Kyle H. Ramsey

Histopathologic changes related to fibrotic oviduct occlusion after genital tract infection of mice with Chlamydia muridarum.

Objectives: We sought to determine if intraluminal occluding fibrosis of the oviduct occurs after urogenital Chlamydia muridarum infection in mice. Study: Oviduct occlusion was assessed by infusing dye into the distal uterus and tracking the diffusion of the dye into the oviduct. We also conducted histologic assessment of the affected tissues using hematoxylin and eosin (H&E) and Masson trichrome stains. Results: All previously infected susceptible mice had occluded oviducts compared with 17.5% of previously uninfected mice. Oviduct occlusion correlated with hydrosalpinx formation and infertility. Intraluminal oviduct fibrosis was observed in several sections of tissue displaying hydrosalpinx but not in tissues without hydrosalpinx. Fibrosis was localized to the oviduct isthmus and oviduct proper, proximal to the uterus. Conclusion: Intralumenal occluding fibrosis of the oviduct is a sequela of infection with C. muridarum in this model. These observations support the use of the murine model to study pathogenesis of chlamydial upper genital tract infection.

Peptide Vaccine: Progress and Challenges

Conventional vaccine strategies have been highly efficacious for several decades in reducing mortality and morbidity due to infectious diseases. The bane of conventional vaccines, such as those that include whole organisms or large proteins, appear to be the inclusion of unnecessary antigenic load that, not only contributes little to the protective immune response, but complicates the situation by inducing allergenic and/or reactogenic responses. Peptide vaccines are an attractive alternative strategy that relies on usage of short peptide fragments to engineer the induction of highly targeted immune responses, consequently avoiding allergenic and/or reactogenic sequences. Conversely, peptide vaccines used in isolation are often weakly immunogenic and require particulate carriers for delivery and adjuvanting. In this article, we discuss the specific advantages and considerations in targeted induction of immune responses by peptide vaccines and progresses in the development of such vaccines against various diseases. Additionally, we also discuss the development of particulate carrier strategies and the inherent challenges with regard to safety when combining such technologies with peptide vaccines.

Chlamydia trachomatis persistence in the female mouse genital tract: inducible nitric oxide synthase and infection outcome.

ABSTRACT It was previously reported that female mice resolve a primaryChlamydia trachomatis urogenital infection independent of inducible nitric oxide synthase (iNOS). We now report that although iNOS-deficient (NOS2−/−) mice resolve culture-apparent infection in a fashion similar to that of normal control (NOS2+/+) mice, they sustain significantly increased rates of disease, as assessed by hydrosalpinx formation. PCR amplification of ompAfollowed by Southern blot detection of amplicands revealed the presence of chlamydial DNA in the lower genital tracts of both NOS2−/− and NOS2+/+ mice at ≥120 days postinfection and in upper genital tract tissues at >120 days postinfection. However, only NOS2−/− mice shed low numbers of viable chlamydiae from the lower genital tract after immunosuppressive treatment at 120 days postinfection. When cultured primary murine lung fibroblasts were activated in the presence of gamma interferon (IFN-γ), inhibition of chlamydial growth occurred in both NOS2+/+ and NOS2−/− cells, but the inhibition was reversible after removal of the cytokine in the NOS2−/− primary cell culture only. The iNOS-independent inhibition was microbistatic but was independent of 2,3-indoleamine dioxygenase activity. We conclude that chlamydial DNA and antigens persist in mice subsequent to culture-apparent resolution. In addition, IFN-γ induces in vivo inhibition of chlamydial growth through microbistatic mechanisms in the absence of iNOS activity, but in the presence of iNOS activity, IFN-γ is microbicidal and effects eradication.

Chlamydia Infection Causes Loss of Pacemaker Cells and Inhibits Oocyte Transport in the Mouse Oviduct

Abstract Chlamydia trachomatis is a common sexually transmitted bacterial infection that results in health care costs in the United States that exceed

Expression of matrix metalloproteinases subsequent to urogenital Chlamydia muridarum infection of mice.

2 billion per year. Chlamydia infections cause damage to the oviducts, resulting in ectopic pregnancy and tubal factor infertility, but the reasons for defective oviduct function are poorly understood. We have investigated the role of oviduct contractions in egg transport and found that underlying electrical pacemaker activity is responsible for oviduct motility and egg transport. Specialized pacemaker cells, referred to as oviduct interstitial cells of Cajal (ICC-OVI), are responsible for pacemaker activity. The ICC-OVI, labeled with antibodies to KIT protein, form a dense network associated with the smooth muscle cells along the entire length of the oviduct. Selective removal of ICC-OVI with KIT-neutralizing antibody resulted in loss of electrical rhythmicity and loss of propulsive contractions of the oviduct. We tested whether infection might adversely affect the ICC-OVI. Mice infected with Chlamydia muridarum displayed dilation of oviducts, pyosalpinx, and loss of spontaneous contractile activity. Morphological inspection showed disruption of ICC-OVI networks, and electrophysiological recordings showed loss of intrinsic pacemaker activity without change in basal smooth muscle membrane potential. Chlamydia infection also was associated with upregulation of NOS2 (iNOS) and PTGS2 (COX II) in leukocytes. Loss of ICC-OVI and pacemaker activity causes oviduct pseudo-obstruction and loss of propulsive contractions for oocytes. This, accompanied by retention of oviduct secretions, may contribute to the development of tubal factor infertility.

Duration of Untreated Chlamydial Genital Infection and Factors Associated with Clearance: Review of Animal Studies

ABSTRACT The central hypothesis of this study was that matrix metalloproteinases (MMPs) would be enhanced following murine chlamydial infection and that their expression would vary in mouse strains that differ in their susceptibility to chronic chlamydia-induced disease. To address this hypothesis, female C3H/HeN and C57BL/6 mice were infected intravaginally with Chlamydia muridarum. Uterine and oviduct tissues were assessed for transcription of MMP genes and their tissue inhibitors. An increased activity of MMP genes relative to preinfection tissues was observed in the C3H/HeN mice when compared to C57BL/6 mice. Using gelatin zymography, we detected constitutive MMP-2 activity in both strains of mice but an increase in MMP-9. Casein zymography indicated the presence of two elastase-like activities consistent with MMP-12 and possibly MMP-7. Western blotting and antigen capture enzyme-linked immunoassay also confirmed an increase in MMP-9 but constitutive MMP-2 expression subsequent to the infection in both strains of mice. In C57BL/6 mice, MMP-9 was present in monomer and dimer form throughout the 56-day monitoring period. C3H/HeN mice produced dimeric MMP-9, but increases in the monomer form were also observed through day 14. Post-translational modification of MMP-9 between the two strains also differed. Immunohistochemistry revealed neutrophils as a prominent source for MMP-9 in both strains of mice. We conclude that differences in the relative expression and activity of MMPs, particularly MMP-9, occur in mice differing in their susceptibility to the development of chronic chlamydial disease. These differences may account for disparate outcomes with regard to chronic sequelae of the disease.

Strain and virulence diversity in the mouse pathogen Chlamydia muridarum.

Chlamydia trachomatis is an important cause of sexually transmitted infection that can manifest as acute cervicitis, pelvic inflammatory disease, and most commonly, chronic asymptomatic infection. The basis of this wide spectrum of manifestations and the factors that lead to clearance or chronic infection are poorly understood. We reviewed specific literature pertaining to clearance of primary genital tract infections in animal models, including mice, guinea pigs, pigs, sheep, and nonhuman primates. T helper 1 cell responses involved in cell-mediated immunity are key immune parameters that define efficient clearance in the murine and guinea pig models of chlamydial infection, which are useful for studying C. trachomatis clearance. However, there may be some differences between humans and other animals in innate and adaptive immune responses to chlamydial infection. Studies have suggested that differences in the induced T cell subsets and the species-specific differences in interferon gamma-mediated effector mechanisms may play a significant role in these discrepancies. To close these gaps in knowledge, translational research in humans is a critical next step. However, for questions about specific mechanisms of host-pathogen interaction that cannot be answered feasibly or ethically in humans, animal models will continue to be important. Future research should include use of humanized and nonmurine models that establish prolonged infection to improve understanding of chronic human infections.

Inhibition of Matrix Metalloproteinases Protects Mice from Ascending Infection and Chronic Disease Manifestations Resulting from Urogenital Chlamydia muridarum Infection

ABSTRACT The mouse chlamydial pathogen Chlamydia muridarum has been used as a model organism for the study of human Chlamydia trachomatis urogenital and respiratory tract infections. To date, two commonly used C. muridarum isolates have been used interchangeably and are essentially taken to be identical. Herein, we present data that indicate that this is not the case. The C. muridarum Weiss isolate and C. muridarum Nigg isolate varied significantly in their virulences in vivo and possessed different growth characteristics in vitro. Distinct differences were observed in intravaginal 50% infectious doses and in challenge infections, with the Weiss isolate displaying greater virulence. Respiratory infection by the intranasal route also indicated a greater virulence of the Weiss isolate. In vitro, morphometric analysis revealed that the Weiss isolate produced consistently smaller inclusions in human cervical adenocarcinoma cells (HeLa 229) and smaller plaques in monolayers of mouse fibroblasts (L929) than did the Nigg isolate. In addition, the Weiss isolate possessed significantly higher replicative yields in vitro than did the Nigg isolate. In plaque-purified isolates derived from our stocks of these two strains, total genomic sequencing identified several unique nonsynonymous single nucleotide polymorphisms and insertion/deletion mutations when our Weiss (n = 4) and Nigg (n = 5) isolates were compared with the published Nigg sequence. In addition, the two isolates shared 11 mutations compared to the published Nigg sequence. These results prove that there is genotypic and virulence diversity among C. muridarum isolates. These findings can be exploited to determine factors related to chlamydial virulence and immunity.

A link between neutrophils and chronic disease manifestations of Chlamydia muridarum urogenital infection of mice.

ABSTRACT Matrix metalloproteinases (MMP) are a family of host-derived enzymes involved in the turnover of extracellular matrix molecules. We have previously reported enhanced expression of matrix metalloproteinases in Chlamydia muridarum urogenital tract infection of female mice. Kinetics and patterns of MMP expression as well as enhanced expression in susceptible strains of mice in the prior study implied a role for MMP in pathogenesis. To explore this further, we infected a susceptible strain of mice (C3H/HeN) with C. muridarum and treated two groups of mice with either one of two chemical inhibitors of MMP (MMPi; captopril and a chemically modified tetracycline) and reserved infected sham-treated mice as controls. Neither of the treatments affected shedding of viable chlamydiae from the lower urogenital tract, but the administration of either MMPi protected mice from the formation of hydrosalpinx—a surrogate marker of oviduct occlusion and infertility. Interestingly, the mechanism of protection for mice treated with chemically modified tetracycline 3, appeared to be related to prevention of ascending upper genital tract infection. These results imply that MMP are involved in pathogenesis of chlamydial infection in this model by mediating ascension of the infection into the upper genital tract.

Chlamydia trachomatis Disrupts N-Cadherin-Dependent Cell-Cell Junctions and Sequesters β-Catenin in Human Cervical Epithelial Cells

Vigorous acute inflammatory responses accompany Chlamydia muridarum infections in mice and are positively correlated with adverse urogenital and respiratory tract infection outcomes in the mouse model. Thus, we tested the hypothesis that neutrophils induce an acute inflammatory insult that, in the repair phase, leads to the chronic sequelae of hydrosalpinx - a surrogate marker of infertility in the mouse model. To this end, we induced neutropenia in mice using a neutrophil-depleting monoclonal antibody during acute phases of C. muridarum urogenital infection only (days 2-21 postinfection). To prove induced neutropenia, peripheral blood was monitored for neutrophils during the treatment regimen. Neutropenic mice had a similar infection course as control mice, but had significantly reduced levels of certain histopathological parameters, reduced production of matrix metalloproteinase-9 (MMP-9) and reduced rates of hydrosalpinx following resolution of the infection. We conclude that neutrophils are a major source of MMP-9, a previously proved pathological factor in this model. Further, we conclude that acute inflammation in the form of neutrophils and neutrophil activation products are at least partially responsible for inducing the histological changes that ultimately result in fibrosis and infertility in the mouse model of chlamydial upper genital tract disease.