Your search keyword '"Bowlin, Anne K."' showing total 5 results

1. Chlamydia caviae infection alters abundance but not composition of the guinea pig vaginal microbiota.

Author

Neuendorf, Elizabeth, Gajer, Pawel, Bowlin, Anne K., Marques, Patricia X., Bing Ma, Hongqiu Yang, Li Fu, Humphrys, Michael S., Forney, Larry J., Myers, Garry S. A., Bavoil, Patrik M., Rank, Roger G., and Ravel, Jacques

Subjects

CHLAMYDIA infection diagnosis, GUINEA pigs, VAGINA physiology, DEFENSE reaction (Physiology), HEALTH outcome assessment

Abstract

In humans, the vaginal microbiota is thought to be the first line of defense again pathogens including Chlamydia trachomatis. The guinea pig has been extensively used as a model to study chlamydial infection because it shares anatomical and physiological similarities with humans, such as a squamous vaginal epithelium as well as some of the long-term outcomes caused by chlamydial infection. In this study, we aimed to evaluate the guinea pig-C. caviae model of genital infection as a surrogate for studying the role of the vaginal microbiota in the early steps of C. trachomatis infection in humans. We used culture-independent molecular methods to characterize the relative and absolute abundance of bacterial phylotypes in the guinea pig vaginal microbiota in animals non-infected, mock-infected or infected by C. caviae. We showed that the guinea pig and human vaginal microbiotas are of different bacterial composition and abundance. Chlamydia caviae infection had a profound effect on the absolute abundance of bacterial phylotypes but not on the composition of the guinea pig vaginal microbiota. Our findings compromise the validity of the guinea pig-C. caviae model to study the role of the vaginal microbiota during the early steps of sexually transmitted infection. [ABSTRACT FROM AUTHOR]

Published

2015

2. Target cell limitation constrains chlamydial load in persistent infections: results from mathematical modelling applied to mouse genital tract infection data.

Author

Craig, Andrew P., Rank, Roger G., Bowlin, Anne K., Wand, Handan, and Wilson, David P.

Subjects

CHLAMYDIA infections, CHLAMYDIALES, CHLAMYDIA, GENITALIA infections, LABORATORY mice

Abstract

The interactions between chlamydial pathogens and their host contribute to the outcome of infection. Nonresolving infections in immunodeficient mice can provide insights into these mechanisms by allowing observation of a form of persistent infection. Using a mathematical model, we predict that in a nonresolving infection, the number of chlamydiae in the host will attain a stable equilibrium and that this equilibrium will be independent of the inoculum size. We test this hypothesis by infecting RAG-/- mice with 104-107 inclusion-forming units (IFU) of Chlamydia muridarum and comparing the IFU levels at equilibrium. There were no statistically significant differences in equilibrium IFU levels between the reference group and other inoculation groups, supporting the hypothesis. Using the mathematical model, we estimated that at equilibrium just 3% of the chlamydiae infect a target cell. We predict that the equilibrium IFU level is highly sensitive to the rate of replenishment of healthy cells. The limitation of target cells is a key driver of infection dynamics, affecting both the peak of infection and the equilibrium level of persistent infections. Target cell limitation likely plays an important role in the dynamics of human infections as well. [ABSTRACT FROM AUTHOR]

Published

2015

3. Chlamydial infection of the gastrointestinal tract: a reservoir for persistent infection.

Author

Yeruva, Laxmi, Spencer, Nicole, Bowlin, Anne K., Wang, Yin, and Rank, Roger G.

Subjects

CHLAMYDIA infections, GASTROINTESTINAL diseases, IMMUNOGLOBULIN A, BACTERIAL antigens, BACTERIAL antibodies, LABORATORY mice, IMMUNOREGULATION

Abstract

The mechanism by which chlamydiae persist in vivo remains undefined; however, chlamydiae in most animals persist in the gastrointestinal tract ( GI) and are transmitted via the fecal-oral route. Oral infection of mice with Chlamydia muridarum was previously shown to establish a long-term persistent infection in the GI tract. In this study, BALB/c, DBA/2, and C57 Bl/6 mice, infected orally with C. muridarum, were infected in the cecum for as long as 100 days in the absence of pathology. The primary target tissue was the cecum although the large intestine was also infected in most animals. A strong serum Ig G and cecal Ig A antibody response developed. Lymphocyte proliferation assays to chlamydial antigen on mesenteric lymph node cells were positive by day 10 and peaked on days 15-21, but the response returned to baseline levels by 50 days, despite the ongoing presence of the organism in the cecum. Because studies have shown that women and men become infected orally with chlamydiae, we propose that the GI tract is a site of persistent infection and that immune down-regulation in the gut allows chlamydiae to persist indefinitely. As a result, women may become reinfected via contamination of the genital tract from the lower GI tract. [ABSTRACT FROM AUTHOR]

Published

2013

4. Ocular Pathologic Response Elicited by Chlamydia Organisms and the Predictive Value of Quantitative Modeling.

Author

Wilson, David P., Bowlin, Anne K., Bavoil, Patrik M., and Rank, Roger G.

Subjects

*DIAGNOSIS, *CHLAMYDIACEAE, *CHLAMYDIA, *STEREOLOGY, *GENITALIA, *MEDICINE, *SCIENCE

Abstract

Background. Chlamydia organisms are a significant cause of ocular and genital tract disease worldwide. Acute inflammatory responses are largely responsible for pathologic changes. Methods. Guinea pigs were inoculated in the conjunctiva with various infectious doses of Chlamydia caviae. We developed a predictive model and thresholds of the ocular pathologic response, on the basis of measurements of the pathologic response and chlamydial inclusion-forming unit (ifu) loads, using statistical and mathematical techniques. We validated the predictions by modifying the pathologic response with the use of a lytic chlamydiaphage. Results. If the area under the inclusion-forming unit curve reaches ∼4 x 105 "ifu-days," then it is likely that an ocular pathologic response will develop and that a serious pathologic finding can develop quickly. The earlier that a pathologic response arises, the longer it will remain. A 2-log10 reduction in the peak inclusion-forming unit load reduces the chance of any pathologic finding emerging from 81% to 32%, and it reduces the chance of a serious pathologic finding emerging from 33% to 2%. A reduction in the peak chlamydial load also substantially reduces the duration of the pathologic response. Conclusions. Our predictive model can be used to evaluate the likely effect of interventions that modify the course of chlamydial infection. It suggests that, to be effective in preventing or mitigating pathologic responses, an intervention is required to change the chlamydial time course before the peak inclusion-forming unit load is reached. [ABSTRACT FROM AUTHOR]

Published

2009

5. Chlamydiae and polymorphonuclear leukocytes: unlikely allies in the spread of chlamydial infection.

Author

Rank, Roger G., Whittimore, Judy, Bowlin, Anne K., Dessus-Babus, Sophie, and Wyrick, Priscilla B.

Subjects

CHLAMYDIA infections, TRANSMISSION electron microscopy, HISTOPATHOLOGY, LEUCOCYTES, EPITHELIAL cells, FLUID dynamics

Abstract

While much is known about the attachment of the chlamydiae to the host cell and intracellular events during the developmental cycle, little is known about the mechanism(s) by which elementary bodies exit the cell. In this report, we use the guinea-pig conjunctival model of Chlamydia caviae infection to present in vivo ultrastructural evidence supporting two mechanisms for release of chlamydiae from the mucosal epithelia. Four days after infection, histopathologic observation shows an intense infiltration of polymorphonuclear leukocytes (PMN) in the conjunctival epithelium. Using transmission electron microscopy, a gradient-directed PMN response to chlamydiae-infected epithelial cells was observed. As PMN infiltration intensifies, epithelial hemidesmosome/integrin/focal adhesion adherence with the basal lamina is disconnected and PMNs literally lift off and release infected superficial epithelia from the mucosa. Many of these infected cells appear to be healthy with intact microvilli, nuclei, and mitochondria. While lysis of some infected cells occurs with release of chlamydiae into the extracellular surface milieu, the majority of infected cells are pushed off the epithelium. We propose that PMNs play an active role in detaching infected cells from the epithelium and that these infected cells eventually die releasing organisms but, in the process, move to new tissue sites via fluid dynamics. [ABSTRACT FROM AUTHOR]

Published

2008