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Neisseria meningitidis is a common commensal bacterium of the nasopharynx that can cause invasive meningococcal disease (IMD). In comparison, N. gonorrhoeae is always a pathogen usually limited to mucosal sites. However, increased evidence for overlapping clinical syndromes is emerging. We compared N. meningitidis samples from a urogenital outbreak in Australia with sequences from the United States and other countries. We conducted phylogenetic analyses to assess relatedness and examine for genomic changes associated with meningococcal adaptation; we collated a total of 255 serogroup Y (MenY), sequence type (ST) 1466 isolate assemblies. Most urogenital isolates originated from Australia; those isolates formed a distinct clade, most closely related genomically to recent US IMD isolates. No specific genomic changes suggested niche adaptation or associated clinical manifestations. The MenY ST1466 N. meningitidis isolates circulating in Australia and the United States are capable of causing both urethritis and invasive meningococcal disease.

ObjectivesThe Neisseria gonorrhoeae multi-antigen sequence typing (NG-MAST) system, based on PCR amplification and sequence analysis of the gonococcal porB and tbpB genes, is widely used for molecular typing of gonococcal isolates but is not validated for non-cultured clinical samples. This study sought to examine the performance of the NG-MAST system on a range of non-cultured samples.MethodsNucleic acid extracts of 73 N gonorrhoeae-positive samples, comprising eight cervical swabs, nine urethral swabs, 35 urine samples, one vaginal swab, 13 rectal swabs and seven throat swabs, were analysed by NG-MAST. For 27 specimens, corresponding gonococcal isolates were also analysed and the results compared. A panel of 44 non-gonococcal Neisseria strains and 100 N gonorrhoeae-negative clinical samples were used to investigate further the specificity of the NG-MAST PCR reactions.ResultsPCR amplification and DNA sequencing of gonococcal porB and tbpB genes was successful for all N gonorrhoeae-positive urogenital specimens, 11 of 13 rectal swabs and four of seven throat swabs. For the 27 N gonorrhoeae-positive specimens with corresponding gonococcal isolates, the porB and tbpB sequences obtained from the non-cultured specimen were identical to those obtained from the isolate. Cross-reaction with non-gonococcal Neisseria species was observed for both the porB and tbpB PCR reactions, and proved to be problematical for NG-MAST typing of throat swab specimens.ConclusionsThe NG-MAST system can successfully be applied directly to non-cultured urogenital samples, but is less suitable for extragenital specimens, particularly throat swabs, due to cross-reaction with commensal Neisseria species.