Abstract
The vaginal mucosa can be colonized by many bacteria including commensal organisms and potential pathogens, such as Staphylococcus aureus. Some strains of S. aureus produce the superantigen toxic shock syndrome toxin-1, which can penetrate the vaginal epithelium to cause toxic shock syndrome. We have observed that a female was mono-colonized with Enterococcus faecalis vaginally as tested in aerobic culture, even upon repeated culture for six months, suggesting this organism was negatively influencing colonization by other bacteria. In recent studies, we demonstrated an “outside-in” mechanism of cytokine signaling and consequent inflammation that facilitates the ability of potential pathogens to initiate infection from mucosal surfaces. Thus, we hypothesized that this strain of E. faecalis may make anti-inflammatory factors which block disease progression of more pathogenic organisms. E. faecalis MN1 inhibited interleukin-8 production from human vaginal epithelial cells in response to the vaginal pathogens Candida albicans, Gardnerella vaginalis, and Neisseria gonorrhoeae, as well as to toxic shock syndrome toxin-1. We further demonstrated that this organism secretes two tetramic acid compounds which appear responsible for inhibition of interleukin-8 production, as well as inhibition of T cell proliferation due to toxic shock syndrome toxin-1. Microbicides that include anti-inflammatory molecules, such as these tetramic acid compounds naturally produced by E. faecalis MN1, may be useful in prevention of diseases that develop from vaginal infections.
Highlights
The vaginal mucosa is a dynamic environment that consists of stratified, nonkeratinized, squamous epithelium, vaginal secretions, and commensal bacteria that reside on the surface
We have previously shown that the staphylococcal superantigen toxic shock syndrome toxin-1 (TSST-1) stimulates production of several cytokines and chemokines by human vaginal epithelial cells (HVECs), with IL-8 production being the most upregulated [15,16]; we utilized the toxin for all subsequent experiments
The ability of a vaginally-isolated strain of E. faecalis to inhibit TSST-1induced IL-8 from the vaginal epithelium may prove to be significant since we have previously shown that ‘‘outside-in’’ signaling resulting in superantigen-induced inflammation may play a role in the development of toxic shock syndrome (TSS) from the vaginal mucosa [14,15,17]
Summary
The vaginal mucosa is a dynamic environment that consists of stratified, nonkeratinized, squamous epithelium, vaginal secretions, and commensal bacteria that reside on the surface. During reproductive years, the pH of the vaginal environment at times other than menstruation is 4.0–4.5, providing an unfavorable colonization environment for many pathogens. This is primarily due to production of lactic acid by vaginal lactobacilli [7]; other lactic acid-producing bacteria, such as E. faecalis, can potentially contribute to the acidic environment. Both lactobacilli [8] and E. faecalis [9,10] produce hydrogen peroxide, which is known to be directly cytotoxic to various microorganisms
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