High levels of macrolide-resistant Mycoplasma genitalium in Queensland, Australia

The macrolide azithromycin is recommended for treatment of Mycoplasma genitalium infection; however, M. genitalium strains possessing macrolide resistance-mediating mutations (MRMMs) are increasingly being reported. Here, we used the SpeeDx ResistancePlus MG kit, which provides simultaneous detection of M. genitalium and MRMMs, to assess MRMM carriage among M. genitalium infections in Queensland, Australia. Performance characteristics of the ResistancePlus MG kit for M. genitalium detection were compared to in-house PCR. Available M. genitalium PCR-positive (n=67) and negative (n=281) samples from the years 2011 to 2017 were tested using the SpeeDx ResistancePlus MG kit. In total, 63.6 % M. genitalium-positive samples were indicated to harbour MRMMs. The ResistancePlus MG method provided sensitivity and specificity of 97 and 99.6 % respectively compared to in-house PCR for M. genitalium detection. Such high levels of macrolide-resistant M. genitalium raise further concerns over future use of azithromycin for treatment of M. genitalium infection.

Mycoplasma genitalium is a sexually transmitted infection that causes signs and symptoms which are similar to Chlamydia, including urethritis in males, and cervicitis and pelvic inflammatory disease in females [1]. Like Chlamydia, the macrolide azithromycin is the recommended first-line treatment for M. genitalium infection in most settings [2,3]. However, treatment for M. genitalium is becoming problematic due to the high proportions of M. genitalium strains exhibiting resistance to the azithromycin caused by macrolide resistance-mediating mutations (MRMMs) in the M. genitalium 23S rRNA gene. The prevalence of M. genitalium strains harbouring MRMMs varies between geographical regions. For example, recent data showed MRMMharbouring strains comprised 18 % of M. genitalium cases in Sweden [4] 47.3 % in Canada [5] and 72 % of cases in New Zealand [6]. Furthermore, prevalence may also differ between heterosexual populations and men-who-have-sexwith-men (MSM) with a recent study from Victoria, Australia (a southern state of Australia) showing that MSM were twice as likely to harbour MRMMs compared to heterosexual men (76 % compared to 39 %; [7]).
Antimicrobial resistance testing via bacterial culture is not feasible for M. genitalium as a routine tool given the fastidious nature of the organism. Therefore, nucleic acid amplification tests are now recommended for both diagnosing M. genitalium infection and assessing antimicrobial resistance [2]. The ResistancePlus MG assay (SpeeDx, Australia) is a PCR-based commercial method that simultaneously detects M. genitalium as well as five MRMMs [8].
Here, we used the ResistancePlus MG assay to investigate M. genitalium macrolide resistance levels in Queensland, Australia (a state in the northern part of Australia). In doing so, we also assessed the concordance of the ResistancePlus MG assay with the in-house PCR routinely used by the local pathology provider.
Testing was conducted using remnant DNA extracts from samples submitted to Pathology Queensland for routine M. genitalium investigation. Three convenience sample banks were included. Bank 1 comprised 33 M. genitalium PCR-positive samples from the period 2011-2013, whereas Bank 2 comprised 34 M. genitalium PCR-positive samples from the period 2016-2017 (Table 1). These 67 M. genitalium positive samples (combined numbers for Banks 1 and 2) were from the metropolitan regions of South East Queensland (primarily patients attending sexual health clinics in the Gold Coast and Brisbane), with one sample being from a regional area of Queensland. Bank 3 comprised 281 M. genitalium PCR-negative samples from both males (n=167) and females (n=114) in 2016, and included 65 cervical swabs, 124 urine samples, 28 vaginal swabs, 2 meatus swabs, 43 rectal swabs, 3 throat swabs, 6 urethral swabs, and 10 samples for which the site was not specified. Bank 1 samples were extracted using the using the High Pure Viral Nucleic Acid kit (Roche Diagnostics, Australia). Banks 2 and 3 comprised residual DNA extracts from the Cobas 4800 CT/NG test (Roche Diagnostics, Australia; for samples also being tested for Neisseria gonorrhoeae and Chlamydia trachomatis) or were otherwise extracted using the MagNA Pure instrument (Roche Diagnostics, Australia). The in-house PCR used by Pathology Queensland to screen the samples for M. genitalium used previously described primers and probe targeting the M. genitalium MgPa adhesin gene [9] and the QuantiTect Probe PCR Master Mix (Qiagen, Australia) as the basis for the reaction mix. All DNA extracts had been stored at À20 C until being tested via the Resistan-cePlus MG method. ResistancePlus MG testing was performed as per kit instructions and results interpreted using the Fast-Finder ResistancePlus MG software (SpeeDx, Australia) following manufacturer's instructions. Ethical approvals for the study were provided by the Human Research Ethics Committees of the Children's Health Queensland Hospital and Health Service and the University of Queensland. Table 1  Overall, these data show high levels of macrolide-resistant M. genitalium in Queensland, Australia, and raise further concerns over azithromycin treatment of M. genitalium infections. The data also reinforce the importance of using a diagnostic assay to detect both the organism as well as resistance profile so as to facilitate selection of appropriate antimicrobials for treatment of M. genitalium infection.

Funding information
The study was funded by SpeeDx Ltd Pty. DW is the recipient of an NHMRC fellowship.