Does Chlamydia trachomatis MoPn enter a microbiologically-inapparent state during experimental infection of the mouse genital tract?

Microbiologically-inapparent chlamydial infection may contribute towards the immunopathogenesis of these diseases. Although morphologically and physiologically aberrant non-cultivable chlamydiae can be induced reversibly in cell culture, evidence for these forms in infections of animals and humans is indirect. A mouse model of salpingitis caused by the mouse pneumonitis biovar of Chlamydia trachomatis (MoPn) was used to determine the existence of non-cultivable organisms in vivo. Following intravaginal inoculation, mice yielded high chlamydial counts for 7-14 dyas, with a decline in culture-positivity by 21-28 days. A significant elevation of IFN gamma production in infected tissues was measured for 21 days and, from 28-70 days, all mice were culture-negative and developed characteristic hydrosalpinges. MoPn was detected by PCR in vaginal swabs of 80% and 69% respectively of culture-negative animals at 21 and 28 days. In a second study, 100%, 63% and 50% of culture-negative genital tissue homogenates were PCR-positive at 21, 28 and 42 days. Immunosuppression with either cyclophosphamide or hydrocortisone failed to regenerate cultivable chlamydiae. Tissues were disrupted by homogenization and inoculated intranasally to MF1 mice which are extremely susceptible to MoPn, but all culture-negative specimens were non-infectious. The significance of the PCR-positive culture-negative specimens requires further investigation, since these may represent a non-cultivable state in the deeper tissues of the mouse genital tract which may be beyond the reach of reactivating triggers.