Abstract
The optimal protective immunity against Chlamydia trachomatis (C.t.) is still not fully resolved. One of the unresolved issues concerns the importance of resident immunity, since a recent study showed that optimal protection against a transcervical (TC) infection required genital tissue-resident memory T cells. An important question in the Chlamydia field is therefore if a parenteral vaccine strategy, inducing only circulating immunity primed at a nonmucosal site, should be pursued by Chlamydia vaccine developers. To address this question we studied the protective efficacy of a parenteral Chlamydia vaccine, formulated in the Th1/Th17 T cell-inducing adjuvant CAF01. We found that a parenteral vaccination induced significant protection against a TC infection and against development of chronic pathology. Protection correlated with rapid recruitment of Th1/Th17 T cells to the genital tract (GT), which efficiently prevented infection-driven generation of low quality Th1 or Th17 T cells, and instead maintained a pool of high quality multifunctional Th1/Th17 T cells in the GT throughout the infection. After clearance of the infection, a pool of these cells settled in the GT as tissue-resident Th1 and Th17 cells expressing CD69 but not CD103, CD49d, or CCR7, where they responded rapidly to a reinfection. These results show that a nonmucosal parenteral strategy inducing Th1 and Th17 T cells mediates protection against both infection with C.t. as well as development of chronic pathology, and lead to post-challenge protective tissue-resident memory immunity in the genital tract.
Highlights
Chlamydia trachomatis (C.t.) is globally the most common sexually transmitted bacterium with an estimated 131 million new cases occurring every year.[1]
This correlated with a reduced percentage of both neutrophiles, monocytes, dendritic cells in the upper genital tract (uGT) in the animals receiving the 103 IFU dose compared to animals receiving higher doses (Fig. 2c) at day 3 post infection
It is critically important that a future Chlamydia vaccine is able to induce protective immunity that homes to the genital tract (GT) and protects against both infection and pathology
Summary
Chlamydia trachomatis (C.t.) is globally the most common sexually transmitted bacterium with an estimated 131 million new cases occurring every year.[1]. Interactions between C.t. and host immune responses have, been difficult to examine due to lack of a model that can recapitulate a human C.t. infection and its disease progress. To which degree Trm cells are absolutely required for protection against infection, or if circulating immunity induced by a nonmucosal parenteral vaccine is sufficient, is not fully resolved yet. This is an important question as it is generally agreed that a parenteral vaccine represents the most safe administration form. The aim was to examine the cellular recruitment of circulating CD4 cells generated by a nonmucosal parenteral vaccine, as well as the protective efficacy of such a vaccine. At day 3 post infection we observed a clear IFU dose titration effect
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