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- Stark, Lisa
(författare)
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Staphylococcus aureus : aspects of pathogenesis and molecular epidemiology
- 2013
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Staphylococcus aureus is a human commensal colonizing about 30 per cent of the population. Besides, it is a frequent cause of infections such as skin, wound and deep tissue infections and also more life-threatening conditions such as pneumonia, endocarditis and septicaemia. S. aureus may also cause different toxicoses. Moreover, this bacterium is one of the most common causes of nosocomial infections worldwide and an increase in antibiotic resistance, especially against methicillin, is seen. This underlines the importance to prevent and control outbreaks of S. aureus. The aims of this thesis were to increase the knowledge of S. aureus virulence and pathogenesis as well as to understand pattern of colonization and transmission.Various virulence factors operate together in the pathogenic process of S. aureus. The virulence of S. aureus was studied by the interaction with human umbilical vein endothelial cells (HUVEC) as a model. In paper I, we found that one bacterial isolate survived intracellularly and that 156 genes were differentially regulated in microarray analysis of HUVEC. The major part of these genes coded for proteins involved in innate immunity. In paper II, we wanted to explore possible differences in global gene expression patterns in HUVEC induced by invasive compared to colonizing isolates of S. aureus. We also used microarray to investigate possible differences in the presence of virulence genes between the two groups. The main finding was that virulent and commensal S. aureus did not differ in interaction with HUVEC and in the presence of virulence genes. All isolates survived intracellularly for days.Since no obvious differences in virulence between the two groups of isolates were found, we focused on epidemiology and transmission patterns. Colonization with S. aureus is an important risk factor for subsequent S. aureus infection. In paper III, we investigated S. aureus colonization and transmission among nursing home residents in three regions in the south of Sweden and used staphylococcal protein A (spa) typing as an epidemiological tool. A diverse distribution of different spa types was found and a majority of types were unique to one individual. Interestingly, we found a local accumulation of one spa type in one nursing home. Also common spa types were equally distributed in the different regions. We also noted that some individuals were colonized with two different spa types of S. aureus and in five of these cases there was one resistant and one non-resistant strain.The issue of multiclonal colonization and infection is highly important and clinical diagnostic laboratories do not routinely address this problem. Therefore, in paper IV a novel method to assess multiclonality of S. aureus was developed. It was based on denaturing gradient gel electrophoresis with the amplification of the spa gene. The method simultaneously separated eight different spa types. It also detected two spa types in an outbreak.In conclusion, we found no differences in virulence genes and in the interaction with HUVEC between commensal and invasive isolates. This indicates that any isolate of S. aureus might have a pathogenic potential. We also confirmed that some spa types are more successful colonizers with a potential to nosocomial spread. The method for detection of multiclonality of S. aureus is of importance in future epidemiological and clinical studies.
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| 2. |
- Berglund, Carolina, 1980-
(författare)
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Molecular epidemiology of methicillin-resistant staphylococcus aureus : epidemiological aspects of MRSA and the dissemination in the community and in hospitals
- 2008
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- 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.
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| 3. |
- Börjesson, Stefan, 1979-
(författare)
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Antibiotic Resistance in Wastewater : Methicillin-resistant Staphylococcus aureus (MRSA)and antibiotic resistance genes
- 2009
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- A large part of the antibiotics consumed ends up in wastewater, and in the wastewater the antibiotics may exert selective pressure for or maintain resistance among microorganisms. Antibiotic resistant bacteria and genes encoding antibiotic resistance are commonly detected in wastewater, often at higher rates and concentrations compared to surface water. Wastewater can also provide favourable conditions for the growth of a diverse bacterial community, which constitutes a basis for the selection and spread of antibiotic resistance. Therefore, wastewater treatment plants have been suggested to play a role in the dissemination and development of antibiotic resistant bacteria. Methicillin-resistant Staphylococcus aureus (MRSA) is a large problem worldwide as a nosocomial pathogen, but knowledge is limited about occurrence in non-clinical environments, such as wastewater, and what role wastewater plays in dissemination and development of MRSA. In this thesis we investigated the occurrence of MRSA in a full-scale wastewater treatment plant (WWTP). We also investigated the concentration of genes encoding resistance to aminoglycosides (aac(6’)-Ie+aph(2’’)), β-lactam antibiotics (mecA) and tetracyclines (tetA and tetB) in three wastewater-associated environments: (1) soil from an overland flow area treating landfill leachates, (2) biofilm from a municipal wastewater treatment plant, and (3) sludge from a hospital wastewater pipeline. In addition, concentrations of mecA, tetA and tetB were investigated over the treatment process in the WWTP. These investigations were performed to determine how the prevalence and concentration of MRSA and the antibiotic resistence genes are affected in wastewater and wastewater treatment processes over time. The occurrence of MRSA was investigated by cultivation and a commercially available real-time PCR assay. In order to determine concentrations of the genes aac(6’)-Ie+aph(2’’), mecA, tetA and tetB in wastewater we developed a LUXTM real-time PCR assay for each gene. Using cultivation and real-time PCR we could for the first time describe the occurrence of MRSA in wastewater and show that it had a stable occurrence over time in a WWTP. MRSA could mainly be detected in the early treatment steps in the WWTP, and the wastewater treatment process reduced the number and diversity of cultivated MRSA. However, our results also indicate that the treatment process selects for strains with more extensive resistance and possibly higher virulence. The isolated wastewater MRSA strains were shown to have a close genetic relationship to clinical isolates, and no specific wastewater lineages could be detected, indicating that they are a reflection of carriage in the community. Taken together, these data indicate that wastewater may be a potential reservoir for MRSA and that MRSA are more prevalent in wastewater than was previously thought. The real-time PCR assays, for aac(6’)-Ie+aph(2’’), mecA, tetA, and tetB that we developed, were shown to be sensitive, fast, and reproducible methods for detection and quantification of these genes in wastewater environments. The highest concentrations of all genes were observed in the hospital pipeline, and the lowest in the overland flow system, with tetA and aac(6´)-Ie+aph(2´´) detected in all three environments. In the full-scale WWTP, we continuously detected mecA, tetA and tetB over the treatment process and over time. In addition, it was shown that the treatment process reduces concentrations of all three genes. The data presented in this thesis also indicate that the reduction for all three genes may be connected to the removal of biomass, and in the reduction of tetA and tetB, sedimentation and precipitation appear to play an important role.
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