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Vaginal flora

October 19, 2023

Further information: List of microbiota species of the lower reproductive tract of women

Vaginal flora, vaginal microbiota or vaginal microbiome are the microorganisms that colonize the vagina. They were discovered by the German gynecologist Albert Döderlein in 1892[1] and are part of the overall human flora. The amount and type of bacteria present have significant implications for an individual's overall health.[2] The primary colonizing bacteria of a healthy individual are of the genus Lactobacillus,[3] such as L. crispatus, and the lactic acid they produce is thought to protect against infection by pathogenic species.[4]

Lactobacilli and a vaginal squamous cell.

Lactobacilli Edit

The primary colonizing bacteria of a healthy individual are of the genus Lactobacillus (90–95%), the most common being L. crispatus, L. iners, L. jensenii, and L. gasseri.[5] Since the first description of lactobacilli by Döderlein, lactobacilli have been generally considered the gatekeepers of the vaginal ecosystem. Lactobacilli have been shown to inhibit in vitro growth of pathogenic microorganisms, e.g. Bacteroides fragilis, Escherichia coli, Gardnerella vaginalis, Mobiluncus spp., Neisseria gonorrhoeae, Peptostreptococcus anaerobius, Prevotella bivia and Staphylococcus aureus. It is generally accepted that this is achieved mainly through the action of lactic acid.[6][7][8][9] Moreover, lactobacilli normally help to prevent long-term colonization of the vagina by adhering to vaginal epithelial cells. This usually reduces pathogens from infecting to the vaginal epithelium.[10]

Next to lactic acid production and competition for adherence, other antagonistic mechanisms include hydrogen peroxide (a broad-spectrum antimicrobial) and bacteriocins (target-specific antimicrobials) production.[11][12]

pH and lactic acid Edit

 
Glycogen is the complex form of sugar present in the vaginal epithelium that is metabolized into lactic acid

Low pH is generally accepted to be the main mechanism controlling the composition of the vaginal microflora. Although the lactic acid produced by lactobacilli contributes to the vaginal acidity, it is still not proven to be the primary source of low vaginal pH, but the fact remains that most lactobacilli thrive best at a pH < 3.5 .[13][14][15] Normal vaginal pH is considered to be under 4.5 with a range of 3.8 to 4.4.[5]

Hydrogen peroxide Edit

Production of hydrogen peroxide (H2O2) is a well-known mechanism for bacterial antagonism,[16][17][18] inhibiting growth of microorganisms via direct interaction or via human myeloperoxidase.[19][20][21] Hydrogen peroxide-producing lactobacilli have been shown to inactivate HIV-1, herpes simplex virus type 2 (HSV-2), Trichomonas vaginalis, G. vaginalis, P. bivia and E. coli. O'Hanlon[12] and Baeten[22] found that 96% of Lactobacillus species from a healthy vaginal ecosystem produced H2O2 (L. jensenii and L. vaginalis produce the highest levels of H2O2),[11][23] whereas only 6% of the lactobacilli recovered from women with BV produced H2O2.[19] In agreement with this, L. iners, most frequently associated with disturbed vaginal microflora,[24][25] is a poor producer of H2O2.[26][27] Vaginal colonization by H2O2-producing lactobacilli has been associated with a decrease in the occurrence of bacterial vaginosis (BV).[28] However, more recently O'Hanlon et al.[29] demonstrated that cervicovaginal fluid and semen have a significant H2O2-blocking activity and they later [12] demonstrated that physiological concentrations of H2O2 below 100 μM fail to inactivate any of the 17 tested BV-associated bacteria, e.g. A. vaginae, G. vaginalis, Mobiluncus spp., P. bivia, P. corporis, Mycoplasma hominis, even in the presence of human myeloperoxidase, known to increase the microbicidal activity of H2O2.[12] Only supraphysiologic concentrations of exogenous H2O2 (0.34% w/v, 100 mM) were sufficient to inactivate BV-associated bacteria at which concentration it more potently inactivated vaginal lactobacilli (L. crispatus, L. gasseri, L. iners and L. jensenii). A concentration of 100 mM H2O2 is approximately 50-fold higher than lactobacilli are capable of producing even under optimal aerobic, low-antioxidant conditions, and approximately 5,000-fold higher than the estimated H2O2 concentration in vivo. Even more remarkable, the addition of only 1% vaginal fluid blocked the microbicidal activity of 1 M H2O2. Possible explanations may be that cervicovaginal fluid and semen contain proteins, glycoproteins, polysaccharides, lipids, and other molecules with the potential to react with and inactivate H2O2. In addition, the vagina is hypoxic most of the time, whereas lactobacilli require oxygen to produce hydrogen peroxide. It is also remarkable that catalase, which provides bacteria protection against toxic H2O2, is absent in lactobacilli,[19][30] and as such they would be unprotected against their own H2O2 production. In contrast, under optimal anaerobic growth conditions, physiological concentrations of lactic acid inactivated the BV-associated pathogens without affecting the vaginal lactobacilli.[12][29] In summary, although the hydrogen peroxide production of lactobacilli has been considered as an important antimicrobial component, contributing to the colonization resistance provided by lactobacilli,[11][31] and although there seems to be a link between H2O2-producing lactobacilli and normal vaginal microflora, recent data do not support this role for H2O2.[12][29]

Bacteriocins Edit

Vaginal lactobacilli produce antimicrobial peptides, i.e. bacteriocins such as lactocin 160 and crispasin.[13] with inhibitory activity ranging from narrow (closely related Lactobacillus species) to broad (diverse groups of bacteria, including G. vaginalis and P. bivia),[8] and bacteriocin-like substances, with a broader spectrum of activity than bacteriocins (e.g. a heat-resistant peptide produced by Ligilactobacillus salivarius subsp. salivarius CRL 1328). Several studies have indicated that the activity of bacteriocins is favored by low pH.

The inhibitory substances produced by vaginal Lactobacillus is a primary factor in protecting the vaginal microbiota, with organic acids, bacteriocins, and hydrogen peroxide. These act synergistically against infection by pathogens. Not all Lactobacillus spp. and not all strains within one Lactobacillus species exhibit all 3 mechanisms.[13] Lactobacillus species differ in premenopausal women, i.e. L. crispatus, L. jensenii, L. iners, L. gasseri (and possibly L. vaginalis), as assessed through cultivation-dependent and cultivation-independent techniques.[24][25][26][32] Vaginal lactobacilli have been shown to display a pronounced vaginotropism, and their pili act as ligands for attachment to receptors of vaginal epithelial cells. The limited number of Lactobacillus spp. found in the human vagina is remarkable, which leads to the possibility that there are host factors that select for specific organisms, that these species have unusual characteristics that allow them to successfully colonize the vagina, or both .[33] However, the vaginotropism, does not only apply to this selected group of lactobacilli that stand for a healthy vagina, but also for the bacterial species associated with BV.[34] The microbiota detected in the human genital and gut econiche do not appear to grow outside their host and probably are likely to rely on the close contact between parents and their children for transmission,[34] e.g. mother to neonate transmission of genital microflora, most probably also with gut microflora homogenously distributed over the baby's body including skin, the oral cavity, nasopharynx, and feces.[35]

Other microbiota Edit

 
Gram stain of lactobacilli and squamous epithelial cells in vaginal swab

Healthy, normal vaginal microbiota that is dominated by lactobacilli may differ among some ethnic groups. Non-pathogenic vaginal species are part of the normal microbiota of some women.[24][36] Several studies have demonstrated that a significant proportion (7–33%) of healthy asymptomatic women (especially black and Hispanic women)[37] lack appreciable numbers of Lactobacillus species in the vagina,[33][38] and instead have a vaginal microbiota that consist of other lactic acid-producing bacteria, i.e. species from the genera Atopobium, Leptotrichia, Leuconostoc, Megasphaera, Pediococcus, Streptococcus and Weissella,[32][33][37] All ethnic populations have vaginal microflora communities containing lactic acid producing bacteria.[33][37] This implies that not all communities may be equally resilient, so that if the resilience of a vaginal community is low then transitory changes in the structure of these communities may occur more readily in response to disturbances of various kinds, including menses, sexual intercourse, douching and contraceptive practices. These differences in the structure and composition of microbial communities may underlie well-known differences in the susceptibility of women in these racial groups to BV and various vaginal infections.[37][39][40] Though vaginal microflora may be disturbed, and lactic acid is produced by other species,[41] vaginal pH and acid production establish normal vaginal microbiota. The pH further decreases during pregnancy.[42]

Other vaginal bacterial species Edit

Further information: List of bacterial vaginosis microbiota

Other bacterial species are frequently found in the vagina, such as the Gram positive cocci: Atopobium vaginae, Peptostreptococcus spp., Staphylococcus spp., Streptococcus spp., and Bacteroides spp., Fusobacterium spp., Gardnerella vaginalis, Mobiluncus, Prevotella spp., and Gram-negative enteric organisms, such as Escherichia coli.[24][25] Mycoplasma and Ureaplasma are frequently found in the vagina. Some of the obligate and facultative anaerobic bacteria are associated with BV.[38]

Pregnancy Edit

Main article: Vaginal microbiota in pregnancy

The effect of tampon use on vaginal flora is debated, but application of tampons appears not to significantly modify the balance of bacterial presence.[43] Pregnancy alters the microbiota with a reduction in species/genus diversity.[44]

Disease prevention Edit

 
Vaginal squamous cell with normal vaginal flora versus bacterial vaginosis on Pap stain. Normal vaginal flora (left) is predominantly rod-shaped Lactobacilli, whereas in bacterial vaginosis (right) there is an overgrowth of bacteria, which can be of various species.

A healthy vaginal microbiome aids in the prevention of bacterial vaginosis, yeast infections and other possible problems by maintaining an acidic pH (< 4.5) that is unfavourable for the growth of common pathogens, such as Gardnerella vaginalis. The lactobacilli present in a healthy vaginal microbiome also occupy the ecological niche that would otherwise be available for exploitation by pathogenic organisms. However, harmful bacteria or an imbalance in bacteria can lead to infection.[45]

Bacterial vaginosis is associated with the presence of Gardnerella vaginalis and Peptostreptococcus anaerobius[46] and a decrease in the number of Lactobacillus species that comprise the healthy vaginal microbiota.[44][47][48][49]

Research Edit

Investigations have found that the presence of lacto-bacillus dominated bacteria in the vagina is associated with a lower incidence of sexually transmitted infections.[50][51]

See also Edit

References Edit

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External links Edit

  •   Media related to Vaginal flora at Wikimedia Commons
  • Döderlein's bacteria

October 19, 2023
vaginal, flora, further, information, list, microbiota, species, lower, reproductive, tract, women, parts, this, article, those, related, documentation, need, updated, please, help, update, this, article, reflect, recent, events, newly, available, information,. Further information List of microbiota species of the lower reproductive tract of women Parts of this article those related to documentation need to be updated Please help update this article to reflect recent events or newly available information April 2015 Vaginal flora vaginal microbiota or vaginal microbiome are the microorganisms that colonize the vagina They were discovered by the German gynecologist Albert Doderlein in 1892 1 and are part of the overall human flora The amount and type of bacteria present have significant implications for an individual s overall health 2 The primary colonizing bacteria of a healthy individual are of the genus Lactobacillus 3 such as L crispatus and the lactic acid they produce is thought to protect against infection by pathogenic species 4 Lactobacilli and a vaginal squamous cell Contents 1 Lactobacilli 1 1 pH and lactic acid 1 2 Hydrogen peroxide 1 3 Bacteriocins 2 Other microbiota 3 Other vaginal bacterial species 4 Pregnancy 5 Disease prevention 6 Research 7 See also 8 References 9 External linksLactobacilli EditThe primary colonizing bacteria of a healthy individual are of the genus Lactobacillus 90 95 the most common being L crispatus L iners L jensenii and L gasseri 5 Since the first description of lactobacilli by Doderlein lactobacilli have been generally considered the gatekeepers of the vaginal ecosystem Lactobacilli have been shown to inhibit in vitro growth of pathogenic microorganisms e g Bacteroides fragilis Escherichia coli Gardnerella vaginalis Mobiluncus spp Neisseria gonorrhoeae Peptostreptococcus anaerobius Prevotella bivia and Staphylococcus aureus It is generally accepted that this is achieved mainly through the action of lactic acid 6 7 8 9 Moreover lactobacilli normally help to prevent long term colonization of the vagina by adhering to vaginal epithelial cells This usually reduces pathogens from infecting to the vaginal epithelium 10 Next to lactic acid production and competition for adherence other antagonistic mechanisms include hydrogen peroxide a broad spectrum antimicrobial and bacteriocins target specific antimicrobials production 11 12 pH and lactic acid Edit nbsp Glycogen is the complex form of sugar present in the vaginal epithelium that is metabolized into lactic acidLow pH is generally accepted to be the main mechanism controlling the composition of the vaginal microflora Although the lactic acid produced by lactobacilli contributes to the vaginal acidity it is still not proven to be the primary source of low vaginal pH but the fact remains that most lactobacilli thrive best at a pH lt 3 5 13 14 15 Normal vaginal pH is considered to be under 4 5 with a range of 3 8 to 4 4 5 Hydrogen peroxide Edit Production of hydrogen peroxide H2O2 is a well known mechanism for bacterial antagonism 16 17 18 inhibiting growth of microorganisms via direct interaction or via human myeloperoxidase 19 20 21 Hydrogen peroxide producing lactobacilli have been shown to inactivate HIV 1 herpes simplex virus type 2 HSV 2 Trichomonas vaginalis G vaginalis P bivia and E coli O Hanlon 12 and Baeten 22 found that 96 of Lactobacillus species from a healthy vaginal ecosystem produced H2O2 L jensenii and L vaginalis produce the highest levels of H2O2 11 23 whereas only 6 of the lactobacilli recovered from women with BV produced H2O2 19 In agreement with this L iners most frequently associated with disturbed vaginal microflora 24 25 is a poor producer of H2O2 26 27 Vaginal colonization by H2O2 producing lactobacilli has been associated with a decrease in the occurrence of bacterial vaginosis BV 28 However more recently O Hanlon et al 29 demonstrated that cervicovaginal fluid and semen have a significant H2O2 blocking activity and they later 12 demonstrated that physiological concentrations of H2O2 below 100 mM fail to inactivate any of the 17 tested BV associated bacteria e g A vaginae G vaginalis Mobiluncus spp P bivia P corporis Mycoplasma hominis even in the presence of human myeloperoxidase known to increase the microbicidal activity of H2O2 12 Only supraphysiologic concentrations of exogenous H2O2 0 34 w v 100 mM were sufficient to inactivate BV associated bacteria at which concentration it more potently inactivated vaginal lactobacilli L crispatus L gasseri L iners and L jensenii A concentration of 100 mM H2O2 is approximately 50 fold higher than lactobacilli are capable of producing even under optimal aerobic low antioxidant conditions and approximately 5 000 fold higher than the estimated H2O2 concentration in vivo Even more remarkable the addition of only 1 vaginal fluid blocked the microbicidal activity of 1 M H2O2 Possible explanations may be that cervicovaginal fluid and semen contain proteins glycoproteins polysaccharides lipids and other molecules with the potential to react with and inactivate H2O2 In addition the vagina is hypoxic most of the time whereas lactobacilli require oxygen to produce hydrogen peroxide It is also remarkable that catalase which provides bacteria protection against toxic H2O2 is absent in lactobacilli 19 30 and as such they would be unprotected against their own H2O2 production In contrast under optimal anaerobic growth conditions physiological concentrations of lactic acid inactivated the BV associated pathogens without affecting the vaginal lactobacilli 12 29 In summary although the hydrogen peroxide production of lactobacilli has been considered as an important antimicrobial component contributing to the colonization resistance provided by lactobacilli 11 31 and although there seems to be a link between H2O2 producing lactobacilli and normal vaginal microflora recent data do not support this role for H2O2 12 29 Bacteriocins Edit Vaginal lactobacilli produce antimicrobial peptides i e bacteriocins such as lactocin 160 and crispasin 13 with inhibitory activity ranging from narrow closely related Lactobacillus species to broad diverse groups of bacteria including G vaginalis and P bivia 8 and bacteriocin like substances with a broader spectrum of activity than bacteriocins e g a heat resistant peptide produced by Ligilactobacillus salivarius subsp salivarius CRL 1328 Several studies have indicated that the activity of bacteriocins is favored by low pH The inhibitory substances produced by vaginal Lactobacillus is a primary factor in protecting the vaginal microbiota with organic acids bacteriocins and hydrogen peroxide These act synergistically against infection by pathogens Not all Lactobacillus spp and not all strains within one Lactobacillus species exhibit all 3 mechanisms 13 Lactobacillus species differ in premenopausal women i e L crispatus L jensenii L iners L gasseri and possibly L vaginalis as assessed through cultivation dependent and cultivation independent techniques 24 25 26 32 Vaginal lactobacilli have been shown to display a pronounced vaginotropism and their pili act as ligands for attachment to receptors of vaginal epithelial cells The limited number of Lactobacillus spp found in the human vagina is remarkable which leads to the possibility that there are host factors that select for specific organisms that these species have unusual characteristics that allow them to successfully colonize the vagina or both 33 However the vaginotropism does not only apply to this selected group of lactobacilli that stand for a healthy vagina but also for the bacterial species associated with BV 34 The microbiota detected in the human genital and gut econiche do not appear to grow outside their host and probably are likely to rely on the close contact between parents and their children for transmission 34 e g mother to neonate transmission of genital microflora most probably also with gut microflora homogenously distributed over the baby s body including skin the oral cavity nasopharynx and feces 35 Other microbiota Edit nbsp Gram stain of lactobacilli and squamous epithelial cells in vaginal swabHealthy normal vaginal microbiota that is dominated by lactobacilli may differ among some ethnic groups Non pathogenic vaginal species are part of the normal microbiota of some women 24 36 Several studies have demonstrated that a significant proportion 7 33 of healthy asymptomatic women especially black and Hispanic women 37 lack appreciable numbers of Lactobacillus species in the vagina 33 38 and instead have a vaginal microbiota that consist of other lactic acid producing bacteria i e species from the genera Atopobium Leptotrichia Leuconostoc Megasphaera Pediococcus Streptococcus and Weissella 32 33 37 All ethnic populations have vaginal microflora communities containing lactic acid producing bacteria 33 37 This implies that not all communities may be equally resilient so that if the resilience of a vaginal community is low then transitory changes in the structure of these communities may occur more readily in response to disturbances of various kinds including menses sexual intercourse douching and contraceptive practices These differences in the structure and composition of microbial communities may underlie well known differences in the susceptibility of women in these racial groups to BV and various vaginal infections 37 39 40 Though vaginal microflora may be disturbed and lactic acid is produced by other species 41 vaginal pH and acid production establish normal vaginal microbiota The pH further decreases during pregnancy 42 Other vaginal bacterial species EditFurther information List of bacterial vaginosis microbiota Other bacterial species are frequently found in the vagina such as the Gram positive cocci Atopobium vaginae Peptostreptococcus spp Staphylococcus spp Streptococcus spp and Bacteroides spp Fusobacterium spp Gardnerella vaginalis Mobiluncus Prevotella spp and Gram negative enteric organisms such as Escherichia coli 24 25 Mycoplasma and Ureaplasma are frequently found in the vagina Some of the obligate and facultative anaerobic bacteria are associated with BV 38 Pregnancy EditMain article Vaginal microbiota in pregnancy The effect of tampon use on vaginal flora is debated but application of tampons appears not to significantly modify the balance of bacterial presence 43 Pregnancy alters the microbiota with a reduction in species genus diversity 44 Disease prevention Edit nbsp Vaginal squamous cell with normal vaginal flora versus bacterial vaginosis on Pap stain Normal vaginal flora left is predominantly rod shaped Lactobacilli whereas in bacterial vaginosis right there is an overgrowth of bacteria which can be of various species A healthy vaginal microbiome aids in the prevention of bacterial vaginosis yeast infections and other possible problems by maintaining an acidic pH lt 4 5 that is unfavourable for the growth of common pathogens such as Gardnerella vaginalis The lactobacilli present in a healthy vaginal microbiome also occupy the ecological niche that would otherwise be available for exploitation by pathogenic organisms However harmful bacteria or an imbalance in bacteria can lead to infection 45 Bacterial vaginosis is associated with the presence of Gardnerella vaginalis and Peptostreptococcus anaerobius 46 and a decrease in the number of Lactobacillus species that comprise the healthy vaginal microbiota 44 47 48 49 Research EditInvestigations have found that the presence of lacto bacillus dominated bacteria in the vagina is associated with a lower incidence of sexually transmitted infections 50 51 See also EditHuman Microbiome Project Lactic acid bacteria List of microbiota species of the lower reproductive tract of women Skin flora Vaginal microbiota in pregnancyReferences Edit David M April 2006 Albert und Gustav Doderlein ein kritischer Blick auf zwei besondere Lebenslaufe deutscher Ordinarien Albert and Gustav Doderlein a critical view to the biographies of two German professors Zentralblatt fur Gynakologie in German 128 2 56 9 doi 10 1055 s 2006 921412 PMID 16673245 D Ippolito S Di Nicuolo F Pontecorvi A Gratta M Scambia G Di Simone N 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30397679 a b Sharma H Tal R Clark NA Segars JH January 2014 Microbiota and pelvic inflammatory disease Seminars in Reproductive Medicine 32 1 43 9 doi 10 1055 s 0033 1361822 PMC 4148456 PMID 24390920 Lewis Felicia M T Bernstein Kyle T Aral Sevgi O April 2017 Vaginal Microbiome and Its Relationship to Behavior Sexual Health and Sexually Transmitted Diseases Obstetrics and Gynecology 129 4 643 654 doi 10 1097 AOG 0000000000001932 ISSN 1873 233X PMC 6743080 PMID 28277350 Bacterial Vaginosis BV Condition Information National Institute of Child Health and Human Development 2013 05 21 Retrieved 3 March 2015 Nardis C Mosca L Mastromarino P September 2013 Vaginal microbiota and viral sexually transmitted diseases Annali di Igiene 25 5 443 56 doi 10 7416 ai 2013 1946 PMID 24048183 What are the symptoms of bacterial vaginosis National Institute of Child Health and Human Development 2013 05 21 Retrieved 22 May 2016 Ravel J Gajer P Abdo Z Schneider GM Koenig SS McCulle SL et al March 2011 Vaginal microbiome of reproductive age women Proceedings of the National Academy of Sciences of the United States of America 108 Suppl 1 4680 7 Bibcode 2011PNAS 108 4680R doi 10 1073 pnas 1002611107 PMC 3063603 PMID 20534435 Nunn KL Wang YY Harit D Humphrys MS Ma B Cone R et al October 2015 Enhanced Trapping of HIV 1 by Human Cervicovaginal Mucus Is Associated with Lactobacillus crispatus Dominant Microbiota mBio 6 5 e01084 15 doi 10 1128 mBio 01084 15 PMC 4611035 PMID 26443453 Anderson DJ Marathe J Pudney J June 2014 The structure of the human vaginal stratum corneum and its role in immune defense American Journal of Reproductive Immunology 71 6 618 23 doi 10 1111 aji 12230 PMC 4024347 PMID 24661416 External links Edit nbsp Media related to Vaginal flora at Wikimedia Commons Doderlein s bacteria Portals nbsp Biology nbsp Medicine Retrieved from https en wikipedia org w index php title Vaginal flora amp oldid 1160622990, wikipedia, wiki, book, books, library,

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