Gardnerella vaginalis

Gardnerella vaginalis is a species of Gram-variable-staining facultative anaerobic bacteria. The organisms are small (1.0–1.5 μm in diameter) non-spore-forming, nonmotile coccobacilli.^[3]

Gardnerella vaginalis
Microscopic picture of vaginal epithelial clue cells coated with Gardnerella vaginalis, magnified 400 times
Scientific classification
Domain:	Bacteria
Phylum:	Actinomycetota
Class:	Actinomycetia
Order:	Bifidobacteriales
Family:	Bifidobacteriaceae
Genus:	Gardnerella
Species:	G. vaginalis
Binomial name
Gardnerella vaginalis (Gardner and Dukes 1955)[1] Greenwood and Pickett 1980[2]

Once classified as Haemophilus vaginalis and afterwards as Corynebacterium vaginalis, G. vaginalis grows as small, circular, convex, gray colonies on chocolate agar; it also grows on HBT^[4] agar. A selective medium for G. vaginalis is colistin-oxolinic acid blood agar.

Clinical significance

G. vaginalis is a facultatively anaerobic Gram-variable rod that is involved, together with many other bacteria, mostly anaerobic, in bacterial vaginosis in some women as a result of a disruption in the normal vaginal microflora. The resident facultative anaerobic Lactobacillus population in the vagina is responsible for the acidic environment. Once the anaerobes have supplanted the normal vaginal bacteria, prescription antibiotics with anaerobic coverage may have to be given to re-establish the equilibrium of the ecosystem. G. vaginalis is not considered the cause of the bacterial vaginosis, but a signal organism of the altered microbial ecology associated with overgrowth of many bacterial species.^[5]

While typically isolated in genital cultures, it may also be detected in other samples from blood, urine, and the pharynx. Although G. vaginalis is a major species present in bacterial vaginosis, it can also be isolated from women without any signs or symptoms of infection.^[6]

It has a Gram-positive cell wall,^[7] but, because the cell wall is so thin, it can appear either Gram-positive or Gram-negative under the microscope. It is associated microscopically with clue cells, which are epithelial cells covered in bacteria.^{[citation needed]}

G. vaginalis produces a pore-forming toxin, vaginolysin, which affects only human cells.^[8]

Protease and sialidase enzyme activities frequently accompany G. vaginalis.^{[9][10][11][12]}

Diagnosis

 

Gram stain of cells from the vagina (the same magnification) with normal bacterial flora (top) and the bacteria that cause vaginosis (bottom).

A variety of diagnosis techniques are currently available for identifying Gardnerella Vaginalis such as the OSOM BV Blue assay, FemExam cards and nucleic acid amplification tests (NAATs), resulting in the determination of an ongoing BV infection. The OSOM BV Blue Assay is a chromogenis poinf-of-care test which can measure sialidase levels in vaginal fluids. As sialidases are produced by bacteria Gardnerella and Bacteroides species, it is known as a diagnostic technique for some time. FemExam, besides detecting vaginal fluid pH and trimethylamine presence, is able to measure proline iminopeptidase activity of G.Vaginalis.^[13] Finally, the nucleic acid amplification tests (NAATs), such as PCR, are commonly used detection techniques due to its ability of detecting as little as one organism in a sample, providing a closer look to Gardnerella Vaginalis and BV status.^[14]

Treatment

Bacterial vaginosis is commonly treated with antibiotics such as metronidazole or clindamycin, which work by targeting G.vaginalis. (Ferris et al., 1995) Additionally, a study published in the Journal of Clinical Microbiology described the effectiveness of clindamycin in inhibiting the growth of G. Vaginalis in vitro; it was found that clindamycin was able to inhibit the growth of the organism at concentrations as low as 0.25 µg/ mL. However, due to the increased prevalence of antibiotics resistance, alternative treatment options for BV are still in development. Boric acid has been shown to be effective against BV, due to its ability to remove BV-specific biofilms and enhance eradication of G.vaginalis and other potential bacterial pathogens, resulting in reduced recurrence of symptomatic BV. (Sobel et al., 2009) Its mechanism of action is still not fully understood, but its effects on inhibitance of bacterial enzymes, biofilm formation and the permeability of bacterial cell walls, make it a useful treatment for recurrent BV.

Symptoms

G. vaginalis is associated with bacterial vaginosis,^[15] which may be asymptomatic,^[16] or may have symptoms including vaginal discharge, vaginal irritation, and a "fish-like" odor. In the amine whiff test, 10% KOH is added to the discharge; a positive result is indicated if a fishy smell is produced. This and other tests can be used to distinguish between vaginal symptoms related to G. vaginalis and those caused by other organisms, such as Trichomonas and Candida albicans, which are similar and may require different treatment. Trichomonas vaginalis and G. vaginalis have similar clinical presentations and can cause a frothy gray or yellow-green vaginal discharge, pruritus, and produce a positive "whiff-test". The two can be distinguished using a wet-mount slide, where a swab of the vaginal epithelium is diluted and then placed onto a slide for observation under a microscope. Gardnerella reveals a classic "clue cell" under the microscope, showing bacteria adhering to the surface of squamous epithelial cells.^[17]

History

Gardnerella vaginalis was described in 1953 by Sidney Leopold as a nonmotile, nonencapsulated, pleomorphic gram-negative rod from the vaginas of women who showed symptoms of cervicitis. As though it's been suggested that the organism was related to the genus Haemophilus due to its morphology and growth conditions, the relation between this organism and vaginitis was still an unknown.^[18] It was in 1955, when Gardner and Dukes described the microorganism in relation to bacterial vaginosis (BV).^[19] Multiple risk factors associated with the development of BV have been identified. However, its exact etiology remains elusive due to its complexity.^[20]

See also

• List of bacterial vaginosis microbiota

References

1. Gardner HL, Dukes CD (1955). "Haemophilus vaginalis vaginitis. A newly defined specific infection previously classified 'Non-specific vaginitis'". Am J Obstet Gynecol. 69 (5): 962–976. doi:10.1016/0002-9378(55)90095-8. PMID 14361525.
2. J. R. Greenwood; M. J. Pickett (January 1980). "Transfer of Haemophilus vaginalis Gardner and Dukes to a New Genus, Gardnerella: G. vaginalis (Gardner and Dukes) comb. nov". International Journal of Systematic Bacteriology. 30 (1): 170–178. doi:10.1099/00207713-30-1-170.
3. Taylor-Robinson D (1984). "The bacteriology of Gardnerella vaginalis". Scandinavian Journal of Urology and Nephrology. Supplementum. 86: 41–55. PMID 6399409.
4. Totten, P A; Amsel, R; Hale, J; Piot, P; Holmes, K K (January 1982). "Selective differential human blood bilayer media for isolation of Gardnerella (Haemophilus) vaginalis". Journal of Clinical Microbiology. 15 (1): 141–147. doi:10.1128/jcm.15.1.141-147.1982. ISSN 0095-1137. PMC 272039. PMID 6764766.
5. "Bacterial Vaginosis Infection: Symptoms and Treatment". eMedicineHealth.
6. Kairys, Norah; Carlson, Karen; Garg, Manish (2024), "Gardnerella Vaginalis", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID 29083684, retrieved 2024-04-01
7. Harper, J; Davis, G (1982). "Cell Wall Analysis of Gardnerella vaginalis". Int J Syst Bacteriol. 32: 48–50. doi:10.1099/00207713-32-1-48.
8. Gelber, S. E.; Aguilar, J. L.; Lewis, K. L. T.; Ratner, A. J. (2008). "Functional and Phylogenetic Characterization of Vaginolysin, the Human-Specific Cytolysin from Gardnerella vaginalis". Journal of Bacteriology. 190 (11): 3896–3903. doi:10.1128/JB.01965-07. PMC 2395025. PMID 18390664.
9. Lopes dos Santos Santiago, G.; Deschaght, P.; Aila, N. El; Kiama, T. N.; Verstraelen, H.; Jefferson, K. K.; Temmerman, M.; Vaneechoutte, M. (2011). "Gardnerella vaginalis comprises three distinct genotypes of which only two produce sialidase". Am. J. Obstet. Gynecol. 204: 450.
10. Harwich, M. D. Jr.; Alves, J. M.; Buck, G. A.; Strauss, J. F.; Patterson, J. L.; Oki, A. T.; Girerd, P. H.; Jefferson, K. K. (2010). "Drawing the line between commensal and pathogenic Gardnerella vaginalis through genome analysis and virulence studies". BMC Genomics. 11: 375. doi:10.1186/1471-2164-11-375. PMC 2890570. PMID 20540756.
11. von Nicolai, H.; Hammann, R.; Salehnia, S.; Zilliken, F. (1984). "A newly discovered sialidase from Gardnerella vaginalis". Zentralbl. Bakteriol. Mikrobiol. Hyg. A. 258 (1): 20–26. doi:10.1016/s0176-6724(84)80003-6. PMID 6335332.
12. Yeoman, C. J.; Yildirim, S.; Thomas, S. M.; Durkin, A. S.; Torralba, M.; Sutton, G.; Buhay, C. J.; Ding, Y.; Dugan-Rocha, S. P.; Muzny, D. M.; Qin, X.; Gibbs, R. A.; Leigh, S. R.; Stumpf, R.; White, B. A.; Highlander, S. K.; Nelson, K. E.; Wilson, B. A. (2010). "Comparative genomics of Gardnerella vaginalis strains reveals substantial differences in metabolic and virulence potential". PLOS ONE. 5 (8): e12411. Bibcode:2010PLoSO...512411Y. doi:10.1371/journal.pone.0012411. PMC 2928729. PMID 20865041.
13. West B, Morison L, Schim van der Loeff M, Gooding E, Awasana AA, Demba E, Mayaud P (June 2003). "Evaluation of a new rapid diagnostic kit (FemExam) for bacterial vaginosis in patients with vaginal discharge syndrome in The Gambia". Sexually Transmitted Diseases. 30 (6): 483–9. doi:10.1097/00007435-200306000-00003. PMID 12782948.
14. Coleman JS, Gaydos CA (September 2018). "Molecular Diagnosis of Bacterial Vaginosis: an Update". Journal of Clinical Microbiology. 56 (9). doi:10.1128/JCM.00342-18. PMC 6113459. PMID 29769280.
15. Pleckaityte, Milda; Zilnyte, Milda; Zvirbliene, Aurelija (2012). "Insights into the CRISPR/Cas system of Gardnerella vaginalis". BMC Microbiology. 12: 301. doi:10.1186/1471-2180-12-301. PMC 3559282. PMID 23259527.
16. Schwebke, Jane R. (2000). "Asymptomatic bacterial vaginosis". American Journal of Obstetrics & Gynecology. 183 (6): 1434–1439. doi:10.1067/mob.2000.107735. PMID 11120507.
17. Reiter S, Kellogg Spadt S (January 2019). "Bacterial vaginosis: a primer for clinicians". Postgraduate Medicine. 131 (1): 8–18. doi:10.1080/00325481.2019.1546534. PMID 30424704. S2CID 53302848.
18. Vontver LA, Eschenbach DA (June 1981). "The role of Gardnerella vaginalis in nonspecific vaginitis". Clinical Obstetrics and Gynecology. 24 (2): 439–60. doi:10.1097/00003081-198106000-00009. PMID 6975685.
19. Turovskiy Y, Sutyak Noll K, Chikindas ML (May 2011). "The aetiology of bacterial vaginosis". Journal of Applied Microbiology. 110 (5): 1105–28. doi:10.1111/j.1365-2672.2011.04977.x. PMC 3072448. PMID 21332897.
20. Abbe C, Mitchell CM (2023). "Bacterial vaginosis: a review of approaches to treatment and prevention". Frontiers in Reproductive Health. 5: 1100029. doi:10.3389/frph.2023.1100029. PMC 10264601. PMID 37325243.

External links

 

Wikimedia Commons has media related to Gardnerella vaginalis.

• Gardnerella at the U.S. National Library of Medicine Medical Subject Headings (MeSH)
• Type strain of Gardnerella vaginalis at BacDive - the Bacterial Diversity Metadatabase