Caractérisation, épidémiologie et pathogénie d'un clone de Staphylococcus aureus résistant à la méticilline portant le gène de la toxine du choc toxique staphylococcique (TSST-1) / Characterisation, epidemiology and pathogeny of a methicillin-resistant Staphylococcus aureus clone containing the toxic shock syndrome toxin-1 gene (TSST-1)

Durand, Géraldine

17 December 2009

La plasticité génomique de Staphylococcus aureus lui permet d’acquérir des gènes codant des facteurs de virulence mais aussi des gènes de résistance aux antibiotiques, notamment la cassette de résistance à la méticilline (SCCmec). La résistance à la méticilline est d’abord apparue dans des souches hospitalières à l’origine de grands clones pandémiques nosocomiaux, puis a ensuite émergé en milieu communautaire chez des souches virulentes possédant la leucocidine de Panton-Valentine. Nous avons observé en 2002, en milieu hospitalier et communautaire, l’émergence inquiétante de S. aureus résistant à la méticilline (SARM) portant le gène tst de la toxine du choc toxique staphylococcique (TSST-1). Notre travail a consisté à : (i) l’élaboration de nouveaux outils contribuant à la description de clones de SARM, notamment d’un outil de typage de la cassette SCCmec, (ii) la caractérisation phénotypique et moléculaire de ce nouveau clone, (iii) l’étude de l’épidémiologie de ce clone, (iv) l’exploration de la pathogénie de ce clone en recherchant les propriétés génétiques qui lui confèrent une telle virulence et épidémicité, et notamment en identifiant le rôle de la TSST-1. Le clone de SARM tst+ est un clone épidémique de fond génétique ST5 en Multi Locus Sequence yping, atteignant principalement les sujets jeunes, et responsable d’infections variées à la fois toxiniques et suppuratives. Il est doté d’une cassette SCCmec atypique de type I tronquée dont le rôle dans le potentiel épidémique et de virulence de ce clone reste à déterminer. Enfin, la TSST-1 ne semble pas jouer un rôle déterminant, direct ou indirect, dans la pathogénie pléiotropique de ce clone / The plasticity of the Staphylococcus aureus genome confers to this specie the ability to gain accessory genes encoding virulence factors as well as antibiotic resistance determinants such as Staphylococcal cassette chromosome mec SCCmec that encodes methicillin-resistance. Methicillin resistance first emerged in hospital-acquired strains originally of successful nosocomial pandemic clones, and is also risen in virulent community-acquired strains containing the Panton-Valentine leucocidin. In 2002, we observed the worrying emergence of a new methicillin-resistant S. aureus (MRSA) clone that contains the tst gene encoding toxic shock syndrome toxin (TSST-1) responsible for both hospital and community-acquired infections. Our study was focused on: (i) new tools for MRSA description, mainly on a SCCmec typing tool, (ii) the characterisation of this new clone by molecular and phenotypic methods, (iii) the epidemiology of this clone, (iv) the pathogenic potential of this clone and the investigation of the genetic features that enhance transmission and virulence, particularly the role of TSST-1. The tst+ MRSA clone is an epidemic clone of genetic background ST5 by multilocus sequence typing that occurs mainly in young people and is responsible for a wide diversity of clinical syndromes including toxin-mediated and suppurative diseases. This clone harbours a peculiar cassette “truncated SCCmec type I” which could play an important role in virulence and transmission but are still under investigation. TSST-1 does not play a determining role (either directly or indirectly) in the pleiotropic pathogenesis of this clone

Staphylococcus aureus

Résistance à la méticilline

Toxine du choc toxique staphylococcique

Staphylococcus aureus

Methicillin-resistance

Toxic shock syndrome toxin-1

Staphylococcal cassette chromosome mec

579.17

Molecular epidemiology of methicillin-resistant staphylococcus aureus : epidemiological aspects of MRSA and the dissemination in the community and in hospitals

Berglund, Carolina

January 2008

Methicillin-resistenta Staphylococcus aureus (MRSA) som bär på genen mecA, har förekommit och spridit sig över hela världen, främst i sjukhusmiljö, och orsakat utbrott av vårdrelaterade (så kallade nosokomiala) infektioner. Dessa infektioner kan inte behandlas med stafylokock-penicilliner och MRSA-bakterierna är ofta resistenta även mot flera andra grupper av antibiotika vilket medför att infektionerna ofta är påtagligt svårbehandlade. Under senare år har emellertid allt fler fall beskrivits av samhällsförvärvad MRSA infektion, det vill säga uppträdande av MRSA hos personer som tidigare ej har haft kontakt med sjukhusvård eller behandlats med antibiotika. Det har länge varit oklart om de samhällsförvärvade MRSA [community-acquired (CA-MRSA)] representerar spridning av bakterier från sjukhusmiljön ut till samhället eller om dessa MRSA är spontant uppträdande. Många av dessa stammar har dessutom visat sig bära på sjukdomsrelaterade gener som vanligen inte återfinns hos S. aureus, t.ex. Panton Valentine leukocidin (PVL) som associeras med hudinfektioner och allvarlig lunginflammation med hög dödlighet hos unga och annars friska individer. Denna avhandling beskriver den molekylära epidemiologin hos MRSA med fokus på samhällsförvärvade MRSA som utgjorde mer än hälften av samtliga fall av MRSA i Örebro län och som dessutom ofta producerade PVL toxinet, vars funktion vidare analyserades i detalj. Undersökning av ursprung och släktskap hos samtliga MRSA som isolerats i Örebro län, samt karaktärisering av det genetiskt element som kallas staphylococcal cassette chromosome mec (SCCmec) vilket innehåller genen mecA och ibland även andra resistensgener, visade att CA-MRSA inte är relaterade till de nosokomiala MRSA, och att dessa har uppstått oberoende av varandra. Flertalet MRSA visade sig dessutom bära på SCCmec, och resistensmekanismer, som tidigare inte beskrivits. Troligen har dessa MRSA uppstått genom ett genetiskt utbyte av SCCmec mellan methicillin-resistenta koagulas-negativa stafylokocker (MR-KNS), som utgör huvudparten av normalfloran på huden, och methicillin-känsliga S. aureus som därvid erhåller genen mecA och resistensmekanismer mot samtliga stafylokockantibiotika. I den här avhandlingen framläggs bevis för att ett sådant genetiskt utbyte har skett på Barnkliniken på Universitetssjukhuset i Örebro i slutet på 1990-talet, vilket resulterade i uppkomsten av en ny klon av MRSA som därefter orsakade ett allvarligt utbrott. Kartläggning av DNA-sekvensen hos flertalet unika SCCmec från svenska MRSA gav dessutom en bättre förståelse för hur resistens uppkommer och sprider sig, samt mekanismerna bakom detta. Dessa nya kunskaper kan bidra till en förbättrad diagnostik av MRSA. Detta är framför allt av stor betydelse eftersom nya effektiva kloner av MRSA verkar kunna uppstå ute i samhället med potential att orsaka svårbehandlade infektioner men även att sprida sig bland den friska befolkningen. / Material and methods - During a period of 14 years, around 2000 patients with head injuries were admitted to the emergency ward at Lindesberg County Hospital and Örebro Medical Centre Hospital. Six hundred subjects suffered from skull fracture and/or brain contusion and diagnosis was established using a computed tomography scan (CT). The degree of initial brain injury was estimated using the Swedish Reaction Level Scale (RLS). Sixty-six subjects were investigated with pure tone audiometry in close proximity to the trauma, and this gave an opportunity to study the issue of progress. The investigation took place two to 14 years after trauma, and the results were compared to matched control groups. A battery of different audiological methods was used to investigate peripheral and central auditory function, and a specially designed acoustic environmental room was also utilized. Cognition was investigated using a computer-based test-battery, text information process system (TIPS). Self-assessed hearing, cognition and quality of life were explored using different questionnaires. Results - A high percentage of peripheral and central auditory impairments and also cognitive shortcomings were demonstrated. Progress of SNHL was a common finding, and fracture, high age at trauma and large initial hearing loss predicted progress. Antibody-mediated autoimmunity as a mechanism behind posttraumatic progress of SNHL or clear evidence for sympathetic cochleolabyrinthitis could not be demonstrated. Binaural auditory deficits could be demonstrated when tested in a realistic acoustic environment. Tinnitus, vertigo and memory shortcomings proved to be common sequelae, even in a long-term perspectiveCognitive shortcomings were found in several of these well-rehabilitated subjects.On a group level, there was a good correlation between self-assessments and audiometric results, even if some individuals had a tendency to over- or underestimate their abilities. Conclusion - Auditory and cognitive long-term sequelae of CHI are a common finding even in well-rehabilitated and socially well-functioning subjects, as are vertigo and tinnitus. Vertigo and tinnitus are also common sequelae after CHI, therefore a basic audiovestibular investigation after CHI is recommended, at least in selected cases.Early awareness of the risk for hearing and cognitive sequelae after CHI could lead to measurements taken to prevent tension-related symptoms.Early detection of HI offers an opportunity to try immunosuppressive treatment in cases with a large initial SNHL.

community-acquired MRSA (CA-MRSA)

multilocus sequence typing (MLST)

horizontal transfer

Panton Valentine leukocidin (PVL)

MEDICINE

MEDICIN

The development of rapid genotyping methods for methicillin-resistant Staphylococcus aureus

Stephens, Alex J.

January 2008

Methicillin-resistant Staphylococcus aureus (MRSA) is an important human pathogen that is endemic in hospitals all over the world. It has more recently emerged as a serious threat to the general public in the form of community-acquired MRSA. MRSA has been implicated in a wide variety of diseases, ranging from skin infections and food poisoning to more severe and potentially fatal conditions, including; endocarditis, septicaemia and necrotising pneumonia. Treatment of MRSA disease is complicated and can be unsuccessful due to the bacterium's remarkable ability to develop antibiotic resistance. The considerable economic and public health burden imposed by MRSA has fuelled attempts by researchers to understand the evolution of virulent and antibiotic resistant strains and thereby improve epidemiological management strategies. Central to MRSA transmission management strategies is the implementation of active surveillance programs, via which unique genetic fingerprints, or genotypes, of each strain can be identified. Despite numerous advances in MRSA genotyping methodology, there remains a need for a rapid, reproducible, cost-effective method that is capable of producing a high level of genotype discrimination, whilst being suitable for high throughput use. Consequently, the fundamental aim of this thesis was to develop a novel MRSA genotyping strategy incorporating these benefits. This thesis explored the possibility that the development of more efficient genotyping strategies could be achieved through careful identification, and then simple interrogation, of multiple, unlinked DNA loci that exhibit progressively increasing mutation rates. The baseline component of the MRSA genotyping strategy described in this thesis is the allele-specific real-time PCR interrogation of slowly evolving core single nucleotide polymorphisms (SNPs). The genotyping SNP set was identified previously from the Multi-locus sequence typing (MLST) sequence database using an in-house software package named Minimum SNPs. As discussed in Chapter Three, the genotyping utility of the SNP set was validated on 107 diverse Australian MRSA isolates, which were largely clustered into groups of related strains as defined by MLST. To increase the resolution of the SNP genotyping method, a selection of binary virulence genes and antimicrobial resistance plasmids were tested that were successful at sub typing the SNP groups. A comprehensive MRSA genotyping strategy requires characterisation of the clonal background as well as interrogation of the hypervariable Staphylococcal Cassette Chromosome mec (SCCmec) that carries the β-lactam resistance gene, mecA. SCCmec genotyping defines the MRSA lineages; however, current SCCmec genotyping methods have struggled to handle the increasing number of SCCmec elements resulting from a recent explosion of comparative genomic analyses. Chapter Four of this thesis collates the known SCCmec binary marker diversity and demonstrates the ability of Minimum SNPs to identify systematically a minimal set of binary markers capable of generating maximum genotyping resolution. A number of binary targets were identified that indeed permit high resolution genotyping of the SCCmec element. Furthermore, the SCCmec genotyping targets are amenable for combinatorial use with the MLST genotyping SNPs and therefore are suitable as the second component of the MRSA genotyping strategy. To increase genotyping resolution of the slowly evolving MLST SNPs and the SCCmec binary markers, the analysis of a hypervariable repeat region was required. Sequence analysis of the Staphylococcal protein A (spa) repeat region has been conducted frequently with great success. Chapter Five describes the characterisation of the tandem repeats in the spa gene using real-time PCR and high resolution melting (HRM) analysis. Since the melting rate and precise point of dissociation of double stranded DNA is dependent on the size and sequence of the PCR amplicon, the HRM method was used successfully to identify 20 of 22 spa sequence types, without the need for DNA sequencing. The accumulation of comparative genomic information has allowed the systematic identification of key MRSA genomic polymorphisms to genotype MRSA efficiently. If implemented in its entirety, the strategy described in this thesis would produce efficient and deep-rooted genotypes. For example, an unknown MRSA isolate would be positioned within the MLST defined population structure, categorised based on its SCCmec lineage, then subtyped based on the polymorphic spa repeat region. Overall, by combining the genotyping methods described here, an integrated and novel MRSA genotyping strategy results that is efficacious for both long and short term investigations. Furthermore, an additional benefit is that each component can be performed easily and cost-effectively on a standard real-time PCR platform.