Abstract
Mycoplasma genitalium is a sexually transmitted pathogen and is associated with reproductive tract disease that can be chronic in nature despite the induction of a strong antibody response. Persistent infection exacerbates the likelihood of transmission, increases the risk of ascension to the upper tract, and suggests that M. genitalium may possess immune evasion mechanism(s). Antibodies from infected patients predominantly target the MgpB adhesin, which is encoded by a gene that recombines with homologous donor sequences, thereby generating sequence variation within and among strains. We have previously characterized mgpB heterogeneity over the course of persistent infection and have correlated the induction of variant-specific antibodies with the loss of that particular variant from the infected host. In the current study, we examined the membrane topology, antibody accessibility, distribution of amino acid diversity, and the location of functional and antigenic epitopes within the MgpB adhesin. Our results indicate that MgpB contains a single transmembrane domain, that the majority of the protein is surface exposed and antibody accessible, and that the attachment domain is located within the extracellular C-terminus. Not unexpectedly, amino acid diversity was concentrated within and around the three previously defined variable regions (B, EF, and G) of MgpB; while nonsynonymous mutations were twice as frequent as synonymous mutations in regions B and G, region EF had equal numbers of nonsynonymous and synonymous mutations. Interestingly, antibodies produced during persistent infection reacted predominantly with the conserved C-terminus and variable region B. In contrast, infection-induced antibodies reacted poorly with the N-terminus, variable regions EF and G, and intervening conserved regions despite the presence of predicted B cell epitopes. Overall, this study provides an important foundation to define how different segments of the MgpB adhesin contribute to functionality, variability, and immunogenicity during persistent M. genitalium infection.
Highlights
Mycoplasma genitalium is a sexually transmitted pathogen associated with urethritis in men and urethritis, cervicitis, endometritis, pelvic inflammatory disease, tubal factor infertility, and pre-term birth in women
In the genomically reduced pathogen M. genitalium, the multifunctional and antigenically variable MgpB protein is required for adherence and motility, and is possibly involved in the longterm survival of bacteria during persistent infection
The MgpB adhesin is the predominant antigen targeted by antibodies induced during naturally acquired persistent infection in men [27] and women [25,26,27,28] and in experimentally infected non-human primates [32] clearly demonstrating that a humoral response is insufficient to clear bacteria from the lower genital tract
Summary
Mycoplasma genitalium is a sexually transmitted pathogen associated with urethritis in men and urethritis, cervicitis, endometritis, pelvic inflammatory disease, tubal factor infertility, and pre-term birth in women (reviewed in [1,2,3,4]). M. genitalium cells exhibit several key features that distinguish them from other pathogens This fastidious bacterium contains a remarkably small genome (580kb) [14], lacks a cell wall, and displays a flask-shaped morphology that includes a tip structure known as the terminal organelle. This complex structure mediates motility and cell division [15] and is comprised of a unique set of proteins that includes the primary adhesin MgpB ( designated MgPa or P140) [15,16,17,18] and the cytadherence-associated MgpC ( known as P110) [15]. MgpB and MgpC independently accumulate sequence diversity through recombination with homologous donor sequences (as described below) [19,20,21,22,23,24] and elicit humoral and cervicovaginal antibodies during natural human [25,26,27,28] and experimental animal [16, 29,30,31,32] infection
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
