The evolving saga of Mycoplasma genitalium

Pathogenicity and virulence of Mycoplasma genitalium: Unraveling Ariadne's Thread

Mycoplasma genitalium, a pathogen from class Mollicutes, has been linked to sexually transmitted diseases and sparked widespread concern. To adapt to its environment, M. genitalium has evolved specific adhesins and motility mechanisms that allow it to adhere to and invade various eukaryotic cells, thereby causing severe damage to the cells. Even though traditional exotoxins have not been identified, secreted nucleases or membrane lipoproteins have been shown to cause cell death and inflammatory injury in M. genitalium infection. However, as both innate and adaptive immune responses are important for controlling infection, the immune responses that develop upon infection do not necessarily eliminate the organism completely. Antigenic variation, detoxifying enzymes, immunoglobulins, neutrophil extracellular trap-degrading enzymes, cell invasion, and biofilm formation are important factors that help the pathogen overcome the host defence and cause chronic infections in susceptible individuals. Furthermore, M. genitalium can increase the susceptibility to several sexually transmitted pathogens, which significantly complicates the persistence and chronicity of M. genitalium infection. This review aimed to discuss the virulence factors of M. genitalium to shed light on its complex pathogenicity and pathogenesis of the infection.

Molecular basis of antimicrobial resistance in Mycoplasma genitalium

Mycoplasma genitalium is a sexually transmitted urogenital pathogen, and infection can result in serious symptoms. As M. genitalium is rather difficult to culture, infections are usually detected by molecular methods. Unfortunately, there has recently been a significant increase in resistance to azithromycin and moxifloxacin used for the treatment of M. genitalium infections. The increased resistance to (often empirically prescribed) M. genitalium treatments has resulted in frequent therapy failures and stresses the need for routine detection of antimicrobial resistance. In M. genitalium, antimicrobial resistance is almost always the result of DNA mutations and thus can easily be detected by molecular techniques. Regrettably, many microbiology laboratories do not use molecular techniques for the detection of bacterial antimicrobial resistance. As molecular tests are becoming available for M. genitalium, both for the establishment of infection and the detection of antimicrobial resistance, it is now more important to ensure that knowledge on the resistance mechanisms is transferred from the laboratory to the clinician. This review will provide a brief summary of the current status of antimicrobial resistance, its molecular mechanisms and the impact on the current status of M. genitalium treatment.

A novel approach for the identification and phylogenetic delineation of human Mycoplasma species and strains using genomic segment sequence analysis

Human Mycoplasma are opportunistic, facultative pathogens that are site-specific in their colonization of mucosal surfaces. They are responsible for significant annual morbidity in humans by causing acute illnesses and chronic auto-inflammatory diseases via modulation of the host's immune system. Accurate and reliable identification of Mycoplasma species and their strains are thus of upmost importance. This study, analysed for the first time, the effectiveness of a short (50 kb) genome fragment (termed as R-segment), which includes the complete rRNA operon and the flanking region up to 50 kb, as a single phylogenetic marker for assessing the molecular taxonomy and determining the identity of human Mycoplasma species and their strains. The R-segments of human mycoplasmas were shown to have inherent genetic properties [average nucleotide identity (ANI), codon bias index (CBI), genome-to-genome distances (GGD) and % G + C] similar to their whole genome counterparts. Based on the results of our R segment analysis, a species of human Mycoplasma can simply be defined as a group of strains that share R-segments with ANIs ≥97%. Additionally, R-segments offered superiority to 16S rRNA gene sequences and multilocus sequences for the delineation of the human Mycoplasma species and their strains. The overall comparative genomic results suggest that R-segment analysis can be considered as a promising cost-effective tool for the epidemiological surveillance and differentiation of the closely related species and/or strains of human mycoplasmas.

Current concepts of genetic variability of genital mycoplasmas and their role in the development of inflammatory diseases of the urogenital system

The authors disclose current concepts of the taxonomic and morphologic characteristics of genital mycoplasmas and their role in the development of inflammatory urogenital diseases and reproductive disorders. They also discuss such issues as genetic variability of genital mycoplasmas and possible interrelation with different variants of the clinical course of inflammatory processes in the urogenital tract.

Mycoplasma genitalium symptoms, concordance and treatment in high-risk sexual dyads

The objective of this study was to determine the prevalence and concordance of Mycoplasma genitalium (MG) among Mexican American and African American women and their male sexual partners. Secondary objectives were to determine symptoms of MG infection and persistence of MG after antibiotic therapy. Heterosexual couples were tested for MG and interviewed separately regarding symptoms and behavioural/epidemiologic variables at baseline, six and 12 months. The overall prevalence of MG among women and men was 9.5% and 10.6%, respectively. Subjects were five times more likely to be infected with MG if their sexual partner was MG positive. Among men and women, MG prevalence and mean bacterial loads were similar after receiving single-dose azithromycin, doxycycline or no antibiotics. MG was associated with current urethral discharge in men. No clinical symptoms were specifically diagnostic of MG infection in women.

Interaction of Mycoplasma genitalium with host cells: evidence for nuclear localization

Mycoplasma genitalium (Mg) is a mollicute that causes a range of human urogenital infections. A hallmark of these bacteria is their ability to establish chronic infections that can persist despite completion of appropriate antibiotic therapies and intact and functional immune systems. Intimate adherence and surface colonization of mycoplasmas to host cells are important pathogenic features. However, their facultative intracellular nature is poorly understood, partly due to difficulties in developing and standardizing cellular interaction model systems. Here, we characterize growth and invasion properties of two Mg strains (G37 and 1019V). Mg G37 is a high-passage laboratory strain, while Mg 1019V is a low-passage isolate recovered from the cervix. The two strains diverge partially in gene sequences for adherence-related proteins and exhibit subtle variations in their axenic growth. However, with both strains and consistent with our previous studies, a subset of adherent Mg organisms invade host cells and exhibit perinuclear targeting. Remarkably, intranuclear localization of Mg proteins is observed, which occurred as early as 30 min after infection. Mg strains deficient in adherence were markedly reduced in their ability to invade and associate with perinuclear and nuclear sites.