The vaginal microbiota composition influences cervicovaginal and systemic inflammation induced by Chlamydia trachomatis infection
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Background
Chlamydiosis, a sexually transmitted infection (STI) induced by Chlamydia trachomatis (CT), increases local inflammation (cytokine production, recruitment of immune cells such as neutrophils). Few is known on the impact of CT infection on the phenotype of cervicovaginal neutrophils. Vaginal microbiota (VM) is a key factor in the regulation of local immune responses and STI acquisition where Lactobacillus spp are associated with protection. In this study, the VM of cynomolgus macaques was enriched with Lactobacillus crispatus after local metronidazole treatment followed by repeated intravaginal inoculations of CT. VM composition, CT infection and local and systemic inflammation were monitored.
Results
First, we observed that metronidazole treatment induced drastic modifications of the VM by reducing the abundance of several anaerobes and increasing the number of natural Lactobacillus spp ( Lactobacillus johnsonii and its prophage mainly) as well as opportunistic bacteria ( Streptococcus spp and Staphylococcus spp) . After CT exposure of L. crispatus treated or not animals, a non-persisting CT infection and no association between L. crispatus enrichment and a lower susceptibility to CT infection were detected. However, the production of serum specific anti-CT IgG was higher in L. crispatus treated animals. Moreover, the production of anti-CT IgG was associated with various bacterial species. An increased production of peripheral blood cytokines after CT infection was observed in untreated animals, whereas L. crispatus treated animals exhibited an increased production of cervicovaginal cytokines. Peripheral blood neutrophils were more mature and activated after CT infection/inoculation in both groups. Very few alterations of the cervicovaginal neutrophil phenotype were noticed after CT infection. Markers expressed on neutrophils were associated with bacterial species and differences were detected according to groups.
Conclusion
These results suggest a better local immune response as well as a better control on systemic inflammation upon CT infection in L. crispatus treated animals compared to untreated animals. Indeed, it highlight an impact of VM composition on the local and systemic immune responses induced by CT infection. This study confirmed that VM composition can be a powerful tool to modulate local inflammation and STI susceptibility.
