Yolande Hauck

Molecular characterization of Coxiella burnetii isolates by infrequent restriction site-PCR and MLVA typing

BackgroundCoxiella burnetii, the causative agent of Q fever, has a wide host range. Few epidemiological tools are available, and they are often expensive or not easily standardized across laboratories. In this work, C. burnetii isolates from livestock and ticks were typed using infrequent restriction site-PCR (IRS-PCR) and multiple loci variable number of tandem repeats (VNTR) analysis (MLVA).ResultsBy applying IRS-PCR, 14 C. burnetii isolates could be divided into six groups containing up to five different isolates. Clustering as deduced from MLVA typing with 17 markers provided an increased resolution with an excellent agreement to IRS-PCR, and with the plasmid type of each strain. MLVA was then applied to 28 additional C. burnetii isolates of different origin and 36 different genotypes were identified among the 42 isolates investigated. The clustering obtained is in agreement with published Multiple Locus Sequence Typing (MLST) data. Two panels of markers are proposed, panel 1 which can be confidently typed on agarose gel at a lower cost and in any laboratory setting (10 minisatellite markers with a repeat unit larger than 9 bp), and panel 2 which comprises 7 microsatellites and provides a higher discriminatory power.ConclusionOur analyses demonstrate that MLVA is a powerful and promising molecular typing tool with a high resolution and of low costs. The consistency of the results with independent methods suggests that MLVA can be applied for epidemiological studies. The resulting data can be queried on a dedicated MLVA genotyping Web service.

Genotyping and phylogenetic analysis of Yersinia pestis by MLVA: insights into the worldwide expansion of Central Asia plague foci.

Background The species Yersinia pestis is commonly divided into three classical biovars, Antiqua, Medievalis, and Orientalis, belonging to subspecies pestis pathogenic for human and the (atypical) non-human pathogenic biovar Microtus (alias Pestoides) including several non-pestis subspecies. Recent progress in molecular typing methods enables large-scale investigations in the population structure of this species. It is now possible to test hypotheses about its evolution which were proposed decades ago. For instance the three classical biovars of different geographical distributions were suggested to originate from Central Asia. Most investigations so far have focused on the typical pestis subspecies representatives found outside of China, whereas the understanding of the emergence of this human pathogen requires the investigation of strains belonging to subspecies pestis from China and to the Microtus biovar. Methodology/Principal Findings Multi-locus VNTR analysis (MLVA) with 25 loci was performed on a collection of Y. pestis isolates originating from the majority of the known foci worldwide and including typical rhamnose-negative subspecies pestis as well as rhamnose-positive subspecies pestis and biovar Microtus. More than 500 isolates from China, the Former Soviet Union (FSU), Mongolia and a number of other foci around the world were characterized and resolved into 350 different genotypes. The data revealed very close relationships existing between some isolates from widely separated foci as well as very high diversity which can conversely be observed between nearby foci. Conclusions/Significance The results obtained are in full agreement with the view that the Y. pestis subsp. pestis pathogenic for humans emerged in the Central Asia region between China, Kazakhstan, Russia and Mongolia, only three clones of which spread out of Central Asia. The relationships among the strains in China, Central Asia and the rest of the world based on the MLVA25 assay provide an unprecedented view on the expansion and microevolution of Y. pestis.

Molecular characteristics of "Mycobacterium canettii" the smooth Mycobacterium tuberculosis bacilli.

Since the first discovery of the smooth tubercle (SmTB) bacilli Mycobacterium canettii less than 60 isolates have been reported, all but one originating from a limited geographical location, the Horn of Africa. In spite of its rarity, the SmTB lineage deserves special attention. Previous investigations suggested that SmTB isolates represent an ancestral lineage of the Mycobacterium tuberculosis complex (MTBC) and that consequently they might provide essential clues on the origin and evolution of the MTBC. There is evidence that unlike the rest of the MTBC, SmTB strains recombine chromosomal sequences with a yet unknown Mycobacterium species. This behavior contributes to the much larger genetic heterogeneity observed in the SmTB isolates compared to the other members of the MTBC. We have collected 59 SmTB isolates of which 14 were newly recovered since previous reports, and performed extensive phenotypical and genotypical characterization. We take advantage of these investigations to review the current knowledge of M. canettii. Their characteristics and the apparent lack of human to human transmission are consistent with the previously proposed existence of non-human sources of infection. SmTB strains show remarkably common features together with secondary and taxonomically minor genetic differences such as the presence or absence of the CRISPR (Clustered Regularly Interspersed Palindromic Repeat) locus (usually called Direct Repeat or DR region) or number of IS sequences. Multiple Locus Variable number of tandem repeat Analysis (MLVA) and DR region analyses reveal one predominant clone, one minor clone and a number of more distantly related strains. This suggests that the two most frequent clones may represent successfully emerging lineages.

Identification of Variable-Number Tandem-Repeat (VNTR) Sequences in Acinetobacter baumannii and Interlaboratory Validation of an Optimized Multiple-Locus VNTR Analysis Typing Scheme

ABSTRACT Acinetobacter baumannii is an important opportunistic pathogen responsible for nosocomial outbreaks, mostly occurring in intensive care units. Due to the multiplicity of infection sources, reliable molecular fingerprinting techniques are needed to establish epidemiological correlations among A. baumannii isolates. Multiple-locus variable-number tandem-repeat analysis (MLVA) has proven to be a fast, reliable, and cost-effective typing method for several bacterial species. In this study, an MLVA assay compatible with simple PCR- and agarose gel-based electrophoresis steps as well as with high-throughput automated methods was developed for A. baumannii typing. Preliminarily, 10 potential polymorphic variable-number tandem repeats (VNTRs) were identified upon bioinformatic screening of six annotated genome sequences of A. baumannii. A collection of 7 reference strains plus 18 well-characterized isolates, including unique types and representatives of the three international A. baumannii lineages, was then evaluated in a two-center study aimed at validating the MLVA assay and comparing it with other genotyping assays, namely, macrorestriction analysis with pulsed-field gel electrophoresis (PFGE) and PCR-based sequence group (SG) profiling. The results showed that MLVA can discriminate between isolates with identical PFGE types and SG profiles. A panel of eight VNTR markers was selected, all showing the ability to be amplified and good amounts of polymorphism in the majority of strains. Independently generated MLVA profiles, composed of an ordered string of allele numbers corresponding to the number of repeats at each VNTR locus, were concordant between centers. Typeability, reproducibility, stability, discriminatory power, and epidemiological concordance were excellent. A database containing information and MLVA profiles for several A. baumannii strains is available from http://mlva.u-psud.fr/.

Progenitor “Mycobacterium canettii” clone responsible for lymph node tuberculosis epidemic, Djibouti.

Two outbreaks among expatriate children were caused by an epidemic clone from the Horn of Africa.

Use of a set of highly polymorphic minisatellite probes for the identification of cryptic 1p36.3 deletions in a large collection of patients with idiopathic mental retardation.

Editor—Mental retardation is a component of a large number of syndromes, most of which qualify individually as rare genetic diseases. Altogether, mental retardation affects 2-3% of the population and is unexplained in 40% of cases. According to Knight et al ,1 subtle telomeric chromosomal rearrangements are responsible for approximately 1% of unexplained mental retardation (with the proportion being highest, 7.4%, in the subclass of unexplained moderate to severe mental retardation). The identification of the genes responsible will require the precise delimitation of minimum deletion regions, which relies upon the collection of a large number of cases. Because of the low expected frequency of each telomeric deletion in mental retardation, the procedure to be applied should allow the screening of many patients at a low cost.nnIt is not yet clear whether all chromosome ends are associated with mental retardation syndromes with similar frequency. Distal chromosome 1p36 deletions were initially detected cytogenetically because of an associated segmental imbalance.2-5 This syndrome results from both interstitial and terminal deletions of varying sizes and different breakpoints6 and the severity of the phenotype is related to the extent of the deletion.7 Clinical examination can efficiently detect a large proportion of cases, so that the number of reports of 1p36 deletions has increased significantly in the past few years which may give the false impression that this is a relatively frequent syndrome.nnWe show here how highly polymorphic minisatellites located within a short region can provide an efficient prescreening of samples without the need for parental samples at the initial stage. The procedure was tested here using 1p36 minisatellites and provides an estimate of the frequency of 1p36 deletions in mentally retarded patients. A selection of five highly polymorphic minisatellite probes was used to search for 1p36.3 deletions in a …

Comparison of two commercial assays for the characterization of rpoB mutations in Mycobacterium tuberculosis and description of new mutations conferring weak resistance to rifampicin

OBJECTIVESnThe aim of this study was to compare the efficiency of two commercial assays, INNO-LiPA Rif.TB and MTBDRplus, for the identification of mutations in the rpoB hot-spot region and to assess the efficiency of these mutations in conferring resistance to rifampicin.nnnMETHODSnA collection of 126 rifampicin-resistant Mycobacterium tuberculosis and Mycobacterium africanum isolates and 18 rifampicin-susceptible isolates from different countries were analysed using the two hybridization assays.nnnRESULTSnFor 60 strains the hot-spot region of the rpoB gene was sequenced, confirming the results of the hybridization assays and allowing the identification of new mutations. In total, 17 mutations involving 10 codons were observed, two of which are newly described (D516Y and E562G/P564L). Mutations L533P, H526L, D516Y and L511P and the double mutation E562G/P564L conferred a low level of resistance.nnnCONCLUSIONSnThe assays INNO-LiPA Rif.TB and MTBDRplus identified rpoB mutations in 98.4% of cases. MTBDRplus provided additional information due to the overlapping hybridization probes and in addition allowed the investigation of katG mutations for isoniazid resistance.

First Insight into Genetic Diversity of the Mycobacterium tuberculosis Complex in Albania Obtained by Multilocus Variable-Number Tandem-Repeat Analysis and Spoligotyping Reveals the Presence of Beijing Multidrug-Resistant Isolates

ABSTRACT We characterized a set of 100 Mycobacterium tuberculosis complex clinical isolates from tuberculosis (TB) patients in Albania, typing them with a 24-locus variable-number tandem-repeat-spoligotyping scheme. Depending on the cluster definition, 43 to 49 patients were distributed into 15 to 16 clusters which were likely to be epidemiologically linked, indicative of a recent transmission rate of 28 to 34%. This result suggests that TB is under control in Albania. However, two multidrug-resistant (MDR) Beijing genotypes harboring the same S531A mutation on the rpoB gene were also found, suggesting a potential recent transmission of MDR TB. Three brand new genotypes, Albania-1 to Albania-3, are also described.

Large Preferred Region for Packaging of Bacterial DNA by phiC725A, a Novel Pseudomonas aeruginosa F116-Like Bacteriophage.

Bacteriophage vB_PaeP_PAO1_phiC725A (short name phiC725A) was isolated following mitomycin C induction of C7-25, a clinical Pseudomonas aeruginosa strain carrying phiC725A as a prophage. The phiC725A genome sequence shows similarity to F116, a P. aeruginosa podovirus capable of generalized transduction. Likewise, phiC725A is a podovirus with long tail fibers. PhiC725A was able to lysogenize two additional P. aeruginosa strains in which it was maintained both as a prophage and in an episomal state. Investigation by deep sequencing showed that bacterial DNA carried inside phage particles originated predominantly from a 700-800kb region, immediately flanking the attL prophage insertion site, whether the phages were induced from a lysogen or recovered after infection. This indicates that during productive replication, recombination of phage genomes with the bacterial chromosome at the att site occurs occasionally, allowing packaging of adjacent bacterial DNA.

Performances du kit MTBDRplus® dans le cadre de la surveillance de la résistance à la rifampicine chez Mycobacterium tuberculosis

The purpose of the survey was the routine assessment of the MTBDRplus(®) kit performance in the determination and characterization of Mycobacterium tuberculosis resistance to rifampicin. The survey was carried out on a collection of 144 strains (126 of which were resistant to rifampicin) isolated on patients from 15 countries. Sensitivity to antituberculosis drugs was determined by a liquid culture system and the reference method was the amplification and sequencing of a target region of the rpoB gene whose mutations are responsible for rifampicin resistance (codons 507 to 533). The assessed kit was based on a reverse hybridization technique using eight overlapping probes covering the target region and four probes representing the most-frequently observed mutations. The assay performance was found excellent, specificity: 100%, sensitivity: 99.2%; 17 mutations affecting 10 codons were reported, two of which were newly identified.