Virulence and Adhesion of the Strain Simultaneously Decrease in a Continuous-Infection New Zealand White Rabbit Model.

Syphilis is a sexually transmitted disease caused by , and the Nichols strain is widely used with the New Zealand white rabbit model for evaluating drug and vaccine protection. However, changes in the virulence of during transmission are still unknown. Herein, we explored the virulence of in the rabbit model of continuous infection through phenotype observation and further investigated the relationship between virulence and adhesion. During the construction of the syphilis rabbit model, the optimal dose of 10/site of was determined to effectively observe the depiction of syphilis lesions and immune responses for further virulence evaluation. Its virulence was gradually weakened during the interaction with host cells or the testicular passage, which was also proven using the pathological phenotype of the syphilis rabbit model. In addition, the adhesive ability of was reduced with increasing generation, which was verified via the co-incubation of the pathogen with Sf1Ep cells. This study provides insight into the relationship by which the virulence and adhesion of were decreased in a New Zealand white rabbit model of continuous infection and contributes to our knowledge regarding the development of syphilis.