Molecular typing of nosocomial strains of Legionella pneumophila by arbitrarily primed PCR

Molecular epidemiology, phylogeny and evolution of Legionella

Legionella are opportunistic pathogens that develop in aquatic environments where they multiply in protozoa. When infected aerosols reach the human respiratory tract they may accidentally infect the alveolar macrophages leading to a severe pneumonia called Legionnaires' disease (LD). The ability of Legionella to survive within host-cells is strictly dependent on the Dot/Icm Type 4 Secretion System that translocates a large repertoire of effectors into the host cell cytosol. Although Legionella is a large genus comprising nearly 60 species that are worldwide distributed, only about half of them have been involved in LD cases. Strikingly, the species Legionella pneumophila alone is responsible for 90% of all LD cases. The present review summarizes the molecular approaches that are used for L. pneumophila genotyping with a major focus on the contribution of whole genome sequencing (WGS) to the investigation of local L. pneumophila outbreaks and global epidemiology studies. We report the newest knowledge regarding the phylogeny and the evolution of Legionella and then focus on virulence evolution of those Legionella species that are known to have the capacity to infect humans. Finally, we discuss the evolutionary forces and adaptation mechanisms acting on the Dot/Icm system itself as well as the role of mobile genetic elements (MGE) encoding T4ASSs and of gene duplications in the evolution of Legionella and its adaptation to different hosts and lifestyles.

Evaluation of an immunomagnetic separation assay in combination with cultivation to improve Legionella pneumophila serogroup 1 recovery from environmental samples

AIMS

Legionella isolation from environmental samples is often difficult because of the presence of heterotrophic-associated bacteria that frequently overgrow when using standard culture (ISO 11731, 1998; NF T90-431, 2003) methods. To improve Legionella pneumophila recovery from complex water samples (water from cooling towers, biofilms), we evaluated an immunomagnetic separation (IMS) assay using a monoclonal antibody raised against the lipopolysaccharide of Leg. pneumophila sg1 in combination with culture.

METHODS AND RESULTS

This study was conducted on 51 environmental specimens. The comparison between IMS-culture and standard culture (ISO 11731, 1998; NF T90-431, 2003) methods was made using ISO 17994, 2004 criteria for establishing equivalence between microbiological methods based on the upper and lower (XH and XL) values of the relative difference (95% confidence limit) and D as maximum acceptable deviation (value of the confidence limit).

CONCLUSIONS

We found that the average performance of IMS culture was higher than the reference method.

Longitudinal evaluation of the efficacy of heat treatment procedures against Legionella spp. in hospital water systems by using a flow cytometric assay

Legionella spp. are frequently isolated in hospital water systems. Heat shock (30 min at 70°C) is recommended by the World Health Organization to control its multiplication. The aim of the study was to evaluate retrospectively the efficacy of heat treatments by using a flow cytometry assay (FCA) able to identify viable but nonculturable (VBNC) cells. The study included Legionella strains (L. pneumophila [3 clusters] and L. anisa [1 cluster]) isolated from four hot water circuits of different hospital buildings in Saint-Etienne, France, during a 20-year prospective surveillance. The strains recovered from the different circuits were not epidemiologically related, but the strains isolated within a same circuit over time exhibited an identical genotypic profile. After an in vitro treatment of 30 min at 70°C, the mean percentage of viable cells and VBNC cells varied from 4.6% to 71.7%. The in vitro differences in heat sensitivity were in agreement with the observed efficacy of preventive and corrective heating measures used to control water contamination. These results suggest that Legionella strains can become heat resistant after heating treatments for a long time and that flow cytometry could be helpful to check the efficacy of heat treatments on Legionella spp. and to optimize the decontamination processes applied to water systems for the control of Legionella proliferation.

Repetitive element-polymerase chain reaction for genotyping of clinical and environmental isolates of Legionella spp

Genotyping of Legionella strains is important for the epidemiologic survey of Legionnaires' disease infections. In this study, we investigated the potential of repetitive element-polymerase chain reaction (rep-PCR) for differentiating various isolates of Legionella spp. We used 38 Legionella pneumophila isolates (collected in clinics all over Japan between 1980 and 2007), 19 environmental Legionella anisa isolates (collected in Okinawa, Nara, Osaka, and Hyogo prefecture between 1987 and 2007), and 2 Legionella-type strains. We extracted bacterial genomic DNA and applied it to rep-PCR. PCR products were then converted into bands by agarose gel electrophoresis. The L. pneumophila serogroup (SG) 1 displayed very diverse patterns. Different bands were produced for each species of Legionella, and each species was clearly distinct. Phylogenetic analysis displayed 1 cluster of L. anisa isolates, while other Legionella spp. were present at discrete levels. Our findings show that rep-PCR is an effective, rapid, and simple technique for differentiation of L. pneumophila strains as well as Legionella spp.

Persistence of Legionella in hospital water supplies and nosocomial Legionnaires' disease

The molecular epidemiology of clinical and environmental Legionella species isolates was studied in seven hospitals from 1989 to 2006. The number of environmental pulsed field gel electrophoresis (PFGE) patterns ranged from one to nine according to the hospital. Genomic PFGE pattern persistence was observed in 71% of the hospitals, even after 17 years in some hospitals, and the relationship between environmental and clinical isolates was established. The isolates associated with hospital-acquired Legionnaires' disease corresponded to the persistent environmental PFGE patterns of Legionella pneumophila in potable water supplies.

Prevalence of Legionella pneumophila serogroup 1 in water distribution systems in İzmir province of Turkey

Legionella pneumophila serogroup 1 occurrence has been investigated in 168 hot water samples from 24 hotels, situated in 6 counties in Izmir province of Turkey, from 15 June to 30 September of the year 2000. Sampling was carried out at 15-day intervals and seven samples were taken from each of the hotels' hot water reservoirs and hot water networks. The samples were (1 L) concentrated using polycarbonate filters (mesh size 0.22 microm). Isolation was achieved using selective medium, GVPC agar. The samples were concentrated by membrane filtration, divided into three portions and cultured without pretreatment, after acid treatment, and after heat treatment, on GVPC agar. One hundred and ten isolates were identified as L.pneumophila sg 1 using the Legionella Latex Test (Oxoid). Arbitrarily primed PCR (AP PCR) was employed to assess the clonal relationship between Legionella pneumophila sg 1 isolates from the hot water samples of the hotels. Three genotypes of L. pneumophila sg 1 isolates were identified. With a high prevalence of type A, 22 hotels were found to be colonized with L. pneumophila serogroup 1, while only 2 were free from the bacteria.

Evaluation of different primers for DNA fingerprinting of Legionella pneumophila serogroup 1 strains by polymerase chain reaction

A DNA fingerprinting method for the characterization of Legionella pneumophila serogroup 1 strains was established. This method was based on the DNA extraction using Chelex 100 and subsequent PCR analysis using primers under conditions of low stringency. Sixteen single primers were tested for the typing of the 10 epidemiologically unrelated reference strains of L. pneumophila serogroup 1 as well as patient isolates and environmental strains isolated from the water system of a hospital where patients with legionellosis were treated. In addition, a combination of two primers (Lpm-1 and Lpm-2) originally established for the specific detection of Legionella strains was tested. The PCR results were compared with two further subtyping methods, i.e. monoclonal antibody analysis and pulsed-field gel electrophoresis. The type strains Philadelphia 1, Knoxville 1, Allentown 1, Benidorm 0303E, Bellingham 1, and France 5811 could be distinguished clearly in experiments using all of the primers. Depending on the primer used, Heysham 1 and Oxford 4032E showed different DNA profiles. The strains Olda and Camperdown 1 were nearly indistinguishable. In contrast, the analysis by PFGE and MAb subtyping revealed distinct types for all 10 reference strains. The discrimination of the patient isolates from two suspected cases of nosocomial legionellosis and environmental isolates was not possible with the 16 single primers used in the study. However, the PCR assay with the combination of Lpm-1 and Lpm-2 as well as the PFGE and MAb analysis were able to differentiate distinct types. The use of the sequence-specific primers under low-stringency annealing conditions allowed both simultaneous gene detection as well as epidemiological typing of Legionella strains.

Identification of Legionella species by ribotyping and other molecular methods

There are currently more than 40 species of Legionella and the identification of most of them by standard methods is often technically difficult. The aim of this study was to use a ribotyping method with endonuclease HindIII and a probe consisting of a set of five oligonucleotides (referred to as OligoMix5). A total of 123 strains, including 78 type or reference strains corresponding to 44 species, eight clinical and 37 environmental isolates were tested. The usefulness of the method was demonstrated for the identification at the species level of all of the 123 Legionella isolates tested, with each species showing a specific profile. Among the 15 serogroups of Legionella pneumophila, eight patterns were obtained. For the 45 field strains, the randomly amplified polymorphic DNA (RAPD) technique and intergenic 16S-23S ribosomal spacer PCR analysis (ITS 16-23S) were also used. Altogether, these three methods allowed the identification of all of strains tested. However, ribotyping has proven to be more effective than the other methods.

Nosocomial Legionella pneumophila serogroup 5 outbreak associated with persistent colonization of a hospital water system

An outbreak of infections caused by Legionella pneumophila serogroup 5 was detected in a university hospital, and nosocomial reservoirs of the legionella epidemic were examined. Clinical isolates from two patients who had been affected by the L. pneumophila serogroup 5 outbreak, and from another patient with a legionella infection caused by the same serogroup 3 years later, were compared to L. pneumophila serogroup 5 isolates from the hospital water supply by two molecular methods, amplified fragment length polymorphism (AFLP) analysis and random amplified polymorphic DNA analysis (RAPD). Genotyping confirmed the epidemiological linkage of the first two patients, and linked their infections with the hospital water supply. The third clinical strain, which was also linked to the hospital water, was very similar to the epidemic strain. Even though the water distribution system was sanitized (superheat and flush sanitation), the epidemic strain was shown to be persisting in the hospital water outlets several years after its initial discovery.

[Molecular markers in the epidemiologic study of Legionella pneumophila infections]

PURPOSE

Legionnaires' disease is due to the inhalation of contaminated aerosols. The identification of the source of contamination in the aquatic environment is necessary to prevent the occurrence of new cases. A comparative study of clinical and environmental isolates is the basis of epidemiological investigations.

CURRENT KNOWLEDGE AND KEY POINTS

Genotypic methods are now mainly used to compare bacterial strains. Some of these methods are based on the electrophoretic separation of DNA restriction fragments. When electrophoretic profile are complex, some fragments can be visualized after hybridization (ribotyping). Large-sized fragments can be separated by pulsed-field gel electrophoresis. Other techniques are based on gene amplification, such as AP-PCR. This technique is easy to perform but its discriminatory power and reproducibility are lower. Some procedures are combining enzymatic cleavage and gene amplification. Finally methods based on the nucleotide sequence analysis of some genes are being evaluated.

FUTURE PROSPECTS AND PROJECTS

Techniques enabling the rapid comparison of various Legionella isolates will permit a quick detection of outbreaks and contribute to the identification of the source of contamination.

Comparative evaluation of three different genotyping methods for investigation of nosocomial outbreaks of Legionnaires' disease in hospitals

The increased incidence of nosocomial Legionnaires' disease in two hospitals prompted investigation of possible environmental sources. In the search for an effective DNA-typing technique for use in hospital epidemiology, the performance and convenience of three methods-SfiI macrorestriction analysis (MRA), amplified fragment length polymorphism (AFLP), and arbitrarily primed PCR (AP-PCR)-were compared. Twenty-nine outbreak-associated and eight nonassociated strains of Legionella pneumophila with 13 MRA types and subtypes were investigated. These strains comprised isolates from bronchoalveolar lavages, from environmental, patient-related sources, and type strains. All three typing methods detected one predominant genotype associated with the outbreaks in both hospitals. All of them correctly assigned epidemiologically associated, environmental isolates to their respective patient specimens. AP-PCR was the least discriminating and least reproducible technique. In contrast, AFLP was demonstrated as being the method with the best interassay reproducibility (90%) and concordance (94%) in comparison to the genotyping standard of MRA and the epidemiological data. Analysis of AFLP fragments revealed 12 different types and subtypes. Because of its simplicity and reproducibility, AFLP proved to be the most effective technique in outbreak investigation.

Australian isolates of Legionella longbeachae are not a clonal population

Legionella longbeachae is almost as frequent a cause of legionellosis in Australia as Legionella pneumophila, but epidemiological investigation of possible environmental sources and clinical cases has been limited by the lack of a discriminatory subtyping method. The purpose of this study was to examine the genetic variability among Australian isolates of L. longbeachae serogroup 1. Pulsed-field gel electrophoresis (PFGE) of SfiI fragments revealed three distinct pulsotypes among 57 clinical and 11 environmental isolates and the ATCC control strains of L. longbeachae serogroups 1 and 2. Each pulsotype differed by four bands, corresponding to <65% similarity. A clonal subgroup within each pulsotype was characterized by >88% similarity. The largest major cluster was pulsotype A, which included 43 clinical isolates and 9 environmental isolates and was divided into five subgroups. Pulsotypes B and C comprised smaller numbers of clinical and environmental isolates, which could each be further divided into three subgroups. The ATCC type strain of L. longbeachae serogroup 1 was classified as pulsotype B, subtype B3, while the ATCC type strain of L. longbeachae serogroup 2 was identified as a different pulsotype, LL2. SfiI macrorestriction analysis followed by PFGE showed that the Australian L. longbeachae strains are not a single clonal population as previously reported.

A multicenter evaluation of genotypic methods for the epidemiologic typing of Legionella pneumophila serogroup 1: results of a pan-European study

OBJECTIVES: To compare genotypic methods for epidemiologic typing of Legionella pneumophila serogroup (sg) 1, in order to determine the best available method within Europe for implementation and standardization by members of the European Working Group on Legionella Infections. METHODS: Coded isolates (114) of L. pneumophila sg 1 comprising one epidemiologically 'unrelated' (79) and one 'related' panel of isolates (35) were sent to 12 laboratories in 11 European countries. Analysis was undertaken in each laboratory using one or more of the following methods: ribotyping, restriction fragment length polymorphism analysis, restriction endonuclease analysis, pulsed-field gel electrophoresis (PFGE), PCR using arbitrary/repeat sequence primers (AP-, AP/rep-PCR), and amplified fragment length polymorphism (AFLP) analysis. Results were analyzed visually or using gel analysis software. Each method was assessed for its: index of discrimination (D), epidemiologic concordance (E), speed of application and ease of use. In addition, phenotypic analysis was performed in two laboratories using monoclonal antibodies (mAbs). RESULTS: The D of each of the genotypic methods ranged from 0.840 for ribotyping to 0.990 for PFGE using Sfil: E ranged from 0.06 for AP- and AP/rep-PCR to 1.00 for ribotyping using Pstl/EcoRI and AFLP: in general, E was inversely related to D. Although offering only limited discrimination (D=0.838), mAb typing was both rapid and highly epidemiologically concordant (E=1.00). CONCLUSIONS: Two methods, PFGE using Sfil and AFLP, were selected for further study. AFLP is rapid and highly epidemiologically concordant (E=1.00), but is not highly discriminatory. This method will be developed as a rapid screening tool. PFGE using Sfil is highly discriminatory but, in the present study, yielded low values of E (0.12-0.71). Attempts will be made to rigorously standardize this method for use as the reference method. Primary screening of isolates by mAb subgrouping is recommended.

Single clonal origin of a high proportion of Legionella pneumophila serogroup 1 isolates from patients and the environment in the area of Paris, France, over a 10-year period

Arbitrarily primed PCR with three primers and pulsed-field gel electrophoresis were used to characterize a set of 75 clinical Legionella pneumophila serogroup 1 isolates, with no apparent epidemiological link, obtained from 24 hospitals in Paris, France, from 1987 to 1997. Unexpectedly, 25 clinical isolates from 15 hospitals had an identical profile (termed type A) by both methods. The same profile was subsequently found in 16 of 64 randomly selected environmental L. pneumophila serogroup 1 isolates from 15 different sites in the Paris area. There was no evidence of geographic clustering or a peak incidence of type A isolation. Type A has not been found in France outside the Paris area, suggesting that a particular type of L. pneumophila serogroup 1 is specifically present in the Paris water distribution network.

Investigation of a nosocomial outbreak due to Serratia marcescens in a maternity hospital

OBJECTIVES

To investigate an outbreak of Serratia marcescens in a maternity hospital (November 1994 to May 1995).

DESIGN

Retrospective analysis of epidemiological data and prospective study of systematic bacteriological samples from patients and environment, with genotyping of strains by arbitrarily primed polymerase chain reaction.

SETTING

A private maternity hospital, Saint-Etienne, France.

RESULTS

In the neonatal unit, 1 newborn developed a bacteremia, and 36 were colonized in stools with S marcescens. As the colonization of some newborns was shown to occur only a few hours after delivery, the inquiry was extended to other maternity wards, where 8 babies and 4 mothers were found to be colonized. Environmental sampling led to the isolation of S marcescens from a bottle of enteral feed additive in the neonatal unit and from the transducers of two internal tocographs in the delivery rooms. The genotyping of 27 strains showed two different profiles: a major epidemic profile shared by 22 strains (18 from babies of the neonatal unit, 2 from babies of other units, and 2 from breast milk) and another profile shared by 5 strains (2 from transducers of internal tocographs, 2 from babies, and 1 from a mother). The strain isolated from lipid enteral feeding was not available for typing. Although this source of contamination was removed soon from the neonatal unit, the outbreak stopped only when infection control measures were reinforced in the delivery rooms, including the nonreuse of internal tocographs.

CONCLUSIONS

In delivery rooms, the quality of hygiene needs to be as high as in surgery rooms to prevent nosocomial colonization or infection of neonates at birth.

Nosocomial legionellosis outbreak over a three-year period: investigation and control

OBJECTIVE: To investigate the epidemiologic relatedness of nosocomial infections due to Legionella pneumophila serogroup 1 diagnosed between 1992 and 1994 in six immunocompromised patients of the same hospital and to describe the measures which were developed to control the outbreak. METHODS: Legionella strains isolated from patients and from potable hot water were compared using three typing methods: monoclonal antibody analysis, arbitrarily primed PCR and ribotyping. RESULTS: Environmental investigations revealed the presence of high levels of L. pneumophila serogroup 1 in hot water. The typing methods gave concordant results for demonstrating (1) the persistence of an epidemic strain of L. pneumophila serogroup 1 in the major water distribution circuit of the hospital over a 3-year period, and (2) the identity between patients' and environmental strains. Five of the six patients were probably infected via aerosols of hot tap water following inappropriate therapeutic procedures. Repetitive heat flushings associated with regular bacteriologic surveillance allowed correct disinfection of the water distribution systems. Specific recommendations concerning aerosol delivery and oxygen therapy were implemented in order to prevent further nosocomial legionellosis. CONCLUSIONS: The same strain of L. pneumophila had been able to colonize the main water circuit of the hospital for at least 3 years; the relatedness between clinical and environmental strains was easily confirmed by the use of molecular markers.

Suitability of repetitive-DNA-sequence-based PCR fingerprinting for characterizing epidemic isolates of Salmonella enterica serovar Saintpaul

Three molecular typing methods, repetitive-sequence-based PCR (rep-PCR) fingerprinting, plasmid profiling, and arbitrarily primed PCR fingerprinting, were used to characterize isolates of Salmonella enterica serovar Saintpaul. Most of the isolates were obtained from epidemic human cases of food-borne salmonellosis, together with some from the food material suspected to be the source of infection, and a few were obtained from other cases apparently not related to the epidemic. All three methods adequately discriminated the epidemic strain from other strains of the serovar. In addition several isolates from human cases which are not identical to the epidemic strain were found. These isolates therefore must have been responsible for some sporadic infections, which were only temporally related to the epidemic. These strains showed a high degree of similarity to a strain isolated from a turkey. rep-PCR fingerprinting with REP-Dt primers and primer ERIC1R, applicable even to crude cell lysates, offers an attractive choice as a primary method for the discrimination of various Salmonella serotypes as well as isolates within serotype Saintpaul.

Evaluation of arbitrarily primed polymerase chain reaction analysis for typing Legionella pneumophila

OBJECTIVE: To evaluate the performance of arbitrarily primed polymerase chain reaction (AP-PCR) analysis in epidemiologic typing of Legionella pneumophila. METHODS: Sixty-two isolates of L. pneumophila of serogroups 1, 3, 6 and 10, including epidemiologically related and unrelated isolates, were analyzed by AP-PCR using the primer BG2. Twenty-six of the serogroup 1 isolates were typed by pulsed-field gel electrophoresis (PFGE). RESULTS: AP-PCR analysis showed 98% typeability and complete reproducibility. A majority of unrelated isolates of each serogroup could be distinguished (discrimination index: 92%). Clinical isolates showed AP-PCR patterns indistinguishable from those of the isolates of the related environmental source. PFGE and AP-PCR results were in agreement for 88% of isolates. CONCLUSIONS: Single-primer AP-PCR analysis can be used as a simple and reproducible screening method for typing L. pneumophila strains of different serogroups.

Comparative analysis of infrequent-restriction-site PCR and pulsed-field gel electrophoresis for epidemiological typing of Legionella pneumophila serogroup 1 strains

Two methods were compared for the analysis of 48 unrelated and epidemiologically related Legionella pneumophila serogroup 1 isolates. These are the infrequent-restriction-site PCR (IRS-PCR) assay with adapters designed for XbaI and PstI restriction sites and the pulsed-field gel electrophoresis (PFGE) analysis determined after DNA restriction with SfiI. Both methods demonstrated a high level of discrimination with a similar capacity for differentiating 23 of the 24 unrelated isolates. PFGE analysis and IRS-PCR assay were both able to identify epidemiologically related isolates of L. pneumophila from three outbreaks. Hence, IRS-PCR assay appears to be a reproducible (intergel reproducibility, 100%) and discriminative (discriminatory index, > or = 0.996) tool for typing of Legionella. Compared to PFGE, however, IRS-PCR presented an advantage through ease of performance and with attributes of rapidity and sensitivity of target DNA.

Identification and DNA fingerprinting of Legionella strains by randomly amplified polymorphic DNA analysis

The randomly amplified polymorphic DNA (RAPD) technique was used in the development of a fingerprinting (typing) and identification protocol for Legionella strains. Twenty decamer random oligonucleotide primers were screened for their discriminatory abilities. Two candidate primers were selected. By using a combination of these primers, RAPD analysis allowed for the differentiation between all different species, between the serogroups, and further differentiation between subtypes of the same serogroup. The usefulness of RAPD analysis was also evaluated with outbreak-related clinical and environmental isolates previously typed by the restriction fragment length polymorphism technique. RAPD analysis proved to be as accurate as other genotypic methods, reproducible, and highly discriminatory and is a valuable new alternative to traditional fingerprinting and identification of Legionella species and strains.

RAPD fingerprinting for the distinction ofPrevotella intermediasensu stricto fromPrevotella nigrescens

A collection of 70 oral strains including reference strains and clinical isolates identified as Prevotella intermedia sensu lato was constituted to cover a large clinical and geographical diversity. Electrophoresis of the enzyme malate dehydrogenase allowed the identification of the 70 study strains as Prevotella intermedia sensu stricto (n= 36), Prevotella nigrescens (n= 31) and three unclassified strains. By using four primers, DNA fingerprints were generated from 20 strains as random amplified polymorphic DNA (RAPD). Matching co-migrating amplicon positions by pairwise comparison allowed the clustering of the fingerprints as two groups coincident with the P. intermedia/P. nigrescens assignment by enzyme electrophoresis of malate dehydrogenase. Our data suggest that isolates identified asP. intermedia sensu lato by conventional criteria can be speciated asP. intermedia sensu stricto or P. nigrescens by RAPD fingerprinting.

The first clinical isolate of Legionella parisiensis, from a liver transplant patient with pneumonia

A bluish white autofluorescent strain of Legionella was isolated from the tracheal aspirate of a female liver transplant patient who developed hospital-acquired pneumonia. This strain had biochemical characteristics compatible with those of L. cherrii, L. anisa, and L. parisiensis and could not be differentiated from L. bozemanii and L. parisiensis by the direct fluorescent-antibody assay. Phylogenetic analysis of partial 16S rRNA gene sequences of this strain (ATCC 700174) revealed the closest homology to the species L. parisiensis (99.5%). An L. parisiensis species-specific profile was also identified by a random amplified polymorphic DNA technique. This is the first report of L. parisiensis isolation from humans.