Human Female Genital Tract Infection by the Obligate Intracellular Bacterium Chlamydia trachomatis Elicits Robust Type 2 Immunity

While Chlamydia trachomatis infections are frequently asymptomatic, mechanisms that regulate host response to this intracellular Gram-negative bacterium remain undefined. This investigation thus used peripheral blood mononuclear cells and endometrial tissue from women with or without Chlamydia genital tract infection to better define this response. Initial genome-wide microarray analysis revealed highly elevated expression of matrix metalloproteinase 10 and other molecules characteristic of Type 2 immunity (e.g., fibrosis and wound repair) in Chlamydia-infected tissue. This result was corroborated in flow cytometry and immunohistochemistry studies that showed extant upper genital tract Chlamydia infection was associated with increased co-expression of CD200 receptor and CD206 (markers of alternative macrophage activation) by endometrial macrophages as well as increased expression of GATA-3 (the transcription factor regulating TH2 differentiation) by endometrial CD4+ T cells. Also among women with genital tract Chlamydia infection, peripheral CD3+ CD4+ and CD3+ CD4- cells that proliferated in response to ex vivo stimulation with inactivated chlamydial antigen secreted significantly more interleukin (IL)-4 than tumor necrosis factor, interferon-γ, or IL-17; findings that repeated in T cells isolated from these same women 1 and 4 months after infection had been eradicated. Our results thus newly reveal that genital infection by an obligate intracellular bacterium induces polarization towards Type 2 immunity, including Chlamydia-specific TH2 development. Based on these findings, we now speculate that Type 2 immunity was selected by evolution as the host response to C. trachomatis in the human female genital tract to control infection and minimize immunopathological damage to vital reproductive structures.


Introduction
Chlamydia trachomatis is an obligate intracellular Gram-negative bacterium that infects human ocular and genital epithelium.Ocular C. trachomatis infection causes trachoma, an important cause of preventable blindness whose earlier stages are often asymptomatic [1].Typically, C. trachomatis genital tract infection is also asymptomatic, a feature enhancing its sexual transmission [2].When untreated, female genital tract Chlamydia infection may cause Fallopian tube damage that increases the risk of ectopic pregnancy and infertility [3].More often, however, even longstanding infection is cleared in the absence of overt genital tract damage, while advancing age is associated with increased resistance to infection [4,5].Such observations imply the formation of Chlamydia-specific protective immunity and the possibility of developing a prophylactic vaccine (provided better understanding of human host response to natural C. trachomatis genital tract infection is achieved).
In cogitation of a clinical picture signaling that C. trachomatis infection does not elicit the robust inflammation that drives differentiation of T H 1 and T H 17 immunity, our lab posited that Type 2 immunity (including T H 2-type responses) represents the primary defense against Chlamydia in the human female genital tract [6].This hypothesis opposed current dogma, developed in murine models of genital Chlamydia muridarum infection, which maintains that response to C. trachomatis in the human genital tract is similarly dominated by Type 1 immunity [7].Providing context for the formation and validity of our alternative hypothesis, Type 2 immunity is induced by numerous microbes that establish chronic infection, creating tissue environments that dampen inflammation and promote wound healing [8].Playing a pivotal role in this response are IL-4-secreting T H 2 cells that stimulate macrophages to promote tissue repair (i.e., alternative macrophage activation) [9].Although Type 2 immunity is established as an important defense against extracellular parasites, its role against intracellular parasites is not well explored.Offering preliminary, albeit indirect evidence for the formation of Chlamydia-specific Type 2 immunity, our lab detected only short-lived T H 1 and negligible T H 17 Chlamydia-specific immunity among women with documented history of C. trachomatis infection [10].Because of these unremarkable Chlamydia-specific T H 1 and T H 17 responses, in the current study, peripheral blood mononuclear cells (PBMC) and endometrial tissue from women with or without genital C. trachomatis infection were used to determine if this intracellular bacterium is instead a more potent inducer of T H 2 immunity.As posited, C. trachomatis infection of genital tissue stimulated robust Type 2 immunity, including T H 2 differentiation, alternative macrophage activation, and increased expression of IL-24 and other molecules enhancing tissue repair.Of equal importance, we observed that secretion of IL-4, and not IFN-c or IL-17, was the principal effector function of peripheral T cells responding to ex vivo stimulation with chlamydial antigen.Taken together, these results newly uncover exuberant Type 2 immunity elicited upon C. trachomatis infection of the human female genital tract.

Results and Discussion
To begin our investigation of host response to C. trachomatis in the human female genital tract, microarrays that compared gene expression in uninfected and Chlamydia-infected endometrial tissue were performed.Initial analysis of this data showed that Chlamydia infection caused significant enrichment of canonical pathways associated with Type 2 immunity [11], including pathways involved in fibrosis and wound repair (Table 1).Moreover, 3 of the 4 genes most highly upregulated in Chlamydia-infected tissue, matrix metalloproteinase 10 (MMP10) (15-fold increase), IL-13a 2 receptor (IL-13Ra 2 ) (13-fold increase), and IL-24 (11-fold increase), regulate biological functions that are characteristic of Type 2 immunity (Figure 1 and Table 2).MMP-10, a metalloproteinase produced by T cells in response to IL-4, stimulates wound healing [12,13]; while interactions between IL-13 to IL-13Ra2, also regulated by IL-4, promotes tissue repair by increasing production of transforming growth factor-b1 [14,15].Likewise, IL-24 secretion by monocytes and T H 2 cells increases the activity of signaling pathways responsible for wound healing [16][17][18].Endometrial Chlamydia infection also induced a 10-fold increase in MUC5AC, a mucin gene expressed at low levels in normal endometrial tissue but upregulated by IL-4 [19,20], and a 9-fold increase in aquaporin 4, an integral membrane protein highly upregulated among individuals with asthma [21] (Table 2).
As microarray analysis showed C. trachomatis promotes exuberant in situ differentiation of Type 2 immunity, we postulated this pathogen must also elicit T H 2-type responses.To test this hypothesis, PBMC isolated from women with no Chlamydia infection history or women with existing (at enrollment) and then treated (at 1-and 4-month follow-up visits) endocervical or endometrial Chlamydia infection were used in intracellular cytokine staining (ICS) assays that used flow cytometry to delineate the effector function of T cells responding to stimulation with inactivated C. trachomatis elementary bodies (EB).As predicted, CD3 + cells in these assays from women with existing or treated Chlamydia infection proliferated in response to stimulation with inactivated EB (Figure S1).Interestingly, proliferation was more robust at the 1-month follow-up visit than at the enrollment or 4month follow-up visits (Figure 2).Calculating the adjusted percentages of cytokines produced by peripheral CD3 + CD4 + or CD3 + CD4 -cells that proliferated in response to EB, we saw negligible production of IL-17 in samples from uninfected and Chlamydia-infected women at all study visits (Figure 3).Conversely, there was enhanced intracellular accumulation of IFN-c and TNF by proliferating CD3 + CD4 + and CD3 + CD4 -cells from Chlamydia-infected women, but only in specimens collected at the 1-month follow-up visit (Figure 3).Interestingly, these results were congruent with our recently published cross-sectional study in which peripheral blood specimens obtained from Chlamydiainfected women 30-60 d after starting a Chlamydia-specific antimicrobial displayed a higher frequency of CD4 + cells producing IFN-c in response to EB stimulation compared to specimens collected ,30 d or .60 d after starting therapy [10].Even more interesting, in the current investigation we also found that intracellular IL-4 accumulation by proliferating CD3 + CD4 + and CD3 + CD4 -cells in PBMC samples from Chlamydia-infected women at enrollment, 1-month, and 4-month visits were all significantly higher than in uninfected controls (Figure 3 and Figure S2).This indicated that Chlamydia-specific T cells were preferentially polarized towards a T H 2 profile, and together with our earlier publication, suggested that Chlamydia-specific T H 1 immunity develops more slowly, is more transient, and is perhaps a less biologically relevant host response than Chlamydia-specific T H 2 immunity.
Based on the substantial T H 2 response elicited in EB-stimulated peripheral T cells, we further posited that CD4 + cells in Chlamydiainfected tissue are polarized towards a T H 2 profile.To test this hypothesis, IHC was used to examine CD4 + cell expression of Tbet and GATA-3 (transcription factors regulating T H 1 and T H 2 differentiation, respectively) in paraffin-embedded endometrial biopsy sections from women without current Chlamydia, Neisseria gonorrhoeae, or Trichomonas vaginalis infection and women with extant upper genital tract Chlamydia infection.As predicted by our ICS assay results, each Chlamydia-infected tissue section demonstrated greater expression of GATA-3 than T-bet (representative results shown in Figure 4).Interestingly, expression of GATA-3, but not T-bet, was present in uninfected tissue, indicative of the role this transcription factor plays in estrogen receptor-responsive tissue [22].Conversely, inspection of five high-powered (X200) fields per specimen revealed GATA-3 + CD4 + cell numbers were significantly higher in Chlamydia-infected vs. uninfected tissue (Figure 5).Taken together, these IHC findings were consistent with preferential secretion of IL-4 by EB-stimulated peripheral T cells from women with extant Chlamydia infection (Figure 3).
Prompted by these results, we returned to our microarray data to examine endometrial transcription factor expression.Based on the high levels of GATA-3 levels expressed in uninfected and Chlamydia-infected endometria (Figure 4 and Figure 5), it was not surprising that Chlamydia infection induced no significant foldchange in GATA-3 expression.On the other hand, expression of several macrophage-associated transcription factors was significantly modulated by Chlamydia infection (Tables 3 and 4).This included increased expression of peroxisome proliferator-activated receptor gamma (PPARG), which promotes polarization of macrophages to the M2 phenotype [23].As T H 2 immunity stimulates macrophages that promote fibrosis, tissue remodeling, and wound repair (alternative macrophage activation) [24,25], we hypothesized that macrophages in Chlamydia-infected endometrial tissue display evidence of alternative activation.As predicted, flow cytometry studies showed macrophages in endometria with extant Chlamydia infection significantly increased their expression of the CD200R, a marker of alternative macrophage activation and a negative regulator of classical macrophage activation (Figure 6) [26].Because CD200R binding triggers macrophages to dampen inflammation and suppress collateral damage to host tissue during chronic microbial infection [27][28][29], increased expression of CD200R by macrophages in Chlamydia-infected tissue is consistent with the clinical presentation of an infection that persists in genital tract epithelial cells without eliciting overt inflammatory changes.Furthermore, we found that Chlamydia infection increased the percentage of endometrial macrophages co-expressing CD200R and CD206 (mannose receptor), another classic marker of alternative macrophage activation (Figure 6) [30].In addition, Chlamydia infection promoted increased macrophage expression of CD40, a costimulatory molecule critical for induction of B cell responses in mucosal tissue [31].This result correlated with our microarray findings showing Chlamydia-infected endometrial tissue had significant enrichment of the B cell development pathway (Table 1) and significantly increased expression of Pax5, a transcription factor essential for commitment to the B lymphocyte lineage [32,33] (Table 4).
In conclusion, the picture of the host response to Chlamydia infection of the human female genital tract emerging from our lab is a response skewed towards Type 2 immunity, including differentiation of IL-4-secreting CD3 + CD4 + and CD3 + CD4 - cells and stimulation of alternative macrophage activation.Clearly, further interrogation of the phenotype and function of these CD3 + CD4 + and CD3 + CD4 -cells is needed, and is an area of active research in our lab.On the other hand, as Chlamydia host defense in humans is still thought dominated by highly inflamma-

Ethics Statement
The University of Pittsburgh's Institutional Review Board approved our study design and procedures (PRO0611062) (PRO09070184) (PRO10010159), and written informed consent was obtained from individuals prior to their participation.While minors/children were eligible for enrollment, none were enrolled and none were assented/consented for enrollment.

Participants and procedures
Nonpregnant women 15-35 years old at high risk for genital tract infection were eligible for enrollment, while women presenting with symptoms of pelvic inflammatory disease were not.In a separate study, nonpregnant women 18-40 years old that denied history of Chlamydia infection were also prospectively enrolled.After participants signed written informed consent, at least 40 ml of peripheral venous blood was collected into sodium heparin-containing blood tubes (Becton-Dickinson).Peripheral blood that was collected from 7 women (average age = 24.6 years) enrolled with no history of Chlamydia infection and 14 women (average age = 20.8years) enrolled with existing Chlamydia infection (and also collected 1 and 4 months after treatment of infection with 0.25 g ceftriaxone IM and 1 g azithromycin) was used to isolate PBMC by density gradient centrifugation, and these cells were stored in liquid nitrogen prior to their use in ICS assays measuring the effector function of cells that proliferated in response to chlamydial antigen [10,36].Cervical swab and endometrial biopsy specimens were used to identify C. trachomatis and N. gonorrhoeae infection by nucleic acid amplification testing (NAAT), and vaginal swabs were obtained for T. vaginalis detection also by NAAT.In women that returned for follow-up visits, absence of these 3 genital tract infections was confirmed with similar testing.Oligonucleotide-based genome array studies utilized endometrial biopsy specimens from 10 women with no current infection and 12 women with existing endometrial Chlamydia infection (and without extant Neisseria or Trichomonas infection as identified by NAAT).Endometrial tissue from 4 women without existing NAAT-detected genital infection and 14 women with current Chlamydia infection was used to assess macrophage phenotype by flow cytometry, while paraffin-embedded endometrial tissue from 4 women without existing genital infection and 6 women with current endometrial Chlamydia infection was used to evaluate T cell expression of T-bet and GATA-3 by immunohistochemistry (IHC).

Microarray studies
Endometrial tissue from 10 women with no identified genital infection and 12 women with existing C. trachomatis endometrial infection (but no other identified infection) was dissociated into single-cell suspension or placed into RNAlater (Qiagen).Samples underwent total RNA purification using the Qiagen RNeasy Mini Kit in accordance with manufacturer's instructions and were suspended in nuclease-free water.Inclusion in ensuing in vitro amplification assays required a spectrophotometric 260/280 absorption ratio .1.8 as determined using a NanoDrop spectrophotometer (Thermo Scientific).RIN (RNA Integrity Index) values were determined via electrophoretic analysis (Agilent Bioanalyzer 2100, Agilent Technologies) (results ranged between 5-8).Amplifications were performed with 100 ng total RNA using the NuGEN whole transcription approach involving use of the Ovation FFPE WTA assay (NuGEN) that employed random 3' primers to eliminate amplification bias.Confirmation of cDNA diversity for each amplification reaction was obtained using the Bioanalyzer 2100 to generate an electrophoretogram regarding sample yield, integrity, and size diversity against a laboratory human RNA standard and a Universal Human Reference RNA (Stratagene).5 mg of purified cDNA was incubated with fragmentation buffer (NuGEN) for 30 m at 37uC, then 2 m at 95uC.Each cDNA sample underwent hybridization on Affymetrix GeneChip HG U133A 2.0 arrays that contained transcripts representing the functionally characterized human genome.In summary of this process, fragmented cDNA was combined with water in hybrid-ization cocktails to a final volume of 220 ml, and 130 ml of this cocktail was hybridized on each array for 18 h at 45uC.Arrays were washed, stained with streptavidin-phycoerythrin in a GeneChip Fluidics Station 450 (Affymetrix), and scanned using a GeneChip Scanner 3000 (Affymetrix).Quality control parameters were derived from the MAS 5.0 algorithm of the Expression Console software (v.1.2.0.20;Affymetrix), and expression data derived from raw intensity files generated by this algorithm.Of 22,277 chip panels (i.e., transcript sequences) gauged, 7,759 panels showed $ 2-fold change in average gene expression between infected and uninfected tissue.Among such panels, we required the higher expressing group to show detectable transcript (i.e., a ''Present'' call) in at least 2/3 of samples (i.e., 7 of 10 for uninfected controls and 8 of 12 for infected women).Dunn's test was then used to determine significance of the differences between the two groups.Selecting differences between mean ranks greater than 5.45 (a = 0.05) identified 1329 panels, representing 1087 unique characterized genes which have Gene Symbols listed at the http:// www.ncbi.nlm.nih.gov/genewebsite.These 1329 panels were submitted to the Ingenuity Pathways Analysis website which parsed data into 36 significantly enriched canonical pathways consisting of 509 occurrences of 206 unique, characterized genes.Microarray data was deposited to Gene Expression Omnibus (GEO) repository under accession number GSE41075, following MIAME (Minimum Information About a Microarray Experiment) guidelines.

IHC studies
Paraffin-embedded endometrial tissues from uninfected women and women with extant endometrial Chlamydia infection (but no other identified genital tract infection) were stained with polyclonal antibodies detecting GATA-3 or T-bet (both Abcam) and/or a monoclonal antibody detecting CD4 (Dako).This was followed by signal detection that used brown 3,3' diamino benzidine (DAB) (Dako) and Vector Red (Vector), respectively.For subsequent evaluation, conventional bright field images were acquired using a Cri Nuance spectral analyzer (CRi), and resultant images used to reconstruct multiple spectral distributions and define the intensity and overlap of DAB and Vector Red staining per pixel using CRi Nuance software.Staining intensities were then converted to composite false color images.Finally, to determine relative frequency of CD4 + areas overlapping GATA-3 + areas five random fields (X200) that contained intact tissue were analyzed per specimen.

Supporting Information
Figure S1 Peripheral T cells from women with existing or treated Chlamydia infection proliferated in response to stimulation with C. trachomatis elementary bodies (EB).Peripheral blood mononuclear cells (PBMC) isolated from women at enrollment and 1-month and 4-month follow-up visits were cultured 96 h in presence of inactivated EB or media alone for 96 h.(A, B) T cells from women with no history of Chlamydia infection (n = 7) did not show increased proliferation in response to chlamydial antigen stimulation.(C, D) Peripheral CD3 + CD4 + and CD3 + CD4 -cells from women with existing or treated Chlamydia infection (total n = 42, representing the 3 samples taken at indicated time points from 14 women) significantly increased proliferation in response to EB stimulation.Comparisons were made using one-tailed Wilcoxon matched-pairs signed rank test.Open circles represent results from samples not exposed to chlamydial antigen; gray circles represent samples that were stimulated with inactivated EB. (PDF) Figure S2 IL-4 is the predominant and most persistent cytokine produced by peripheral T cells that proliferated in response to ex vivo stimulation with inactivated EB.PBMC were cryopreserved from women with an existing endocervical or endometrial Chlamydia infection (n = 14) at enrollment and again 1 and 4 months after their initiation of anti-chlamydial antimicrobial therapy.Cells were thawed, cultured 96 h in the presence of inactivated EB, and processed for flow cytometric evaluation of IFN-c, TNF, IL-4, and IL-17 production as described in Methods section.Total cytokine secretion was determined for CD3 + CD4 + (A) and CD3 + CD4 -(B) *Ingenuity Pathway Analysis identified changes in transcription factor activity in the absence of altered transcription factor expression by detecting significantly enriched downstream targets and then confirming that the direction of expression change for each target was in agreement with the known effect (z-score). a In addition to the transcription factors discussed in the body of text, Chlamydia infection was associated with increased expression of the aryl hydrocarbon receptor, a molecule induced by IL-4 in human B cells [37].doi:10.1371/journal.pone.0058565.t004Figure S3 Gating strategy used to identify macrophages infiltrating endometrial tissue.Cryopreserved endometrial cells were processed for flow cytometric analysis as described in Methods section.Contour plots depict the gating strategy used to define macrophage populations within endometrial cell suspensions.Plots show in sequence the gating hierarchy used to interrogate for CD45 + , live non-CD15 + cells, singlets, and finally to define the macrophage population as CD14 + HLA-DR + (red gate).Representative contour plots displaying expression of some of the surface markers evaluated are also shown (red overlay indicates CD14 + HLA-DR + cells). (TIF)

Figure 1 .Table 2 .
Figure 1.Genome-wide microarray analysis shows C. trachomatis elicits robust Type 2 immunity.Compared to expression in uninfected controls, endometrial tissue from women with existing endometrial Chlamydia infection displayed 15-fold, 13-fold, and 11-fold increases in the expression of MMP-10, IL-24, and IL-13Ra2, respectively.These genes, each with biological activity linked to Type 2 immunity, were 3 of the 4 most dramatically upregulated genes in Chlamydiainfected tissue.Significance of differences between groups was determined by use of Dunn's test (see Methods section for further details regarding statistical considerations).Open circles indicate samples from uninfected controls (n = 10); gray circles indicate samples from women with existing endometrial Chlamydia infection (n = 12) (horizontal bars indicate median values for each group).doi:10.1371/journal.pone.0058565.g001

Figure 2 .
Figure 2. The ability of peripheral T cells from women with existing or treated Chlamydia infection to proliferate in response to stimulation with C. trachomatis elementary bodies (EB) decreased 4 months after antimicrobial administration.Peripheral blood mononuclear cells (PBMC) isolated from women at enrollment and at 1 and 4 m follow-up visits were cultured 96 h in presence of inactivated EB or media alone.Proliferation of (A) CD3 + CD4 + and (B) CD3 + CD4 -cells was assessed by flow cytometry using stimulation indexes calculated as described in Methods section.Stratification of Chlamydia-infected women by time since diagnosis and treatment of infection showed T cell proliferation was higher 1 month after treatment compared to enrollment, and that proliferative capacity diminished 4 months after treatment.Stimulation indexes of samples from Chlamydia-infected women (n = 14) at indicated visits were compared to those from women with no known history of infection (n = 7) using one-way ANOVA and Dunnett's multiple comparison test (horizontal bars indicate means).doi:10.1371/journal.pone.0058565.g002

Figure 4 .
Figure 4. Endometrial Chlamydia infection is associated with the presence of CD4 + T cell aggregates and high expression of the T H 2 transcription factor GATA-3.Sequential sections of paraffin-embedded endometria from women with no identified C. trachomatis, N. gonorrhoeae, or T. vaginalis lower or upper genital tract infection (n = 4) or with endometrial C. trachomatis infection (n = 6) were used to immunohistochemically evaluate T-bet or GATA-3 expression (both DAB), and the presence of CD4 + mononuclear cells (Vector Red) as described in Methods section.Aggregates of GATA-3 + (but not T-bet + ) and CD4 + mononuclear cells were seen in endometrial stroma of Chlamydia-infected tissue (representative micrographs shown at X200 magnification).Moreover, only a few CD4 + mononuclear cells were present in uninfected endometrial tissue even tough GATA-3 was expressed at high levels in both instances.Right panels show images displaying DAB or Vector Red staining and hematoxylin as counterstain, while left panels show DAB or Vector Red layer alone.doi:10.1371/journal.pone.0058565.g004

Figure 5 .
Figure 5. Endometrial Chlamydia infection causes infiltration of CD4 + T cells expressing GATA-3.Sections of paraffin-embedded endometria from women with no identified C. trachomatis, N. gonorrhoeae, or T. vaginalis lower or upper genital tract infection (n = 4) or with endometrial C. trachomatis infection (n = 6) were utilized to simultaneously detect the expression of GATA-3 (DAB) and CD4 (Vector Red) using immunohistochemistry, as described in Methods section.(A) In uninfected endometrial tissue, we observed scarce numbers of CD4 + cells coexpressing GATA-3, however, in endometrial tissue from Chlamydia-infected women the presence of aggregates of GATA-3 + CD4 + mononuclear cells was patent (representative micrographs shown at X200 magnification).Upper left panels show images displaying Vector Red staining, while upper right panels show images displaying DAB staining as defined by spectral analysis.Lower right panels show original images used in analysis, and lower left panels show images in which GATA-3 and CD4 colocalization areas have been digitally highlighted (light blue).Circles delineate areas of highest colocalization in images shown.(B) Colocalization of CD4 + areas within GATA-3 + areas increases dramatically with Chlamydia infection, indicating that endometrial Chlamydia infection drives the infiltration of GATA-3 + CD4 + T cells that form aggregates.Each symbol represents the percentage of colocalization observed in a single field.Matching colors indicate all the fields evaluated from one specimen.Comparison was performed using a two-tailed Mann-Whitney test (horizontal bars indicate medians).doi:10.1371/journal.pone.0058565.g005

Figure 6 .
Figure 6.Endometrial Chlamydia infection promotes alternative activation of macrophages.Endometrial tissue from women with no identified C. trachomatis, N. gonorrhoeae, or T. vaginalis lower or upper genital tract infection (n = 4), or from women with endocervical or endometrial C. trachomatis infection (n = 14 for Panel A; n = 12 for Panel B) were processed for flow cytometric analysis as described in Methods section.Macrophages were identified as FSC-A int SSC-A int CD45 + CD15 -CD14 + HLA-DR + live cells (as depicted in Figure S3), and 2 monoclonal antibody panels were used to interrogate macrophage differentiation and activation.Panel (A) evaluated expression of CD163, CD209, CD200R and CD206, while panel (B) evaluated expression of CD64, CD80, CD40 and CD86.Comparisons were done using unpaired one-tailed Student t-tests with Welch's correction (horizontal bars indicate mean values for each group and significant p values are indicated in bold characters).Open circles indicate samples from uninfected controls; light gray circles indicate samples from women with cervical Chlamydia infection; and dark gray circles indicate samples from women with endometrial Chlamydia infection.Representative contour plots of CD200R, CD206, CD40 and CD80 expression by endometrial macrophages are displayed next to figures.For CD200R and CD206 expression evaluation (A), representative flow plots from peripheral blood monocytes treated with IL-4 (100 U/ml) for 24 hours and the corresponding untreated control are also shown.doi:10.1371/journal.pone.0058565.g006

Table 1 .
Canonical pathways significantly enriched (P , 0.01) in endometrial tissue of women with endometrial C. trachomatis infection vs. endometrial tissue of women with no existing upper or lower genital tract infection.
[7,34].1371/journal.pone.0058565.t001toryType 1 immunity[7,34], our findings already communicate that development of a safe and effective C. trachomatis vaccine will require new understanding of immune responses elicited by natural infection and Chlamydia-specific immune responses that protect against infection and immunopathological tissue damage.

Table 3 .
Transcription factors identified by Ingenuity Pathway Analysis as modulated by endometrial C. trachomatis infection (determined by downstream target pools).* Ingenuity Pathway Analysis identified 18 known transcription factors that were modulated by endometrial C. trachomatis infection whose known downstream targets were significantly enriched among modulated genes.Above table lists those transcription factors, representing 147 occurrences of 96 target genes.doi:10.1371/journal.pone.0058565.t003 *

Table 4 .
Transcription factors identified by Ingenuity Pathway Analysis as modulated by endometrial C. trachomatis infection (determined by z-score).*