Syphilis is a multistage infectious disease that is usually transmitted through contact with active lesions of a sexual partner or from an infected pregnant woman to her fetus. Despite elimination efforts, syphilis remains endemic in many developing countries and has reemerged in several developed countries, including China, where a widespread epidemic recently occurred. In the absence of a vaccine, syphilis control is largely dependent upon identification of infected individuals and treatment of these individuals and their contacts with antibiotics. Although penicillin is still effective, clinically significant resistance to macrolides, a second-line alternative to penicillin, has emerged. Macrolide-resistant strains of Treponema pallidum are now prevalent in several developed countries. An understanding of the genetic basis of T. pallidum antibiotic resistance is essential to enable molecular surveillance. This review discusses the genetic basis of T. pallidum macrolide resistance and the potential of this spirochete to develop additional antibiotic resistance that could seriously compromise syphilis treatment and control.Spirochetes are motile, spiral-shaped bacteria that are divided into the families Spirochaetaceae, Brachyspiraceae, and Leptospiraceae (54). Treponema species, which are members of the family Spirochaetaceae, are fastidious anaerobic or microaerophilic host-associated spirochetes. While the majority of Treponema species are found in the flora of humans and animals, a few species are pathogenic for humans. Treponema pallidum subspp. pallidum, endemicum, and pertenue,
Syphilis is caused by infection with Treponema pallidum subsp.
pallidum, a not-yet-cultivable spiral-shaped bacterium that
is usually transmitted by sexual contact with an infected partner or by an
infected pregnant woman to her fetus. There is no vaccine to prevent syphilis.
Diagnosis and treatment of infected individuals and their contacts is key to
syphilis control programs that also include sex education and promotion of
condom use to prevent infection. Untreated syphilis can progress through four
stages: primary (chancre, regional lymphadenopathy), secondary (disseminated
skin eruptions, generalized lymphadenopathy), latent (decreased re-occurrence of
secondary stage manifestations, absence of symptoms), and tertiary (gummas,
cardiovascular syphilis and late neurological symptoms). The primary and
secondary stages are the most infectious. WHO estimates that each year 11
million new cases of syphilis occur globally among adults aged 15-49 years.
Syphilis has re-emerged in several regions including North America, Western
Europe, China and Australia. Host-associated factors that drive the re-emergence
and spread of syphilis include high-risk sexual activity, migration and travel,
and economic and social changes that limit access to health care. Early,
uncomplicated syphilis is curable with a single intramuscular injection of
benzathine penicillin G (BPG), the first line drug for all stages of syphilis.
Emergence of macrolide-resistant T. pallidum has essentially
precluded the empirical use of azithromycin as a second-line drug for treatment
of syphilis. Virulence attributes of T. pallidum are poorly
understood. Genomic and proteomic studies have provided some new information
concerning how this spirochete may evade host defense mechanisms to persist for
long periods in the host.
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