Rapid detection and evolutionary analysis of Legionella pneumophila serogroup 1 sequence type 47.

OBJECTIVES: Legionella pneumophila serogroup 1 (Lp1) sequence type 47 is the leading cause of legionellosis in north-western Europe, but, surprisingly, it is rarely isolated from environmental samples. Comparative genomics was applied to develop a PCR assay and to better understand the evolution of this strain. METHODS: Comparative analysis of 36 genomes representative of the Lp species was used to identify specific PCR targets, which were then evaluated in silico on 545 sequenced genomes and in vitro on 436 Legionella strains, 106 respiratory samples, and three environmental samples from proven ST47 sources. Phylogenetic analyses were performed to understand the evolution of ST47. RESULTS: The gene LPO_1073 was characterized as being 100% conserved in all 129 ST47 genomes analysed. A real-time PCR designed to detect LPO_1073 was positive for all 110 ST47 strains tested and agreed with culture and typing results previously obtained for 106 respiratory samples. The three environmental samples were also positive. Surprisingly, 26 of the 44 ST109 strains tested among 342 non-ST47 strains scored positive for LPO_1073. SNP-based phylogenetic analysis was undertaken to understand this result: the PCR-positive ST109 genomes were almost identical to ST47 genomes, with the exception of a recombined region probably acquired by ST47 from a ST62(-like) strain. CONCLUSION: The genomic analysis allowed the design of a highly specific PCR assay for rapid detection of ST47 strains. Furthermore, it allowed us to uncover the evolution of ST47 strains from ST109 by homologous recombination with ST62. We hypothesize that this recombination generated the leading cause of legionellosis in north-western Europe.

Heated birthing pools as a source of Legionnaires' disease.

In June 2014 Public Health England confirmed a case of Legionnaires' disease (LD) in a neonate following birth at home in a hired birthing pool incorporating a heater and a recirculation pump which had been filled in advance of labour. The case triggered a public health investigation and a microbiological survey of an additional ten heated birthing pools hired or recently hired to the general public across England. The birthing pool used by the parent of the confirmed case was identified as the source of the neonate's infection following detection of Legionella pneumophila ST48 in both patient and environmental samples. Legionella species were detected by quantitative polymerase chain reaction but not culture in a further three pools together with other opportunistic pathogens identified by culture and matrix-assisted laser desorption ionization-time of flight (MALDI-ToF) mass spectrometry. A Patient Safety Alert from NHS England and Public Health England was issued stating that heated birthing pools filled in advance of labour should not be used for home births. This recommendation remains in place. This investigation in conjunction with other recent reports has highlighted a lack of awareness regarding the microbiological safety of heated birthing pools and their potential to be a source of LD and other opportunistic infections. Furthermore, the investigation raised important considerations with regards to microbiological sampling and testing in such incidents. Public health authorities and clinicians should consider LD in the differential diagnosis of severe respiratory infection in neonates within 14 days of a water birth.

Design and validation of a qPCR assay for accurate detection and initial serogrouping of Legionella pneumophila in clinical specimens by the ESCMID Study Group for Legionella Infections (ESGLI).

Prompt detection of Legionella pneumophila is essential for rapid investigation of legionellosis. Furthermore, as the majority of L. pneumophila infections are caused by serogroup 1 (sg1) strains, rapid identification of such strains can be critical in both routine and outbreak scenarios. The ESCMID Study Group for Legionella Infections (ESGLI) was established in 2012 and immediately identified as a priority the validation of a reliable, easy to perform and interpret, cost-effective qPCR assay to standardise the detection of L. pneumophila DNA amongst members. A novel L. pneumophila assay targeting the mip gene was designed and combined with previously published methodologies amplifying the sg1 marker (wzm) and the green fluorescent protein gene (gfp) internal process control. The resulting triplex assay was validated internationally on the three qPCR platforms used by the majority of European Legionella reference laboratories: ABI 7500 (Life Technologies), LightCycler 480 Instrument II (Roche) and Rotor-Gene Q (Qiagen). Clinical and EQA specimens were tested together with a large panel of strains (251 in total) to validate the assay. The assay proved to be 100% specific for L. pneumophila and sg1 DNA both in silico and in vitro. Efficiency values for mip and wzm assays ranged between 91.97 and 97.69%. Limit of detection values estimated with 95% confidence were adopted for mip and wzm assays on all three qPCR platforms. Inhibition was not observed. This study describes a robust assay that could be widely implemented to standardise the molecular detection of L. pneumophila among ESGLI laboratories and beyond.

Application of Legionella pneumophila-specific quantitative real-time PCR combined with direct amplification and sequence-based typing in the diagnosis and epidemiological investigation of Legionnaires' disease.

The detection of Legionella pneumophila DNA in clinical specimens using quantitative real-time polymerase chain reaction (qPCR) combined with direct sequence-based typing (SBT) offers rapid confirmation and timely intervention in the investigation of cases of Legionnaires' disease (LD). We assessed the utility of a specific L. pneumophila qPCR assay targeting the macrophage infectivity potentiator (mip) gene and internal process control with three clinical specimen types from confirmed LD cases. The assay was completely specific for L. pneumophila, as demonstrated by positive results for 39/39 strains from all subspecies and 16 serogroups. No cross-reaction was observed with any of the 54 Legionella non-pneumophila (0/69 strains) or 21 non-Legionella (0/58 strains). All L. pneumophila culture-positive respiratory samples (81/81) were qPCR-positive. Of 80 culture-negative samples tested, 47 (58.8%) were qPCR-positive and none were inhibitory. PCR was significantly more sensitive than culture for samples taken ≤ 2 days of hospitalisation (94.7% vs. 79.6%), with the difference being even more marked for samples taken between 3 and 14 days (79.3% vs. 47.8%). Overall, the sensitivity of the qPCR was ∼30% greater than that of culture and direct typing on culture-negative PCR-positive samples resulted in full 7-allele profiles from 23/46, 5 to 6 alleles from 8/46 and ≥ 1 allele from 43/46 strains.

A quantitative descriptive study of the prevalence of carriage (colonisation) of haemolytic streptococci groups A, B, C and G in pregnancy.

Invasive group B streptococcus (GBS) disease is a leading cause of neonatal death. There is no UK national screening programme for GBS in pregnancy, hence colonisation rates are unknown. Intrapartum antibiotic prophylaxis is given during labour to colonised women to reduce neonatal GBS transmission and subsequent invasive infection. Data about prevalence of other haemolytic streptococci in pregnancy, including group A streptococcus (GAS), are uncommon despite increasing importance. This study investigated colonisation in 100 pregnant women using conventional culture methods; 19% had GBS. This suggests that GBS carriage is common in the UK. The role of other ß-haemolytic streptococci remains undefined.

Biochemical and genetic variation in Mycoplasma fermentans strains from cell line, human and animal sources.

AIMS: To investigate the inter-strain variation in (i) substrate utilization and (ii) the restriction fragment length polymorphism (RFLP) pattern based on the distribution of an insertion element (IS1550) in Mycoplasma fermentans strains, and to establish any correlation between subgroups within the species and their source or habitat. METHODS AND RESULTS: Using a sensitive dynamic pH method, the pattern and kinetics of substrate utilization by a panel of 17 M. fermentans strains from various sources was determined. This study correlated the biochemical characteristics of these strains with RFLP patterns based on the distribution of an insertion sequence (IS1550) with the sources of the strains. The test isolates were divided into four major groups according to the pattern of substrates metabolized. Interestingly, two strains isolated from cell lines in RFLP cluster I failed to utilize arginine. Ovine strains showed distinct substrate utilization patterns and produced RFLP patterns not previously encountered. CONCLUSIONS: All strains utilized glucose, but the ability to utilize arginine, fructose and N-acetyl glucosamine varied. There was also some correlation evident between the metabolic data and the RFLP clusters. SIGNIFICANCE AND IMPACT OF THE STUDY: This study has provided a better understanding of the biochemical and genetic diversity of M. fermentans strains from various sources.

Distribution of Legionella pneumophila serogroups, monoclonal antibody subgroups and DNA sequence types in recent clinical and environmental isolates from England and Wales (2000-2008).

Clinical isolates of Legionella pneumophila, obtained from 167 patients, who acquired their illness in the community in England and Wales between January 2000 and March 2008, were compared with 276 environmental isolates of L. pneumophila obtained over the same period as part of the routine sampling of 'managed' water systems. The 443 isolates were typed by monoclonal antibody (mAb) subgrouping and the internationally standardised, seven-gene loci, sequence-based typing (SBT) scheme of the European Working Group for Legionella Infections (EWGLI). Of the clinical isolates, 97.6% were L. pneumophila serogroup (sgp) 1, compared with only 55.8% of environmental isolates (P = 0.0002); 91.6% were subgrouped as mAb3/1+ve, compared with only 8.3% of environmental isolates (P < 0.0001). The isolates were very diverse, with SBT identifying 111 sequence types (STs) (index of diversity [IOD] 0.954). Among the clinical isolates, 42 ST were seen, with one (ST47) accounting for 25.7% and three (ST47, ST37 and ST62) accounting for 46.1% of all isolates. Eighty-two STs were identified among the environmental isolates, with two (ST1 and ST79) accounting for 34.1% of these. Comparison of the STs seen among clinical and environmental isolates showed that there was very little overlap between the two populations (P < 0.0001), with common clinical strains found in the environment very infrequently: 0.4, 0.7 and 0% (ST47, ST37 and ST62, respectively), and common environmental strains rarely causing disease: 4.8 and 1.2% (ST1 and ST79, respectively). Combining phenotypic and genotypic data identified 144 phenons (IOD 0.970); 52 among clinical isolates and 101 among environmental isolates. The most abundant clinical strain, mAb 'Allentown' ST47, accounted for 22.8% of cases, but was only found once in the environment. Conversely, mAb 'Oxford/OLDA' ST1 was the most common environmental strain (17.0%), but only caused two infections. A review of the published data shows that mAb 'Allentown' ST47 is also an important cause of infection in France and possibly in the Netherlands. However, it was not found in a large study of German clinical isolates. This study confirms previous work showing that just a few strains of L. pneumophila cause the majority of community-acquired Legionella infection in England and Wales, and that these clinically significant strains are only rarely found in managed water systems. These data suggest that knowing which particular strain is present in an environment might be at least as important as knowing the quantity in which legionellae are present.

Identification of Legionella spp. by 19 European reference laboratories: results of the European Working Group for Legionella Infections External Quality Assessment Scheme using DNA sequencing of the macrophage infectivity potentiator gene and dedicated online tools.

Identification of Legionella spp. can be achieved by DNA sequencing of the macrophage infectivity potentiator (mip) gene. The External Quality Assurance (EQA) scheme described in this report is the first to assess the proficiency of laboratories using this methodology. The results obtained from two EQA distributions sent to European reference laboratories involved in Legionella outbreak control and environmental monitoring are presented. Each distribution contained a panel of ten coded Legionella strains. All strains were from clinical and environmental sources and were considered to be wild-type strains. Participants used dedicated online tools to compare sequence text files against a database of known Legionella spp. The majority of centres (seven of ten, and 11 of 12) correctly identified all strains tested, in the first and second distributions, respectively. Typically, sequence similarity values of 98-100% were obtained when the test strains were compared with sequences contained in the database. In all but one case, lower values indicated a poor quality sequence. The exception was associated with the identification of a putative new species in the first panel. Genotypic identification of Legionella can be achieved by the use of standard protocols, dedicated identification libraries, and online tools. EQA schemes provide an independent measure of performance, and it is recommended that laboratories performing these techniques participate in such schemes, thereby allowing optimisation of and improvements in their performance.

Assessment of fluorescent amplified fragment length polymorphism analysis for epidemiological genotyping of Legionella pneumophila serogroup 1.

This study assessed the reproducibility and epidemiological concordance of double-enzyme fluorescent amplified fragment length polymorphism (fAFLP) analysis for genotyping of Legionella pneumophila serogroup (sg) 1. fAFLP fragment analysis was performed on three different sequencing platforms (one gel- and two capillary-based) in different laboratories with a well-characterised set of 50 strains of L. pneumophila sg 1. fAFLP data were analysed with the Pearson correlation similarity coefficient, using a range of parameters, and dendrogram outputs were converted to arbitrary types after selection of a specified percentage similarity threshold. The results obtained were compared with those obtained by the standard non-fluorescent AFLP method and were found to be broadly concordant. Using optimised settings for each fAFLP method to analyse the panel of 50 strains, epidemiological concordance (E) and reproducibility (R) values of 1.00 were obtained, and the number of types ranged from nine to 15, compared with E=1.00 and R=1.00, with 16 types, for the non-fluorescent AFLP protocol. The study demonstrated the potential of fAFLP for typing strains of L. pneumophila sg 1 on all three platforms; however, inter-platform comparison of fAFLP data was not achieved. fAFLP analysis may have a role in the fingerprinting of multiple isolates during Legionella outbreak investigations, but further work is required before type designations and identification libraries can be developed.