Abstract
Previously, we reported that a compound from a group of thiohydrazides of oxamic acids, CL-55, possessed antichlamydial activity in vitro that was accompanied by a decreased translocation of the type three secretion effector, IncA, into the host cell. In this study, the antichlamydial activity of CL-55 was tested in vivo in DBA/2 mice infected with C. trachomatis serovar D. We found that intravaginal inoculation of DBA/2 mice with the clinically relevant strain, C. trachomatis serovar D, results in a course of infection and pathology similar to that observed in humans. The early stage of infection in this model was characterized by a shedding of Chlamydia in vaginal secretions followed by an ascending infection and inflammation in the upper genital tract. We found that CL-55 possessed antibacterial activity in vivo and was able to control C. trachomatis vaginal shedding, ascending infection, and inflammation in the upper genital organs in DBA/2 mice. Our data provide a proof of concept for the protective effect of the thiadiazinon, CL-55, against chlamydial infection in vivo and support the feasibility of further studies of its potential therapeutic applications.
Highlights
Chlamydia trachomatis is a leading cause of sexually transmitted diseases, with an estimated 100 million new cases reported annually [1]
For the first time, the development of an upper genital tract infection in progesterone-treated, susceptible DBA/2 mice caused by intravaginal inoculation with clinically significant C. trachomatis serovar D, in which salpingitis and hydrosalpinx formation were observed
DBA/2 Mice Intravaginally Infected with C. trachomatis Serovar D Have Both Acute Chlamydia Shedding and Upper Tract Infection and Pathology
Summary
Chlamydia trachomatis is a leading cause of sexually transmitted diseases, with an estimated 100 million new cases reported annually [1]. Selected compounds from a group of thiadiazinons were assessed for antichlamydial activity in vitro We demonstrated that these compounds inhibit chlamydial growth in vitro and that this was accompanied by the decreased translocation of the type three secretion effector, IncA [5]. These results prompted us to proceed to evaluation of new inhibitors in an animal model
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