultaneously in healthy women, the DNA concentration did not exceed 104 geqs/ml. A completely different picture was observed among women with bacterial vaginosis (BV). In the first episode of BV, genotype 4 of G. vaginalis prevailed, both as a single genotype and in combination with 1 or 2, or 3 genotypes. In the recurrent course of BV, only 3–4 genotypes of G. vaginalis were detected at once, and in 78 % of cases it had place is a combination of 1, 2 and 4 genotypes, and the DNA concentration was 107–108 geqs/ml.Conclusion. To diagnose recurrent forms of BV, it is necessary to develop and introduce into practice laboratory diagnostics a test system for detecting different genotypes of G. vaginalis by real-time PCR.

Published

2021

18. Inhibition of sialidase activity and cellular invasion by the bacterial vaginosis pathogen Gardnerella vaginalis.

Author

Govinden, G., Parker, J. L., Naylor, K. L., Frey, A. M., Anumba, D. O. C., and Stafford, G. P.

Subjects

*BACTERIAL vaginitis, *NEURAMINIDASE, *GARDNERELLA, *LACTOBACILLUS, *GLYCANS

Abstract

Bacterial vaginosis is a genital tract infection, thought to be caused by transformation of a lactobacillus-rich flora to a dysbiotic microbiota enriched in mixed anaerobes. The most prominent of these is Gardnerella vaginalis (GV), an anaerobic pathogen that produces sialidase enzyme to cleave terminal sialic acid residues from human glycans. Notably, high sialidase activity is associated with preterm birth and low birthweight. We explored the potential of the sialidase inhibitor Zanamavir against GV whole cell sialidase activity using methyl-umbelliferyl neuraminic acid (MU-NANA) cleavage assays, with Zanamavir causing a 30% reduction in whole cell GV sialidase activity (p < 0.05). Furthermore, cellular invasion assays using HeLa cervical epithelial cells, infected with GV, demonstrated that Zanamivir elicited a 50% reduction in cell association and invasion (p < 0.05). Our data thus highlight that pharmacological sialidase inhibitors are able to modify BV-associated sialidase activity and influence host-pathogen interactions and may represent novel therapeutic adjuncts. [ABSTRACT FROM AUTHOR]

Published

2018

19. Phenotypic characterization of Gardnerella vaginalis subgroups suggests differences in their virulence potential.

Author

Janulaitiene, Migle, Gegzna, Vilmantas, Baranauskiene, Lina, Bulavaitė, Aistė, Simanavicius, Martynas, and Pleckaityte, Milda

Subjects

*GARDNERELLA, *VIRULENCE of bacteria, *PHENOTYPES, *NEURAMINIDASE, *MULTIPLE correspondence analysis (Statistics)

Abstract

The well-known genotypic and phenotypic diversity of G. vaginalis resulted in its classification into at least four subgroups (clades) with diverse genomic properties. To evaluate the virulence potential of G. vaginalis subgroups, we analyzed the virulence-related phenotypic characteristics of 14 isolates of clade 1, 12 isolates of clade 2, 8 isolates of clade 4 assessing their in vitro ability to grow as a biofilm, produce the toxin vaginolysin, and express sialidase activity. Significant differences in VLY production were found (p = 0.023), but further analysis of clade pairs did not confirm this finding. The amount of biofim did not differ significantly among the clades. Analysis of sialidase activity indicated statistically significant differences among the clades (p < 0.001). Production of active recombinant G. vaginalis sialidase demonstrated the link between the sld gene and enzymatic activity, which may be differentially regulated at the transcriptional level. Statistical classification analysis (random forests algorithm) showed that G. vaginalis clades could be best defined by the profiles of two phenotypic characteristics: sialidase activity and vaginolysin production. The results of principal component analysis and hierarchical clustering suggested that all isolates can be subgrouped into three clusters, the structures of which are determined based on phenotypic characteristics of the isolates. Clade 4 was the most homogenous group, as all isolates were found in the same cluster, which is characterized by low production of all studied virulence factors. Clade 2 isolates were mainly distributed between two clusters, whereas clade 1 isolates were found in all three clusters that were characterized by a distinct profile of phenotypic characteristics. Our findings suggest that G. vaginalis subgroups with different virulence potential might play distinct roles in vaginal microbiota. [ABSTRACT FROM AUTHOR]

Published

2018

20. Vaginotypes of the human vaginal microbiome

Author

Leonardo Mancabelli, Francesca Turroni, Federico Fontana, Christian Milani, Marco Ventura, Douwe van Sinderen, Chiara Tarracchini, and Gabriele Andrea Lugli

Subjects

Atopobium, Microbiology, 03 medical and health sciences, Gardnerella, RNA, Ribosomal, 16S, Lactobacillus, medicine, Humans, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Genetics, 0303 health sciences, biology, 030306 microbiology, Microbiota, Ribosomal RNA, biology.organism_classification, 16S ribosomal RNA, Vibrio, medicine.anatomical_structure, Metagenomics, Vagina, Female

Abstract

The human vaginal environment harbours a community of bacteria that plays an important role in maintaining vaginal health and in protecting this environment from various urogenital infections. This bacterial population, also known as vaginal microbiota, has been demonstrated to be dominated by members of the Lactobacillus genus. Several studies employing 16S rRNA gene-based amplicon sequencing have classified the vaginal microbiota into five distinct community state types (CSTs) or vaginotypes. To deepen our understanding of the vaginal microbiota we performed an in-depth meta-analysis of 1312 publicly available datasets concerning healthy vaginal microbiome information obtained by metagenomics sequencing. The analysis confirmed the predominance of taxa belonging to the Lactobacillus genus, followed by members of the genera Gardnerella, Vibrio and Atopobium. Moreover, the statistical robustness offered by this meta-analysis allowed us to disentangle the species-level composition of dominant and accessory taxa constituting each vaginotype and to revisit and refine the previously proposed CST classification. In addition, a functional characterization of the metagenomic datasets revealed particular genetic features associated with each assigned vaginotype.

Published

2021

21. Clue Cells and Pseudo Clue Cells in Different Morphotypes of Bacterial Vaginosis

Author

Alexander Swidsinski, Vera Loening-Baucke, Sonja Swidsinski, Jack D. Sobel, Yvonne Dörffel, and Alexander Guschin

Subjects

Microbiology (medical), Gardnerella, Infectious Diseases, Bacteria, Microbiota, Vagina, Immunology, Humans, Female, Vaginosis, Bacterial, Gardnerella vaginalis, Microbiology, In Situ Hybridization, Fluorescence

Abstract

IntroductionClue cells (epithelial cells heavily covered with adherent bacteria) are an accepted clue to the diagnosis of bacterial vaginosis. However, the exact morphologic criteria of clue cells and bacterial adherence were never elaborated.Materials and MethodsWe investigated adhesive and cohesive patterns of main microbiota groups in vaginal discharge using fluorescence in situ hybridization (FISH). Samples from 500 women diagnosed with bacterial vaginosis and positive for clue cells with classic microscopy were collected from 42 gynecologic practices in Berlin and reexamined in our FISH laboratory for the spatial distribution of Bifidobacteriaceae, Gardnerella, Fannyhessea vaginae (Atopobium); low G+C (guanine+cytosine) bacteria, lactobacilli, Lactobacillus iners; Lactobacillus crispatus, Gamma-Proteobacteria; and Enterobacteriaceae, Prevotella–Bacteroides, Veillonella, and Coriobacterium groups.ResultsBacterial taxa present in vaginal smears were not accidentally assembled according to their relative abundance but were built in group-specific distribution patterns, which can be well described by two features: cohesiveness to each other and adherence to epithelial cells. Accordingly, four patterns can be distinguished: dispersed (non-adherent bacteria), dispersed adherent bacteria, cohesive (non-adherent) bacteria, and cohesive adherent bacteria. Direct cohesive adherence to the epithelial cells representing true clue cells was unique for Gardnerella species and observed only in 56% of the investigated samples. In the remaining vaginal samples, the epithelial cells were mechanically entrapped in bacterial masses, and the composition was unrelated to the epithelial cell surface, building non-adherent pseudo clue cells. The proportion of women with true clue cells in their samples from different gynecologic practices varied from 19% to 80%.DiscussionTaxon indifferent imaging is inadequate for the exact analysis of the microbial layer adjacent to the vaginal epithelial cells. Morphologically seen bacterial vaginosis is a mix of at least two different conditions: biofilm vaginosis and bacterial excess vaginosis.

Published

2022

22. A Deep Look at the Vaginal Environment During Pregnancy and Puerperium

Author

Severgnini, Marco, Morselli, Sara, Camboni, Tania, Ceccarani, Camilla, Laghi, Luca, Zagonari, Sara, Patuelli, Giulia, Pedna, Maria Federica, Sambri, Vittorio, Foschi, Claudio, Consolandi, Clarissa, Marangoni, Antonella, Severgnini, Marco, Morselli, Sara, Camboni, Tania, Ceccarani, Camilla, Laghi, Luca, Zagonari, Sara, Patuelli, Giulia, Pedna, Maria Federica, Sambri, Vittorio, Foschi, Claudio, Consolandi, Clarissa, and Marangoni, Antonella

Subjects

Microbiology (medical), Gardnerella, Bacteria, Microbiota, Postpartum Period, Immunology, Prevotella, Vaginosis, Bacterial, Microbiology, Lactobacillus, Infectious Diseases, Pregnancy, RNA, Ribosomal, 16S, vaginal microbiome, vaginal metabolome, pregnancy, puerperium, miscarriage, women’s health, Vagina, Humans, Female, Prospective Studies

Abstract

A deep comprehension of the vaginal ecosystem may hold promise for unraveling the pathophysiology of pregnancy and may provide novel biomarkers to identify subjects at risk of maternal-fetal complications. In this prospective study, we assessed the characteristics of the vaginal environment in a cohort of pregnant women throughout their different gestational ages and puerperium. Both the vaginal bacterial composition and the vaginal metabolic profiles were analyzed. A total of 63 Caucasian women with a successful pregnancy and 9 subjects who had a first trimester miscarriage were enrolled. For the study, obstetric examinations were scheduled along the three trimester phases (9-13, 20-24, 32-34 gestation weeks) and puerperium (40-55 days after delivery). Two vaginal swabs were collected at each time point, to assess the vaginal microbiome profiling (by Nugent score and 16S rRNA gene sequencing) and the vaginal metabolic composition (1H-NMR spectroscopy). During pregnancy, the vaginal microbiome underwent marked changes, with a significant decrease in overall diversity, and increased stability. Over time, we found a significant increase of Lactobacillus and a decrease of several genera related to bacterial vaginosis (BV), such as Prevotella, Atopobium and Sneathia. It is worth noting that the levels of Bifidobacterium spp. tended to decrease at the end of pregnancy. At the puerperium, a significantly lower content of Lactobacillus and higher levels of Gardnerella, Prevotella, Atopobium, and Streptococcus were observed. Women receiving an intrapartum antibiotic prophylaxis for Group B Streptococcus (GBS) were characterized by a vaginal abundance of Prevotella compared to untreated women. Analysis of bacterial relative abundances highlighted an increased abundance of Fusobacterium in women suffering a first trimester abortion, at all taxonomic levels. Lactobacillus abundance was strongly correlated with higher levels of lactate, sarcosine, and many amino acids (i.e., isoleucine, leucine, phenylalanine, valine, threonine, tryptophan). Conversely, BV-associated genera, such as Gardnerella, Atopobium, and Sneathia, were related to amines (e.g., putrescine, methylamine), formate, acetate, alcohols, and short-chain fatty-acids (i.e., butyrate, propionate).

Published

2022

23. Association between statin use, the vaginal microbiome, and Gardnerella vaginalis vaginolysin-mediated cytotoxicity.

Author

Abdelmaksoud, Abdallah A., Girerd, Philippe H., Garcia, Erin M., Brooks, J. Paul, Leftwich, Lauren M., Sheth, Nihar U., Bradley, Steven P., Serrano, Myrna G., Fettweis, Jennifer M., Huang, Bernice, IIIStrauss, Jerome F., Buck, Gregory A., and Jefferson, Kimberly K.

Subjects

*STATINS (Cardiovascular agents), *VAGINAL diseases, *HUMAN microbiota, *GARDNERELLA, *CELL-mediated cytotoxicity, *SIMVASTATIN, *PHYSIOLOGICAL effects of cholesterol

Abstract

Background: Bacterial vaginosis (BV) is the leading dysbiosis of the vaginal microbiome. The pathways leading towards the development of BV are not well understood. Gardnerella vaginalis is frequently associated with BV. G. vaginalis produces the cholesterol-dependent cytolysin (CDC), vaginolysin, which can lyse a variety of human cells and is thought to play a role in pathogenesis. Because membrane cholesterol is required for vaginolysin to function, and because HMG-CoA reductase inhibitors (statins) affect not only serum levels of cholesterol but membrane levels as well, we hypothesized that statins might affect the vaginal microbiome. Methods: To investigate the relationship between use of the statins and the vaginal microbiome, we analyzed 16S rRNA gene taxonomic surveys performed on vaginal samples from 133 women who participated in the Vaginal Human Microbiome Project and who were taking statins at the time of sampling, 152 women who reported high cholesterol levels but were not taking statins, and 316 women who did not report high cholesterol. To examine the effect of statins on the cytolytic effect of vaginolysin, the cholesterol-dependent cytolysin (CDC) produced by Gardnerella vaginalis, we assessed the effect of simvastatin pretreatment of VK2E6/E7 vaginal epithelial cells on vaginolysin-mediated cytotoxicity. Results: The mean proportion of G. vaginalis among women taking statins was significantly lower relative to women not using statins. Women using statins had higher mean proportions of Lactobacillus crispatus relative to women with normal cholesterol levels, and higher levels of Lactobacillus jensenii relative to women with high cholesterol but not taking statins. In vitro, vaginal epithelial cells pretreated with simvastatin were relatively resistant to vaginolysin and this effect was inhibited by cholesterol. Conclusions: In this cross-sectional study, statin use was associated with reduced proportions of G. vaginalis and greater proportions of beneficial lactobacilli within the vaginal microbiome. The negative association between statin use and G. vaginalis may be related to inhibition of vaginolysin function. [ABSTRACT FROM AUTHOR]

Published

2017

24. Transient microbiota exposures activate dormant Escherichia coli infection in the bladder and drive severe outcomes of recurrent disease.

Author

Gilbert, Nicole M., O’Brien, Valerie P., and Lewis, Amanda L.

Subjects

*ESCHERICHIA coli diseases, *BLADDER diseases, *PATHOGENIC microorganisms, *URINARY tract infections, *GARDNERELLA

Abstract

Pathogens often inhabit the body asymptomatically, emerging to cause disease in response to unknown triggers. In the bladder, latent intracellular Escherichia coli reservoirs are regarded as likely origins of recurrent urinary tract infection (rUTI), a problem affecting millions of women worldwide. However, clinically plausible triggers that activate these reservoirs are unknown. Clinical studies suggest that the composition of a woman’s vaginal microbiota influences her susceptibility to rUTI, but the mechanisms behind these associations are unclear. Several lines of evidence suggest that the urinary tract is routinely exposed to vaginal bacteria, including Gardnerella vaginalis, a dominant member of the vaginal microbiota in some women. Using a mouse model, we show that bladder exposure to G. vaginalis triggers E. coli egress from latent bladder reservoirs and enhances the potential for life-threatening outcomes of the resulting E. coli rUTI. Transient G. vaginalis exposures were sufficient to cause bladder epithelial apoptosis and exfoliation and interleukin-1-receptor-mediated kidney injury, which persisted after G. vaginalis clearance from the urinary tract. These results support a broader view of UTI pathogenesis in which disease can be driven by short-lived but powerful urinary tract exposures to vaginal bacteria that are themselves not “uropathogenic” in the classic sense. This “covert pathogenesis” paradigm may apply to other latent infections, (e.g., tuberculosis), or for diseases currently defined as noninfectious because routine culture fails to detect microbes of recognized significance. [ABSTRACT FROM AUTHOR]

Published

2017

25. The presence of the putative Gardnerella vaginalis sialidase A gene in vaginal specimens is associated with bacterial vaginosis biofilm.

Author

Hardy, Liselotte, Jespers, Vicky, Van den Bulck, Magelien, Buyze, Jozefien, Mwambarangwe, Lambert, Musengamana, Viateur, Vaneechoutte, Mario, and Crucitti, Tania

Subjects

*BACTERIAL vaginitis, *BIOFILMS, *GARDNERELLA, *NEURAMINIDASE, *SIALIC acids

Abstract

Bacterial vaginosis (BV) is a difficult-to-treat recurrent condition in which health-associated lactobacilli are outnumbered by other anaerobic bacteria, such as Gardnerella vaginalis. Certain genotypes of G. vaginalis can produce sialidase, while others cannot. Sialidase is known to facilitate the destruction of the protective mucus layer on the vaginal epithelium by hydrolysis of sialic acid on the glycans of mucous membranes. This process possibly facilitates adhesion of bacterial cells on the epithelium since it has been linked with the development of biofilm in other pathogenic conditions. Although it has not been demonstrated yet, it is probable that G. vaginalis benefits from this mechanism by attaching to the vaginal epithelium to initiate biofilm development. In this study, using vaginal specimens of 120 women enrolled in the Ring Plus study, we assessed the association between the putative G. vaginalis sialidase A gene by quantitative polymerase chain reaction (qPCR), the diagnosis of BV according to Nugent score, and the occurrence of a BV-associated biofilm dominated by G. vaginalis by fluorescence in situ hybridisation (FISH). We detected the putative sialidase A gene in 75% of the G. vaginalis-positive vaginal specimens and found a strong association (p<0.001) between the presence of a G. vaginalis biofilm, the diagnosis of BV according to Nugent and the detection of high loads of the G. vaginalis sialidase A gene in the vaginal specimens. These results could redefine diagnosis of BV, and in addition might guide research for new treatment. [ABSTRACT FROM AUTHOR]

Published

2017

26. The influence of sexual activity on the vaginal microbiota and Gardnerella vaginalis clade diversity in young women.

Author

Vodstrcil, Lenka A., Twin, Jimmy, Garland, Suzanne M., Fairley, Christopher K., Hocking, Jane S., Law, Matthew G., Plummer, Erica L., Fethers, Katherine A., Chow, Eric P. F., Tabrizi, Sepehr N., and Bradshaw, Catriona S.

Subjects

*YOUNG women, *GENITAL microbiology, *GARDNERELLA, *BACTERIAL diversity, *DETECTION of microorganisms, *YOUTHS' sexual behavior

Abstract

Objectives: To examine the influence of sexual activity on the composition and consistency of the vaginal microbiota over time, and distribution of Gardnerella vaginalis clades in young women. Methods: Fifty-two participants from a university cohort were selected. Vaginal swabs were self-collected every 3-months for up to 12 months with 184 specimens analysed. The vaginal microbiota was characterised using Roche 454 V3/4 region 16S rRNA sequencing, and G.vaginalis clade typing by qPCR. Results: A Lactobacillus crispatus dominated vaginal microbiota was associated with Caucasian ethnicity (adjusted relative risk ratio[ARRR] = 7.28, 95%CI:1.37,38.57,p = 0.020). An L.iners (ARRR = 17.51, 95%CI:2.18,140.33,p = 0.007) or G.vaginalis (ARRR = 14.03, 95%CI:1.22,160.69, p = 0.034) dominated microbiota was associated with engaging in penile-vaginal sex. Microbiota dominated by L.crispatus, L.iners or other lactobacilli exhibited greater longitudinal consistency of the bacterial communities present compared to ones dominated by heterogeneous non-lactobacilli (p<0.030); sexual activity did not influence consistency. Women who developed BV were more likely to have clade GV4 compared to those reporting no sex/practiced non-coital activities (OR = 11.82, 95%CI:1.87,74.82,p = 0.009). Specimens were more likely to contain multiple G.vaginalis clades rather than a single clade if women engaged in penile-vaginal sex (RRR = 9.55, 95%CI:1.33,68.38,p = 0.025) or were diagnosed with BV (RRR = 31.5, 95%CI:1.69,586.87,p = 0.021). Conclusions: Sexual activity and ethnicity influenced the composition of the vaginal microbiota of these young, relatively sexually inexperienced women. Women had consistent vaginal microbiota over time if lactobacilli were the dominant spp. present. Penile-vaginal sex did not alter the consistency of microbial communities but increased G.vaginalis clade diversity in young women with and without BV, suggesting sexual transmission of commensal and potentially pathogenic clades. [ABSTRACT FROM AUTHOR]

Published

2017

27. Genetic Heterogeneity and Taxonomic Diversity among Gardnerella Species

Author

Joana Castro, Kimberly K. Jefferson, Nuno Cerca, and Universidade do Minho

Subjects

Microbiology (medical), media_common.quotation_subject, Biology, medicine.disease_cause, Microbiology, biofilm, Genetic Heterogeneity, 03 medical and health sciences, Genus, Gardnerella, Virology, medicine, Humans, Gardnerella vaginalis, Gardnerella spp, Clade, Genotyping, 030304 developmental biology, media_common, 0303 health sciences, Science & Technology, urogenital system, 030306 microbiology, Genetic heterogeneity, Microbiota, Vaginosis, Bacterial, bacterial infections and mycoses, equipment and supplies, medicine.disease, female genital diseases and pregnancy complications, virulence, biotyping, Infectious Diseases, genotyping, Evolutionary biology, Biofilms, Vagina, Female, Bacterial vaginosis, bacterial vaginosis, Diversity (politics)

Abstract

Gardnerella spp. are the most frequent organisms found in bacterial vaginosis (BV). However, colonization by Gardnerella spp. does not always lead to BV. Developments in molecular genetics have shed new light on the diversity of the genus Gardnerella, leading to an emended description of Gardnerella vaginalis and, for the first time, the inclusion of more species of Gardnerella, namely, Gardnerella leopoldii, Gardnerella piotii, and Gardnerella swidsinskii. While no association had been made between the novel Gardnerella species and virulence potential, there is genomic evidence of a higher prevalence of some genotypes in BV cases, as compared with colonization in women in whom BV has been clinically ruled out. Gardnerella vaginalis has been considered a pivotal player in the progression of bacterial vaginosis (BV), a condition associated with serious health complications. However, G. vaginalis is also commonly found in asymptomatic or BV-negative women. This has generated interest in the question of whether genetic differences among isolates might distinguish pathogenic from commensal isolates. G. vaginalis was the only recognized species in its genus for four decades, but recently an emended description of G. vaginalis and descriptions of three new species Gardnerella leopoldii, Gardnerella piotii, and Gardnerella swidsinskii have been proposed. This review provides background on the heterogeneity and diversity within the genus Gardnerella, highlighting the main features that distinguish species and clades, and how these features may impact BV development., J.C. and N.C. acknowledge the projects PTDC/BIA-MIC/28271/2017 (POCI-01-0145-FEDER-028271), and the strategic funding of unit UID/BIO/04469/2019, supported by the Portuguese Foundation for Science and Technology., info:eu-repo/semantics/publishedVersion

Published

2020

28. Dominance network analysis of the healthy human vaginal microbiome not dominated by Lactobacillus species

Author

Zhanshan Sam Ma and Wendy Li

Subjects

Gardnerella, lcsh:Biotechnology, Biophysics, Biochemistry, Microbiology, 03 medical and health sciences, 0302 clinical medicine, Structural Biology, Staphylococcus epidermidis, lcsh:TP248.13-248.65, Dominance network (DN), Lactobacillus, Genetics, medicine, Lactobacillus iners, Dominance (ecology), Microbiome, High salience skeleton network, ComputingMethodologies_COMPUTERGRAPHICS, 030304 developmental biology, 0303 health sciences, biology, food and beverages, medicine.disease, biology.organism_classification, Computer Science Applications, 030220 oncology & carcinogenesis, Bacterial vaginosis, Non-Lactobacillus dominated vaginal microbiome (nLDVM), Core-periphery network, Bacteria, Research Article, Biotechnology

Abstract

Graphical abstract, Although Lactobacillus dominance is one of the commonest characteristics of many healthy vaginal microbiomes, a significant proportion of healthy women lack an appreciable amount of Lactobacillus in their microbiome. Indeed, the vaginal microbiomes of many BV (bacterial vaginosis) patients lack the dominance by Lactobacillus. One would wonder what are special with those healthy non-Lactobacillus dominated vaginal microbiomes (nLDVM)? Here we re-analyzed the vaginal microbiome datasets of 1107 postpartum women in rural Malawi Doyle et al. (2018) using species dominance network (SDN) analysis. We discovered that: (i) The DN of the nLDVM is predominantly mutualistic, where most competitive (negative) relationships were from bacterial vaginosis-associated bacteria (BVAB), >60% occurred between BVAB and non-BVAB genera. Gardnerella was inhibited by a mutualistic combination of 23 genera, and Lactobacillus by 15 genera. These may be possible mechanisms by which the microbiome maintains high diversity but avoids dominance by Gardnerella or Lactobacillus. Gardnerella and Lactobacillus were only cooperated with a few genera, but they were positively connected with each other. The suppressed Lactobacillus species positively associated with Gardnerella was Lactobacillus iners, indicating that L. iners might act as an “enemy” in the Lactobacillus-poor vaginal microbiome, and inhibition of Gardnerella and L. iners might be a self-protective mechanism to maintain stability and health of this microbiome. (ii) We identified skeletons of the DNs and separate pathways consisting of high salience skeletons. Finegoldia species and Staphylococcus epidermidis were the hubs of the skeleton network. The roles that they play in the nLDVM deserve more attention of future studies.

Published

2020

29. Optimization of Propidium Monoazide qPCR (Viability-qPCR) to Quantify the Killing by the Gardnerella-Specific Endolysin PM-477, Directly in Vaginal Samples from Women with Bacterial Vaginosis

Author

Agnieszka Latka, Leen Van Simaey, Marijke Reynders, Piet Cools, Tess Rogier, Barbara Lebbe, Lorenzo Corsini, Christine Landlinger, and Mario Vaneechoutte

Subjects

Microbiology (medical), Gardnerella, ETHIDIUM MONOAZIDE, RM1-950, QUANTITATIVE PCR, Biochemistry, Microbiology, Article, biofilm, viability-qPCR, Medicine and Health Sciences, Pharmacology (medical), ENUMERATION, REAL-TIME PCR, General Pharmacology, Toxicology and Pharmaceutics, CLINDAMYCIN, SELECTIVE DETECTION, ENVIRONMENTAL-SAMPLES, DIFFERENTIATION, Infectious Diseases, METRONIDAZOLE, CELLS, endolysin, bacterial vaginosis, Therapeutics. Pharmacology

Abstract

Quantification of the number of living cells in biofilm or after eradication treatments of biofilm, is problematic for different reasons. We assessed the performance of pre-treatment of DNA, planktonic cells and ex vivo vaginal biofilms of Gardnerella with propidium monoazide (PMAxx) to prevent qPCR-based amplification of DNA from killed cells (viability-qPCR). Standard PMAxx treatment did not completely inactivate free DNA and did not affect living cells. While culture indicated that killing of planktonic cells by heat or by endolysin was complete, viability-qPCR assessed only log reductions of 1.73 and 0.32, respectively. Therefore, we improved the standard protocol by comparing different (combinations of) parameters, such as concentration of PMAxx, and repetition, duration and incubation conditions of treatment. The optimized PMAxx treatment condition for further experiments consisted of three cycles, each of: 15 min incubation on ice with 50 µM PMAxx, followed by 15 min-long light exposure. This protocol was validated for use in vaginal samples from women with bacterial vaginosis. Up to log2.2 reduction of Gardnerella cells after treatment with PM-477 was documented, despite the complex composition of the samples, which might have hampered the activity of PM-477 as well as the quantification of low loads by viability-qPCR.

Published

2022

30. A New PNA-FISH Probe Targeting Fannyhessea vaginae

Author

Lúcia G. V. Sousa, Joana Castro, Angela França, Carina Almeida, Christina A. Muzny, Nuno Cerca, and Universidade do Minho

Subjects

Microbiology (medical), Immunology, Ciências Biológicas [Ciências Naturais], Atopobium vaginae, Biology, medicine.disease_cause, Microbiology, 03 medical and health sciences, chemistry.chemical_compound, Cellular and Infection Microbiology, Fannyhessea vaginae, Gardnerella, Pregnancy, medicine, Gardnerella vaginalis, Humans, Multiplex, peptide nucleic acid (PNA), 030304 developmental biology, 0303 health sciences, Ciências Naturais::Ciências Biológicas, Science & Technology, Peptide nucleic acid, 030306 microbiology, urogenital system, Biofilm, Vaginosis, Bacterial, Brief Research Report, biology.organism_classification, medicine.disease, fluorescence in situ hybridization (FISH), QR1-502, 3. Good health, Actinobacteria, Infectious Diseases, chemistry, Vagina, Female, Bacterial vaginosis, Bacteria, bacterial vaginosis

Abstract

The Supplementary Material for this article can be found online at: https://www.frontiersin.org/articles/10.3389/fcimb.2021.779376/full#supplementary-material, Bacterial vaginosis (BV) is the most common vaginal infection in women of reproductive age and has been associated with serious health complications, mainly in pregnant women. It is characterized by a decrease in the number of Lactobacillus species in the healthy vaginal microbiota and an overgrowth of strict and facultative anaerobic bacteria that develop a polymicrobial biofilm. Despite over 60 years of research investigating BV, its etiology is not fully understood. Gardnerella spp. is a crucial microorganism that contributes to the formation of the biofilm and the development of BV, but the role of other BV-associated bacteria is not clear. Nevertheless, Fannyhessea vaginae (previously known as Atopobium vaginae) is a highly specific species for BV, and co-colonization with Gardnerella is thought to be a very specific diagnostic marker. The diagnosis of BV still presents some limitations, since currently used methods often fail to accurately detect BV. This work aims to develop a novel peptide nucleic acid (PNA) probe targeting F. vaginae. This probe was further validated in a multiplex assay, which included a Gardnerella-specific PNA probe, as a possible method for diagnosis of BV, and was compared with quantification by qPCR. The new PNA probe showed excellent sensitivity and specificity and could discriminate F. vaginae-Gardnerella biofilms, confirming the potential to be used for the detection of BV-associated pathogens., This work was funded by the National Institute of Allergy and Infectious Diseases (R01AI146065-01A1). It was also partially funded by the Portuguese Foundation for Science and Technology (FCT), under the scope of the strategic funding of unit (UIDB/04469/2020)., info:eu-repo/semantics/publishedVersion

Published

2021

31. Reduced metabolic activity in established Gardnerella spp. biofilms contributes to protection from the bactericidal effects of metronidazole

Author

Salahuddin Khan and Janet E. Hill

Subjects

medicine.drug_class, Chemistry, Antibiotics, Broth microdilution, Biofilm, medicine.disease, Microbiology, Minimum inhibitory concentration, Metronidazole, Gardnerella, medicine, Bacterial vaginosis, Metabolic activity, medicine.drug

Abstract

Gardnerella spp. can form biofilm and it has been suggested that failure of antibiotic treatment of bacterial vaginosis and recurrent vaginosis are linked to this property, however no specific mechanisms have been identified. Here, we performed broth microdilution assays to measure the minimum inhibitory concentration (MIC) of metronidazole for thirty-five Gardnerella isolates in one medium in which Gardnerella spp. grow primarily as biofilm and another in which growth is primarily planktonic. The MIC of isolates in the two conditions were highly correlated (R2= 0.69, p Gardnerella isolates was not enhanced by metronidazole exposure, even at sub-MIC levels. Our results suggest that reduced metabolic activity in Gardnerella spp. growing in established biofilms may be a mechanism of protection from the bactericidal effects of metronidazole.

Published

2021

32. Genomes of Gardnerella Strains Reveal an Abundance of Prophages within the Bladder Microbiome.

Author

Malki, Kema, Shapiro, Jason W., Price, Travis K., Hilt, Evann E., Thomas-White, Krystal, Sircar, Trina, Rosenfeld, Amy B., Kuffel, Gina, Zilliox, Michael J., Wolfe, Alan J., and Putonti, Catherine

Subjects

*GARDNERELLA, *HUMAN microbiota, *HUMAN genome, *GENETIC transformation, *GENITALIA

Abstract

Bacterial surveys of the vaginal and bladder human microbiota have revealed an abundance of many similar bacterial taxa. As the bladder was once thought to be sterile, the complex interactions between microbes within the bladder have yet to be characterized. To initiate this process, we have begun sequencing isolates, including the clinically relevant genus Gardnerella. Herein, we present the genomic sequences of four Gardnerella strains isolated from the bladders of women with symptoms of urgency urinary incontinence; these are the first Gardnerella genomes produced from this niche. Congruent to genomic characterization of Gardnerella isolates from the reproductive tract, isolates from the bladder reveal a large pangenome, as well as evidence of high frequency horizontal gene transfer. Prophage gene sequences were found to be abundant amongst the strains isolated from the bladder, as well as amongst publicly available Gardnerella genomes from the vagina and endometrium, motivating an in depth examination of these sequences. Amongst the 39 Gardnerella strains examined here, there were more than 400 annotated prophage gene sequences that we could cluster into 95 homologous groups; 49 of these groups were unique to a single strain. While many of these prophages exhibited no sequence similarity to any lytic phage genome, estimation of the rate of phage acquisition suggests both vertical and horizontal acquisition. Furthermore, bioinformatic evidence indicates that prophage acquisition is ongoing within both vaginal and bladder Gardnerella populations. The abundance of prophage sequences within the strains examined here suggests that phages could play an important role in the species’ evolutionary history and in its interactions within the complex communities found in the female urinary and reproductive tracts. [ABSTRACT FROM AUTHOR]

Published

2016

33. Screening of Compounds against Gardnerella vaginalis Biofilms.

Author

Gottschick, Cornelia, Szafranski, Szymon P., Kunze, Brigitte, Sztajer, Helena, Masur, Clarissa, Abels, Christoph, and Wagner-Döbler, Irene

Subjects

*GARDNERELLA, *BACTERIAL vaginitis diagnosis, *BACTERIAL vaginitis treatment, *ANTIBIOTICS, *BIOFILMS

Abstract

Bacterial vaginosis (BV) is a common infection in reproductive age woman and is characterized by dysbiosis of the healthy vaginal flora which is dominated by Lactobacilli, followed by growth of bacteria like Gardnerella vaginalis. The ability of G. vaginalis to form biofilms contributes to the high rates of recurrence that are typical for BV and which unfortunately make repeated antibiotic therapy inevitable. Here we developed a biofilm model for G. vaginalis and screened a large spectrum of compounds for their ability to prevent biofilm formation and to resolve an existing G. vaginalis biofilm. The antibiotics metronidazole and tobramycin were highly effective in preventing biofilm formation, but had no effect on an established biofilm. The application of the amphoteric tenside sodium cocoamphoacetate (SCAA) led to disintegration of existing biofilms, reducing biomass by 51% and viability by 61% and it was able to increase the effect of metronidazole by 40% (biomass) and 61% (viability). Our data show that attacking the biofilm and the bacterial cells by the combination of an amphoteric tenside with the antibiotic metronidazole might be a useful strategy against BV. [ABSTRACT FROM AUTHOR]

Published

2016

34. Characterization of an α-Glucosidase Enzyme Conserved in Gardnerella spp. Isolated from the Human Vaginal Microbiome

Author

D. Wade Abbott, Pashupati Bhandari, David R. J. Palmer, Janet E. Hill, and Jeffrey P Tingley

Subjects

0303 health sciences, CAZy, biology, Glycogen, 030306 microbiology, Maltose, biology.organism_classification, medicine.disease, Microbiology, 03 medical and health sciences, chemistry.chemical_compound, chemistry, Gardnerella, biology.protein, medicine, Glycoside hydrolase, Amylase, Bacterial vaginosis, Molecular Biology, Bacteria, 030304 developmental biology

Abstract

Gardnerella spp. in the vaginal microbiome are associated with bacterial vaginosis, in which a lactobacillus-dominated community is replaced with mixed bacteria, including Gardnerella species. Co-occurrence of multiple Gardnerella species in the vaginal environment is common, but different species are dominant in different women. Competition for nutrients, including glycogen, could play an important role in determining the microbial community structure. Digestion of glycogen into products that can be taken up and further processed by bacteria requires the combined activities of several enzymes collectively known as amylases, which belong to glycoside hydrolase family 13 (GH13) within the CAZy classification system. GH13 is a large and diverse family of proteins, making prediction of their activities challenging. SACCHARIS annotation of the GH13 family in Gardnerella resulted in identification of protein domains belonging to eight subfamilies. Phylogenetic analysis of predicted amylase sequences from 26 genomes demonstrated that a putative α-glucosidase-encoding sequence, CG400_06090, was conserved in all Gardnerella spp. The predicted α-glucosidase enzyme was expressed, purified, and functionally characterized. The enzyme was active on a variety of maltooligosaccharides with maximum activity at pH 7. Km, kcat, and kcat/Km values for the substrate 4-nitrophenyl α-d-glucopyranoside were 8.3 μM, 0.96 min-1, and 0.11 μM-1 min-1, respectively. Glucose was released from maltose, maltotriose, maltotetraose, and maltopentaose, but no products were detected when the enzyme was incubated with glycogen. Our findings show that Gardnerella spp. produce an α-glucosidase enzyme that may contribute to the multistep process of glycogen metabolism by releasing glucose from maltooligosaccharides. IMPORTANCE Increased abundance of Gardnerella spp. is a diagnostic characteristic of bacterial vaginosis, an imbalance in the human vaginal microbiome associated with troubling symptoms, and negative reproductive health outcomes, including increased transmission of sexually transmitted infections and preterm birth. Competition for nutrients is likely an important factor in causing dramatic shifts in the vaginal microbial community but little is known about the contribution of bacterial enzymes to the metabolism of glycogen, a major carbon source available to vaginal bacteria. The significance of our research is characterizing the activity of an enzyme conserved in Gardnerella species that likely contributes to the ability of these bacteria to utilize glycogen.

Published

2021

35. Characterization of the Genitourinary Microbiome of 1,165 Middle-Aged and Elderly Healthy Individuals

Author

Junjie Qin, Xulian Shi, Junming Xu, Simin Yuan, Bo Zheng, Enpu Zhang, Guixiao Huang, Guo Li, Ganggang Jiang, Shan Gao, Cheng Tian, Ruochun Guo, Zhicong Fu, Qingru Huang, Rentao Yang, Wenyong Zhang, Shenghui Li, and Song Wu

Subjects

Microbiology (medical), food.ingredient, core microbiota, biology, Genitourinary system, co-occurrence network, Veillonella, Physiology, Gut flora, biology.organism_classification, Peptoniphilus, Microbiology, QR1-502, food, Gardnerella, Lactobacillus, microbial diversity, urotypes, Prevotella, Microbiome, Original Research, genitourinary microbiome

Abstract

Accumulated evidence shows that complex microbial communities resides in the healthy human urinary tract and can change in urological disorders. However, there lacks a comprehensive profiling of the genitourinary microbiota in healthy cohort. Here, we performed 16S rRNA gene sequencing of midstream urine specimens from 1,172 middle-aged and elderly healthy individuals. The core microbiota included 6 dominant genera (mean relative abundance >5%), including Prevotella, Streptococcus, Lactobacillus, Gardnerella, Escherichia-Shigella, and Veillonella, and 131 low-abundance genera (0.01–5%), displaying a distinct microbiome profiles to that of host-matched gut microbiota. The composition and diversity of genitourinary microbiome (GM) were distinct between genders and may fluctuate with ages. Several urotypes were identified by the stratification of microbiome profiles, which were mainly dominated by the six most predominant genera. The prevalence of urotypes was disparate between genders, and the male sample additionally harbored other urotypes dominated by Acinetobacter, Corynebacterium, Staphylococcus, or Sphingomonas. Peptoniphilus, Ezakiella, and Porphyromonas were co-occurred and co-abundant, and they may play crucial roles as keystone genera and be associated with increased microbial diversity. Our results delineated the microbial structure and diversity landscape of the GM in healthy middle-aged and elderly adults and provided insights into the influence of gender and age to it.

Published

2021

36. Gardnerella Vaginalis Dominates Multi-Species Biofilms in both Pre-Conditioned and Competitive In Vitro Biofilm Formation Models

Author

Joana Castro, Mario Vaneechoutte, A. Rosca, Nuno Cerca, Ângela Maria Oliveira Sousa França, and Universidade do Minho

Subjects

Gardnerella, Science & Technology, Ecology, medicine.diagnostic_test, biology, Bacterial synergy, Biofilm, Soil Science, Bacterial vaginosis, Triple-species biofilms, medicine.disease, medicine.disease_cause, biology.organism_classification, In vitro, Microbiology, Microbial ecology, medicine, Gardnerella vaginalis, Anaerobes, Ecology, Evolution, Behavior and Systematics, Bacteria, Fluorescence in situ hybridization

Abstract

The online version contains supplementary material available at: https://doi.org/10.1007/s00248-021-0, Bacterial vaginosis (BV) is one of the most common bacterial vaginal infections worldwide. Despite its high prevalence, BV etiology is still unknown. Nevertheless, a hallmark of BV is the presence of a highly structured polymicrobial biofilm on the vaginal epithelium, formed primarily by Gardnerella spp. and other anaerobic species, of which co-colonization with Fannyhessea vaginae is considered an important diagnostic marker. We previously developed an in vitro biofilm model wherein Gardnerella was first allowed to establish an early biofilm that served as a scaffold for other species to adhere to. To better understand ecological interactions between BV-associated bacteria, we compared triple-species biofilms formed using two distinct models: a pre-conditioned (wherein Gardnerella vaginalis formed the early biofilm) model and a competitive (wherein all three bacteria were co-incubated together) model. Interestingly, synergistic growth interactions were more significant in the competitive model. Furthermore, the biofilm structure and species-specific distribution, as assessed by confocal laser scanning microscopy and using peptide nucleic acid fluorescence in situ hybridization method, revealed two very different triple-species morphotypes, suggesting that different interactions occur in the different models. Interestingly, independent of the model or triple-species consortium tested, we observed that G. vaginalis represented most of the biofilm bacterial composition, further highlighting the relevance of this taxon in BV., This work was supported by the Portuguese Foundation for Science and Technology (FCT) by the research project [PTDC/BIA-MIC/28271/2017] under the scope of COMPETE 2020 [POCI01–0145-FEDER-028271] and by the strategic funding of unit [UID/BIO/04469/2020]. ASR acknowledges the financial support of indi vidual Grant [PD/BD/128037/2016]., info:eu-repo/semantics/publishedVersion

Published

2021

37. The cervicovaginal microbiome and its resistome in a random selection of Afro-Caribbean women

Author

Manolito Torralba, Angela T. Alleyne, Orville St. E. Roachford, Karen E. Nelson, and Claire Kuelbs

Subjects

0301 basic medicine, Microbiology (medical), Medicine (General), 030106 microbiology, Prevotella, Microbiology, Resistome, 03 medical and health sciences, chemistry.chemical_compound, Antibiotic resistance, R5-920, Gardnerella, medicine, Microbiome, biology, Streptogramin B, Biofilm, medicine.disease, biology.organism_classification, QR1-502, 030104 developmental biology, Infectious Diseases, chemistry, Metagenomics, Vagina, Bacterial vaginosis, Afro-Caribbean

Abstract

The cervicovaginal microbiome consists of community state types (CSTs) I-V. Several studies have reported positive correlations between health issues such as bacterial vaginosis (BV), acquisition of sexually transmitted infections (STIs), preterm labour and CST IV. The cervicovaginal microbiome in Afro-Caribbean women has never been characterized. Hence, this study aimed to determine the composition, CST, microbial function and resistome of the cervicovaginal microbiome in a cohort of Afro-Caribbean women using targeted (16S rRNA V4) and whole genome shotgun metagenomics. CST IV predominated in this ethnic group, with Prevotella (13.91 %) being the most abundant genus followed by Gardnerella (12.14 %). The relative abundance for Lactobacillus was 9.37 %. The most abundant species for Prevotella and Lactobacillus were P. timonensis (5.00 %) and L. iners (7.00 %), respectively. Taxa with significant nucleotide similarity to the less virulent culture collection strain G. vaginalis 409–05 (8.14 %) were more abundant than G. vaginalis ATCC 14019 (4.00 %) in this group that was asymptomatic of BV. Functional profiling revealed a high abundance of biological processes (such as flagellum-dependent cell motility, cell adhesion and quorum sensing) associated with biofilm activity. In the resistome, 2,753 predicted antimicrobial resistance (AMR) genes consisting of 28 types (mostly tet and Emr; relative abundance 52.94 % and 16.18 %, respectively) that can potentially confer resistance to tetracyclines and the macrolide-lincosamide streptogramin B group were identified. Theoretically, these AMR genes can impact the effectiveness of antibiotics commonly used in the treatment of STIs and BV. This study is the first to provide insight into the cervicovaginal microbiome and its resistome in Afro-Caribbean women.

Published

2021

38. Finding a Balance in the Vaginal Microbiome: How Do We Treat and Prevent the Occurrence of Bacterial Vaginosis?

Author

Kok-Gan Chan, Learn Han Lee, Rebecca Jane Joseph, Yi He Kuai, Lijing Wang, Hooi-Leng Ser, Loh Teng Hern Tan, Nurul Syakima Ab Mutalib, Vengadesh Letchumanan, Priyia Pusparajah, Valliammai Jayanthi Thirunavuk Arasoo, and Bey Hing Goh

Subjects

0301 basic medicine, Microbiology (medical), Gardnerella, medicine.medical_specialty, medicine.drug_class, 030106 microbiology, Antibiotics, Population, microbiome, Review, RM1-950, medicine.disease_cause, Biochemistry, Microbiology, 03 medical and health sciences, Lactobacillus, medicine, Gardnerella vaginalis, Pharmacology (medical), Microbiome, General Pharmacology, Toxicology and Pharmaceutics, Intensive care medicine, education, education.field_of_study, biology, business.industry, biology.organism_classification, medicine.disease, VMT, 030104 developmental biology, Infectious Diseases, probiotics, Vaginal microbiome, Therapeutics. Pharmacology, Bacterial vaginosis, business, Dysbiosis, bacterial vaginosis

Abstract

Bacterial vaginosis (BV) has been reported in one-third of women worldwide at different life stages, due to the complex balance in the ecology of the vaginal microbiota. It is a common cause of abnormal vaginal discharge and is associated with other health issues. Since the first description of anaerobic microbes associated with BV like Gardnerella vaginalis in the 1950s, researchers have stepped up the game by incorporating advanced molecular tools to monitor and evaluate the extent of dysbiosis within the vaginal microbiome, particularly on how specific microbial population changes compared to a healthy state. Moreover, treatment failure and BV recurrence rate remain high despite the standard antibiotic treatment. Consequently, researchers have been probing into alternative or adjunct treatments, including probiotics or even vaginal microbiota transplants, to ensure successful treatment outcomes and reduce the colonization by pathogenic microbes of the female reproductive tract. The current review summarizes the latest findings in probiotics use for BV and explores the potential of vaginal microbiota transplants in restoring vaginal health.

Published

2021

39. Emended description of Gardnerella vaginalis and description of Gardnerella leopoldii sp. nov., Gardnerella piotii sp. nov. and Gardnerella swidsinskii sp. nov., with delineation of 13 genomic species within the genus Gardnerella

Author

Piet Cools, Alexander Guschin, Leen Van Simaey, Filip Van Nieuwerburgh, Mario Vaneechoutte, and Yannick Gansemans

Subjects

DNA, Bacterial, 0106 biological sciences, 0301 basic medicine, Gardnerella, Whole genome sequence analysis, Desorption ionization, Biology, medicine.disease_cause, 010603 evolutionary biology, 01 natural sciences, Microbiology, 03 medical and health sciences, RNA, Ribosomal, 16S, Genus Gardnerella, medicine, Gardnerella vaginalis, Phylogeny, Ecology, Evolution, Behavior and Systematics, Strain atcc, Whole genome sequencing, Base Composition, Ms analysis, Nucleic Acid Hybridization, Sequence Analysis, DNA, General Medicine, Bacterial Typing Techniques, 030104 developmental biology, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization

Abstract

Whole genome sequence analysis (digital DNA-DNA hybridization and average nucleotide identity) was carried out for 81 sequenced full genomes of the genus Gardnerella, including ten determined in this study, and indicated the existence of 13 genomic species, of which five consist of only one strain and of which only five contain more than four sequenced genomes. Furthermore, a collection of ten Gardnerella strains, representing the emended species G. vaginalis and the newly described species Gardnerella leopoldii, Gardnerella piotii and Gardnerella swidsinskii, was studied. Matrix-assisted laser desorption ionization time-of-flight MS analysis of the protein signatures identified specific peaks that can be used to differentiate these four species. Only strains of G. vaginalis produce β-galactosidase. We emend the description of G. vaginalis (type strain ATCC 14018T=LMG 7832T=CCUG 3717T) and describe the novel species Gardnerella leopoldii sp. nov. (UGent 06.41T=LMG 30814T=CCUG 72425T), Gardnerella piotii sp. nov. (UGent 18.01T=LMG 30818T=CCUG 72427T) and Gardnerella swidsinskii sp. nov. (GS 9838-1T=LMG 30812T=CCUG 72429T).

Published

2019

40. Genome Investigation of Urinary Gardnerella Strains and Their Relationship to Isolates of the Vaginal Microbiota

Author

Alan J. Wolfe, Travis K. Price, Elias Crum, Catherine Putonti, Evann E. Hilt, and Krystal Thomas-White

Subjects

0301 basic medicine, Gardnerella, Genotype, Urinary system, 030106 microbiology, Biology, medicine.disease_cause, Microbiology, 03 medical and health sciences, Lower urinary tract symptoms, RNA, Ribosomal, 16S, urinary microbiome, medicine, Gardnerella vaginalis, Humans, lower urinary tract symptoms, Molecular Biology, Gram-Positive Bacterial Infections, Phylogeny, Whole Genome Sequencing, Genitourinary system, urogenital system, Microbiota, Interstitial cystitis, phylogenomics, Vaginosis, Bacterial, medicine.disease, bacterial infections and mycoses, equipment and supplies, female genital diseases and pregnancy complications, QR1-502, 030104 developmental biology, medicine.anatomical_structure, Urinary Tract Infections, Vagina, Female, Bacterial vaginosis, Genome, Bacterial, Research Article

Abstract

Prior research into the bacterium Gardnerella vaginalis has largely focused on its association with bacterial vaginosis (BV). However, G. vaginalis is also frequently found within the urinary microbiota of women with and without lower urinary tract symptoms as well as individuals with chronic kidney disease, interstitial cystitis, and BV., Gardnerella is a frequent member of the urogenital microbiota. Given the association between Gardnerella vaginalis and bacterial vaginosis (BV), significant efforts have been focused on characterizing this species in the vaginal microbiota. However, Gardnerella also is a frequent member of the urinary microbiota. In an effort to characterize the bacterial species of the urinary microbiota, we present here 10 genomes of urinary Gardnerella isolates from women with and without lower urinary tract symptoms. These genomes complement those of 22 urinary Gardnerella strains previously isolated and sequenced by our team. We included these genomes in a comparative genome analysis of all publicly available Gardnerella genomes, which include 33 urinary isolates, 78 vaginal isolates, and 2 other isolates. While once this genus was thought to consist of a single species, recent comparative genome analyses have revealed 3 new species and an additional 9 groups within Gardnerella. Based upon our analysis, we suggest a new group for the species. We also find that distinction between these Gardnerella species/groups is possible only when considering the core or whole-genome sequence, as neither the sialidase nor vaginolysin genes are sufficient for distinguishing between species/groups despite their clinical importance. In contrast to the vaginal microbiota, we found that only five Gardnerella species/groups have been detected within the lower urinary tract. Although we found no association between a particular Gardnerella species/group(s) and urinary symptoms, further sequencing of urinary Gardnerella isolates is needed for both comprehensive taxonomic characterization and etiological classification of Gardnerella in the urinary tract. IMPORTANCE Prior research into the bacterium Gardnerella vaginalis has largely focused on its association with bacterial vaginosis (BV). However, G. vaginalis is also frequently found within the urinary microbiota of women with and without lower urinary tract symptoms as well as individuals with chronic kidney disease, interstitial cystitis, and BV. This prompted our investigation into Gardnerella from the urinary microbiota and all publicly available Gardnerella genomes from the urogenital tract. Our work suggests that while some Gardnerella species can survive in both the urinary tract and vagina, others likely cannot. This study provides the foundation for future studies of Gardnerella within the urinary tract and its possible contribution to lower urinary tract symptoms.

Published

2021

41. Isolation and Characterization of Gardnerella Phage vB_Gva_AB1, a Bacteriophage Infecting a Clinical Strain of Gardnerella vaginalis

Author

Christelle Desnues, Sonia Bouchard, Alexia Bordigoni, Institut méditerranéen d'océanologie (MIO), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université de Toulon (UTLN), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Toulon (UTLN)-Centre National de la Recherche Scientifique (CNRS), Microbes évolution phylogénie et infections (MEPHI), and Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS)

Subjects

0301 basic medicine, 030106 microbiology, medicine.disease_cause, Genome, Microbiology, Bacteriophage, 03 medical and health sciences, chemistry.chemical_compound, Immunology and Microbiology (miscellaneous), Gardnerella, Genetics, medicine, Gardnerella vaginalis, Molecular Biology, [SDU.OCEAN]Sciences of the Universe [physics]/Ocean, Atmosphere, Whole genome sequencing, biology, Genome Sequences, medicine.disease, biology.organism_classification, 3. Good health, 030104 developmental biology, chemistry, Bacterial vaginosis, DNA, GC-content

Abstract

Gardnerella vaginalis is the presumed causative agent of bacterial vaginosis. Here, we describe the complete genome sequence of Gardnerella phage vB_Gva_AB1, induced from a vaginal bacterial strain from a woman suffering with bacterial vaginosis. The phage double-stranded DNA (dsDNA) genome is 50,268 bp long with a GC content of 39.55% and contains 62 predicted open reading frames (ORFs)., Gardnerella vaginalis is the presumed causative agent of bacterial vaginosis. Here, we describe the complete genome sequence of Gardnerella phage vB_Gva_AB1, induced from a vaginal bacterial strain from a woman suffering with bacterial vaginosis. The phage double-stranded DNA (dsDNA) genome is 50,268 bp long with a GC content of 39.55% and contains 62 predicted open reading frames.

Published

2021

42. Slipped-Strand Mispairing in the Gene Encoding Sialidase NanH3 in Gardnerella spp

Author

Shakya P. Kurukulasuriya, Mo H. Patterson, and Janet E. Hill

Subjects

Phase variation, 0303 health sciences, 030306 microbiology, Immunology, Biofilm, Biology, Sialidase, Microbiology, Stop codon, 03 medical and health sciences, Infectious Diseases, Gardnerella, Extracellular, Parasitology, Slipped strand mispairing, Gene, 030304 developmental biology

Abstract

Cell wall proteins with sialidase activity are involved in carbohydrate assimilation, adhesion to mucosal surfaces, and biofilm formation. Gardnerella spp. inhabit the human vaginal microbiome and encode up to three sialidase enzymes, two of which are suspected to be cell wall associated. Here, we demonstrate that the gene encoding extracellular sialidase NanH3 is found almost exclusively in Gardnerella piotii and the closely related species Gardnerella genome sp. 3, and its presence correlates with a sialidase-positive phenotype in a collection of 112 Gardnerella isolates. The nanH3 gene sequence includes a homopolymeric repeat of cytosines that varies in length within cell populations, indicating that this gene is subject to slipped-strand mispairing, a mechanism of phase variation in bacteria. Variation in the length of the homopolymer sequence results in production of either the full-length sialidase protein or truncated peptides lacking the sialidase domain due to introduction of reading-frame shifts and premature stop codons. Phase variation in NanH3 may be involved in immune evasion or modulation of adhesion to host epithelial cells and formation of biofilms characteristic of the vaginal dysbiosis known as bacterial vaginosis.

Published

2021

43. Long-term stability of the urogenital microbiota of asymptomatic European women

Author

Svetlana Ugarcina-Perovic, Filipa Grosso, Joana Rocha, Luísa Peixe, and Magdalena Ksiezarek

Subjects

Microbiology (medical), Adult, Time Factors, lcsh:QR1-502, medicine.disease_cause, Bacterial Physiological Phenomena, Microbiology, lcsh:Microbiology, 03 medical and health sciences, Gardnerella, Lactobacillus, RNA, Ribosomal, 16S, medicine, Gardnerella vaginalis, Humans, Microbiome, Uropathogens, 030304 developmental biology, Species diversity, Genetics, 0303 health sciences, Culturomics, biology, Lactobacillus crispatus, Bacteria, 030306 microbiology, Microbiota, biology.organism_classification, Europe, Streptococcus agalactiae, Genetic marker, Carrier State, Vagina, Dysbiosis, Female, Research Article, Voided midstream urine

Abstract

Background To date, information on healthy female urinary microbiota is available mostly at genus level and at one time point. However, profound species-level characterization of healthy urinary microbiome and its stability over time are essential for further correct interpretation of its role in healthy urogenital tract. In this study, we investigated female urogenital microbiome (FUM) at two timepoints (within 2.5-year interval) in young asymptomatic European women. We used culturomics with accurate isolates’ identification (MALDI-TOF MS and gene markers sequencing) to understand species stability within healthy FUM. Results Extended culturomics of voided midstream urine sample pairs revealed a mean Shannon diversity index of 1.25 and mean of 19 species/sample (range 5–39 species; total of 115 species; 1830 isolates). High overall species variability between individuals was captured by beta diversity and a variety of community structure types, with the largest cluster characterized by Lactobacillus crispatus, often in combination with Gardnerella vaginalis or Gardnerella genomospecies 3. Significant FUM composition differences, related to Finegoldia magna and Streptococcus anginosus, according to smoking status were found. A high species variability within individuals (Shannon index SD > 0.5 in 7 out of 10 sample pairs) with a mean of 29% of shared species (range 9.1–41.7%) was observed. Moreover, 4 out of 10 sample pairs clustered in the same community structure type. The stable FUM sample pairs presented high abundance of Lactobacillus crispatus, Streptococcus agalactiae or Lactobacillus paragasseri and Bifidobacterium spp.. Moreover, Gardnerella vaginalis, Gardnerella genomospecies 3 or Gardnerella swidsinskii were often maintained within individuals in high abundance. Conclusions Shift in species composition at two distant timepoints was frequently observed among urogenital microbiome of European asymptomatic women. This suggests possible interchange of particular species in healthy FUM and the existence of multiple health-associated FUM compositions in certain individuals. Additionally, we provided additional evidence on resilience of particular bacterial communities and identified certain species more prone to persist in urogenital tract. This study revealed important details on the FUM composition complexity relevant for studies aiming to understand microbiota role in the urogenital tract health and for identification of eubiotic and dysbiotic FUM.

Published

2021

44. Sequence Comparison of Vaginolysin from Different Gardnerella Species

Author

Myrna G. Serrano, Erin M. Garcia, Kimberly K. Jefferson, Laahirie Edupuganti, David J. Edwards, and Gregory A. Buck

Subjects

Microbiology (medical), Gardnerella, virulence factors, lcsh:Medicine, Virulence, Biology, medicine.disease_cause, Article, Microbiology, 03 medical and health sciences, Immunopathology, medicine, Immunology and Allergy, Gardnerella vaginalis, Molecular Biology, Peptide sequence, 030304 developmental biology, vaginal microbiota, 0303 health sciences, General Immunology and Microbiology, 030306 microbiology, Toxin, lcsh:R, medicine.disease, vaginolysin, Infectious Diseases, Bacterial vaginosis, bacterial vaginosis, Human Microbiome Project

Abstract

Gardnerella vaginalis has recently been split into 13 distinct species. In this study, we tested the hypotheses that species-specific variations in the vaginolysin (VLY) amino acid sequence could influence the interaction between the toxin and vaginal epithelial cells and that VLY variation may be one factor that distinguishes less virulent or commensal strains from more virulent strains. This was assessed by bioinformatic analyses of publicly available Gardnerella spp. sequences and quantification of cytotoxicity and cytokine production from purified, recombinantly produced versions of VLY. After identifying conserved differences that could distinguish distinct VLY types, we analyzed metagenomic data from a cohort of female subjects from the Vaginal Human Microbiome Project to investigate whether these different VLY types exhibited any significant associations with symptoms or Gardnerella spp.-relative abundance in vaginal swab samples. While Type 1 VLY was most prevalent among the subjects and may be associated with increased reports of symptoms, subjects with Type 2 VLY dominant profiles exhibited increased relative Gardnerella spp. abundance. Our findings suggest that amino acid differences alter the interaction of VLY with vaginal keratinocytes, which may potentiate differences in bacterial vaginosis (BV) immunopathology in vivo.

Published

2021

45. Dequalinium chloride effectively disrupts bacterial vaginosis (BV) Gardnerella spp. biofilms

Author

Joana Rolo, Rita Palmeira-de-Oliveira, Nuno Cerca, Carlos Gaspar, Ana Palmeira-de-Oliveira, José Martinez-de-Oliveira, and Universidade do Minho

Subjects

Microbiology (medical), dequalinium chloride, lcsh:Medicine, medicine.disease_cause, Article, biofilm, Microbiology, 03 medical and health sciences, Gardnerella, medicine, Confocal laser scanning microscopy, Immunology and Allergy, recurrence prevention, Molecular Biology, 030304 developmental biology, 0303 health sciences, Science & Technology, General Immunology and Microbiology, treatment, 030306 microbiology, Multispecies biofilms, Chemistry, lcsh:R, Biofilm, medicine.disease, 3. Good health, Infectious Diseases, Dequalinium chloride, Bacterial vaginosis, Metabolic activity, Vaginal infections, bacterial vaginosis

Abstract

Bacterial vaginosis (BV) is the most frequent vaginal infection worldwide. It is caused by the overgrowth of anaerobic vaginal pathogens such as Gardnerella spp. BV has been associated with the occurrence of dense multispecies biofilms on the vaginal mucosa. Treatment of biofilm-associated infections such as BV is challenging. In this study, we have tested the role of a quaternary ammonium compound, dequalinium chloride (DQC), in the eradication of Gardnerella spp. biofilms. The effects of the test substance on the biomass and the metabolic activity of the biofilm of Gardnerella spp. were assessed in vitro using a microtiter plate assay. In addition, the effect of DQC on the Gardnerella spp. biofilm was further assessed by using scanning electron microscopy and confocal laser scanning microscopy. The results showed that DQC was particularly effective in the destruction of BV-associated Gardnerella spp. biotypes, impacting both their biomass and metabolic activity. In addition, the disruption of biofilm architecture was evident and was probably caused by multiple mechanisms of action. We conclude that DQC is an antibiofilm agent and is able to efficiently destroy Gardnerella spp. BV-associated biofilms. Therefore, it is a valid option for BV therapy and has the potential to prevent BV recurrences., This work was supported by national funds from Fundação para a Ciência e Tecnologia (FCT), Portugal (Project UIDB/00709/2020), and by the European Regional Development Fund (ERDF), under the Portugal 2020 Program, through the Regional Operational Program of the Center (Centro2020), through the Project with the reference UIDB/00709/2020. C. Gaspar was supported by fellowship SFRH/BDE/112920/2015 from FCT; J. Rolo was supported by fellowship SFRH/BPD/115145/2016 from FCT. The human resources, consumables, and reagents, as well as publication charges, were partially funded by Medinova, Switzerland. All the results achieved are reported in this document (including negative results), and no member of Medinova interfered in the experimental design or discussion of results., info:eu-repo/semantics/publishedVersion

Published

2021

46. Potential Association between Vaginal Microbiota and Cervical Carcinogenesis in Korean Women: A Cohort Study

Author

Se Young Jeon, Gun Oh Chong, Da-Ryung Jung, Hyung Soo Han, Jae-Ho Shin, Yoon Hee Lee, and Gi-Ung Kang

Subjects

0301 basic medicine, Microbiology (medical), medicine.medical_specialty, vaginosis, medicine.disease_cause, Cervical intraepithelial neoplasia, Microbiology, Gastroenterology, Article, 03 medical and health sciences, 0302 clinical medicine, Gardnerella, Virology, Internal medicine, Lactobacillus, medicine, lcsh:QH301-705.5, biology, business.industry, Streptococcus, Vaginal flora, vaginal microbiome, biology.organism_classification, medicine.disease, CIN severity, 030104 developmental biology, lcsh:Biology (General), 030220 oncology & carcinogenesis, CIN prediction, Bacterial vaginosis, business, Dysbiosis, Cohort study

Abstract

Convincing studies demonstrated that vaginal flora is one of the most impactful key components for the well-being of the genital tract in women. Nevertheless, the potential capability of vaginal-derived bacterial communities as biomarkers to monitor cervical carcinogenesis (CC) has yet to be studied actively compared to those of bacterial vaginosis (BV). We hypothesized that vaginal microbiota might be associated with the progression of CC. In this study, we enrolled 23 participants, including healthy controls (HC group, n = 7), patients with cervical intraepithelial neoplasia (CIN) 2 and 3 (CIN group, n = 8), and patients with invasive cervical cancer (CAN group, n = 8). Amplicon sequencing was performed using the Ion Torrent PGM to characterize the vaginal microbiota. Patients with CIN and CAN presented vaginal microbiota dysbiosis compared with HC. The alpha diversity analysis revealed that CC has a trend to be increased in terms of diversity indexes. Moreover, CC was associated with the abundance of specific microbes, of which Lactobacillus and Gardnerella were the most significantly different between HC and CIN, whereas Streptococcus was differentially abundant in CAN compared with CIN. We then evaluated their diagnostic abilities. Testing in terms of diagnostic ability using the three genera revealed considerably high performance with an area under the receiver-operating characteristic curve of 0.982, 0.953, and 0.922. The current study suggests that the presence of Gardnerella and Streptococcus may be involved in the advancment of CC.

Published

2021

47. Quantitative modeling predicts mechanistic links between pre-treatment microbiome composition and metronidazole efficacy in bacterial vaginosis

Author

Christina Lee, Gustavo F. Doncel, Melissa M. Lemke, Jacques Ravel, Benjamin Hampel, Kelly B. Arnold, Andrew T. Gustin, Andrea R. Thurman, Nichole R. Klatt, and Ryan K. Cheu

Subjects

0301 basic medicine, medicine.drug_class, Science, 030106 microbiology, Antibiotics, Systems analysis, General Physics and Astronomy, Bacterial growth, Biology, medicine.disease_cause, Article, General Biochemistry, Genetics and Molecular Biology, Microbiology, Cohort Studies, 03 medical and health sciences, Gardnerella, Metronidazole, Lactobacillus, medicine, Humans, Gardnerella vaginalis, Microbiome, Multidisciplinary, Bacteria, Microbiota, food and beverages, Vaginosis, Bacterial, General Chemistry, medicine.disease, biology.organism_classification, Anti-Bacterial Agents, Treatment Outcome, 030104 developmental biology, Vagina, Female, Bacterial vaginosis, medicine.drug

Abstract

Bacterial vaginosis is a condition associated with adverse reproductive outcomes and characterized by a shift from a Lactobacillus-dominant vaginal microbiota to a polymicrobial microbiota, consistently colonized by strains of Gardnerella vaginalis. Metronidazole is the first-line treatment; however, treatment failure and recurrence rates remain high. To understand complex interactions between Gardnerella vaginalis and Lactobacillus involved in efficacy, here we develop an ordinary differential equation model that predicts bacterial growth as a function of metronidazole uptake, sensitivity, and metabolism. The model shows that a critical factor in efficacy is Lactobacillus sequestration of metronidazole, and efficacy decreases when the relative abundance of Lactobacillus is higher pre-treatment. We validate results in Gardnerella and Lactobacillus co-cultures, and in two clinical cohorts, finding women with recurrence have significantly higher pre-treatment levels of Lactobacillus relative to bacterial vaginosis–associated bacteria. Overall results provide mechanistic insight into how personalized differences in microbial communities influence vaginal antibiotic efficacy., Bacterial vaginosis (BV) is typically caused by a shift in the vaginal microbiota from a Lactobacillus-dominant community to one colonised by strains of Gardenerella vaginalis and treatment with the antibiotic metronidazole (MNZ) often results in failure and recurrence. Here, the authors use modelling and in vitro assays to show that sequestration of MNZ by Lactobacillus is critical in reducing efficacy and women with a higher pre-treatment Lactobacillus/Gardnerella ratio are more likely to recur.

Published

2020

48. Engineered phage endolysin eliminates Gardnerella in bacterial vaginosis without damaging the healthy vaginal microbiome

Author

Christine Landlinger, Lorenzo Corsini, Alexander Guschin, Lenka Tisakova, Leen Van Simaey, Mario Vaneechoutte, Agnieszka Latka, Sonja Swidsinski, Timo Schwebs, Alexander Swidsinski, and Vera Oberbauer

Subjects

medicine.drug_class, Antibiotics, Lysin, Biology, biology.organism_classification, medicine.disease, Microbiology, Gardnerella, Lactobacillus, medicine, Bacterial vaginosis, Clue cell, Bacteria, Prophage

Abstract

BackgroundBacterial vaginosis is characterized by an imbalance of the vaginal microbiome in which the normally predominant lactobacilli are replaced by other bacterial species. Initiated by strains of the bacterium Gardnerella, a characteristic biofilm forms on the vaginal epithelium, explaining the typical presence of clue cells. This biofilm contributes to the resilience of the bacteria to antibiotic treatment, which may explain the frequent recurrence of BV.ObjectiveIn this study, we investigate whether a therapy based on bacteriophage endolysins which specifically lyse Gardnerella, in particular the drug candidate PM-477, might be a promising alternative to broad-spectrum antibiotics and antiseptics.Study designTo identify Gardnerella specific endolysins, we searched for endolysin-encoding sequences in regions of Gardnerella genomes that are of prophage origin. This search identified fourteen homologous genes predicted to encode 1,4-beta-N-acetylmuramidase-type endolysins. When expressed in Escherichia coli and purified, the recombinant proteins demonstrated strong bactericidal activity against four different Gardnerella species. By shuffling the N-terminal catalytic domains and C-terminal cell wall-binding domains between the homologues, we produced 81 chimeric endolysins. These endolysins were tested for their activity and specificity in vitro and ex-vivo on vaginal samples from fifteen BV positive patients. Fluorescence in situ hybridization was used for visualization.ResultsSeveral engineered endolysins were 10-fold more active than the most active wild-type enzymes. When tested against a panel of 20 Gardnerella strains, the most active endolysin, called PM-477, showed minimum inhibitory concentrations of 0.13–8 µg/ml. PM-477 had no effect on Lactobacillus strains or other species of vaginal bacteria. Furthermore, the efficacy of PM-477 was tested on vaginal samples from fifteen patients with either first time or recurring bacterial vaginosis. In fourteen cases, PM-477 killed the Gardnerella bacteria and physically dissolved the biofilms without affecting the remaining vaginal microbiome.ConclusionThe high selectivity and effectiveness in eliminating Gardnerella, both in cultures of isolated strains as well as in clinically derived samples of natural polymicrobial biofilms, makes PM-477 a promising drug candidate and an alternative to antibiotics for the treatment of bacterial vaginosis, especially in patients with frequent recurrence.

Published

2020

49. Characterization of the Vaginal DNA Virome in Health and Dysbiosis

Author

Jørgen Skov Jensen, Thomas D. Leser, Rasmus Riemer Jakobsen, Thor Haahr, Peter Humaidan, Witold Kot, Josué L. Castro-Mejía, Ling Deng, and Dennis Sandris Nielsen

Subjects

Adult, 0301 basic medicine, bacteriophages, 030106 microbiology, lcsh:QR1-502, Atopobium vaginae, Biology, Vaginal microbiome, Article, lcsh:Microbiology, Microbiology, vaginal virome, Young Adult, 03 medical and health sciences, Gardnerella, Virology, Lactobacillus, medicine, Humans, Bacteriophages, Human virome, Bacteria, urogenital system, Virome, vaginal microbiome, Vaginosis, Bacterial, dysbiosis, Bacterial vaginosis, medicine.disease, biology.organism_classification, female genital diseases and pregnancy complications, Cross-Sectional Studies, 030104 developmental biology, Infectious Diseases, Metagenomics, Vagina, Dysbiosis, Vaginal virome, Female, Nugent score, bacterial vaginosis

Abstract

Bacterial vaginosis (BV) is characterized by a reduction in Lactobacillus (L.) spp. abundance and increased abundance of facultative anaerobes, such as Gardnerella spp. BV aetiology is not fully understood, however, bacteriophages could play a pivotal role in the perturbation of the vaginal bacterial community. We investigated the vaginal viral community, including bacteriophages and the association to the bacterial community and BV-status. Vaginal samples from 48 patients undergoing IVF treatment for non-female factor infertility were subjected to metagenomic sequencing of purified virus-like particles. The vaginal viral community was characterized and correlated with the BV-status by Nugent score, bacterial community, structure, and the presence of key vaginal bacterial species. The majority of identified vaginal viruses belonged to the class of double-stranded DNA bacteriophages, with eukaryotic viruses constituting 4% of the total reads. Clear links between the viral community composition and BV (q = 0.006, R = 0.26) as well as the presence of L. crispatus (q = 0.001, R = 0.43), L. iners, Gardnerella spp., and Atopobium vaginae were found (q &lt, 0.002, R &gt, 0.15). The eukaryotic viral community also correlated with BV-status (q = 0.018, R = 0.20). In conclusion, the vaginal virome was clearly linked with bacterial community structure and BV-status.

Published

2020

50. Slipped strand mispairing in the gene encoding sialidase NanH3 inGardnerellaspp

Author

Shakya P. Kurukulasuriya, Mo H. Patterson, and Janet E. Hill

Subjects

Phase variation, Gardnerella, Extracellular, Biofilm, Slipped strand mispairing, Biology, Sialidase, Gene, Stop codon, Microbiology

Abstract

Cell wall proteins with sialidase activity are involved in carbohydrate assimilation, adhesion to mucosal surfaces, and biofilm formation.Gardnerellaspp. inhabit the human vaginal microbiome and encode up to three sialidase enzymes, two of which are suspected to be cell wall associated. Here we demonstrate that the gene encoding extracellular sialidase NanH3 is found almost exclusively inG. piotiiand closely relatedGardnerellagenome sp. 3, and its presence correlates with sialidase positive phenotype in a collection of 112Gardnerellaisolates. ThenanH3gene sequence includes a homopolymeric repeat of cytosines that varies in length within cell populations, indicating that this gene is subject to slipped-strand mispairing, a mechanisms of phase variation in bacteria. Variation in the length of the homopolymer sequence results in encoding of either the full length sialidase protein or truncated peptides lacking the sialidase domain due to introduction of reading-frame shifts and premature stop codons. Phase variation in NanH3 may be involved in immune evasion or modulation of adhesion to host epithelial cells, and formation of biofilms characteristic of the vaginal dysbiosis known as bacterial vaginosis.

Published

2020