Comparison of methods for DNA extraction from Candida albicans

Dadgar, Ashraf

January 2006

<p>Invasive Candida infection is an increasing cause of morbidity and mortality in the immunocompromised patient. Molecular diagnosis based on genomic amplification methods, such as real time PCR, has been reported as an alternative to conventional culture for early detection of invasive candidiasis. The template DNA extraction step has been the major limitation in most reported nucleic acid based assays, due to problems in breaking fungal cell walls and incomplete purification in PCR inhibitor substances.</p><p>The aim of this study was to compare enzymatic cell wall disruption using recombinant lyticase with mechanical disruption using glass beads. The QIAamp tissue kit was compared with two automated DNA extraction robots, the BioRobot M48 and NucliSens easyMAG, to determine their sensitivity, reliability and duration for DNA release of C. albicans. Mechanical cell wall disruption shortened and facilitated the extraction procedure, but the quantity of released DNA was significantly lower than when enzymatic cell wall disruption was used. Use of robots did not significantly shorten the DNA extraction time, compared with manual DNA extraction. However the NucliSens easyMAG resulted in a higher yield of target DNA compared to the BioRobot M48 and the manual QIAamp tissue kit.</p> / <p>Invasiva svampinfektioner är ett stort problem hos patienter med dåligt immunförsvar. Förekomst av invasiva svampinfektioner har ökat under senare år och medför hög dödlighet. En svampinfektion som inte snabbt diagnostiseras och behandlas kan bli livshotande om patientens kondition är dålig. Candida albicans är den vanligaste orsaken till invasiva svampinfektioner. Med traditionell svampidentifiering kan det ta dagar till veckor att isolera och artbestämma svampen. En snabbare metod att detektera Candida är att använda sig av molekylärbiologiska metoder som påvisar svampens arvsmassa, DNA. Svampar har en cellvägg som är svår att bryta ner och därför är DNA extraktionssteget ett av de mest rapporterade problemen vid DNA svampdiagnostik.</p><p>Syftet med denna studie var att jämföra enzymatisk och mekanisk cellväggsnedbrytning av C. albicans med hjälp av enzymet lyticase respektive glaskulor. Vi jämförde också en manuell metod med två automatiska robotar för att bestämma deras känslighet, tillförlitlighet och tidsåtgång för DNA-extraktion från C. albicans. De slutsatser som nåtts är att den enzymatiska cellväggsnedbrytningen var känsligare men betydligt mer tidskrävande än den mekaniska cellväggsnedbrytningen. Denna studie visade även att en av de automatiska systemen extraherade signifikant mer DNA än den manuella metoden.</p>

Candida albicans

candidemia

DNA extraction

cell wall disruption

real time PCR

Medical microbiology

Medicinsk mikrobiologi

Relation Between Drug Exposure and Selection of Antibiotic Resistant Bacteria

Olofsson, Sara K.

January 2006

<p>The worldwide increase in antibiotic resistance is a concern for public health. When the appropriate antibiotic dosage is determined, the priorities are efficacy and toxicity. The aim of this thesis was to gain knowledge about the most efficient dosing regimens in order to minimize the emergence and selection of antibiotic-resistant mutants. We also wanted to assess the impact of antibiotic selective pressure and host to host transmission for the dissemination of resistance.</p><p><i>Escherichia coli </i>bacteria with different levels of cefotaxime susceptibility were competed in an in vitro kinetic model, demonstrating a complex selection of low-level resistance influenced e.g. by the time duration of selective concentrations and the rise of new mutants. We also constructed a mathematical model incorporating biologically relevant parameters and showed its usefulness when assessing the risks of resistance development.</p><p>When <i>E. coli </i>populations with pre-existing fluoroquinolone-resistant mutants were exposed to simulated serum concentrations, several currently used doses of fluoroquinolones clearly enhanced the development and selection of resistance. </p><p>The mutant prevention concentration (MPC) was measured for several <i>E. coli</i> isolates with different fluoroquinolone susceptibilities, and because of fluctuating antibiotic concentrations in the human body, the pharmacokinetics was considered when evaluating MPC. Results indicate that the area under the serum concentration time curve in relation to the MPC may be a useful predictor for emergence of resistance.</p><p>In the commensal flora of healthy human couples we noted a high frequency of trimethoprim-resistant <i>E. coli.</i> There was also an extensive sharing and transmission of <i>E. coli</i> clones. Treating the female with trimethoprim reduced the number of intestinal <i>E. coli</i> which might have facilitated the transmission from the male partner. These findings suggest that the rate of transmission is high and effectively contributes to the spread of both susceptible and antibiotic-resistant <i>E. coli</i> in intrafamilial settings.</p>

Microbiology

Pharmacokinetics

Pharmacodynamics

Antibiotic resistance

Selection

Transmission

Mathematical model

Escherichia coli

Mikrobiologi

Cloning and expression of superoxide dismutase from Sarcoptes scabiei in Escherichia coli

Sanchez Lecaros, Luis

January 2006

<p>Sarcoptes scabiei is a disease-causing parasitic mite of humans and animals that is prevalent worldwide. The parasite lives in burrows in the epidermis of its host. These burrows are formed by a combination of mechanical destruction by the mite and secretion of various factors.</p><p>The enzyme superoxide dismutase (SOD) catalyzes the dismutation of superoxide into oxygen and hydrogen peroxide. As such, it is an important antioxidant defense in nearly all cells exposed to oxygen. In this project, the enzyme was expressed in transformed Escherichia coli cells. The SOD cDNA from S. scabiei was ligated into two different expression vectors: pPU16 and pET-14b. The S. scabiei SOD open reading frame reported here is 696 nucleotides long and yields a protein with a molecular weight of  69.5 kDa. Only one of the constructs was successfully created, using pPU16. The construct was designated pPU110 and has a sequence coding for a hexahistidine tag downstream of the SOD cDNA and has a sequence coding for the maltose binding protein (MBP) upstream.</p><p>The expression plasmid pPU110 was verified by DNA-sequencing and the tested in different expression experiments. Analysis using SDS-PAGE showed that recombinant fusion SOD could be readily expressed in E.coli.</p>

recombinant protein

SOD

maltose binding protein

his-tag

defence

Microbiology

Mikrobiologi

Mechanisms and DNA Specificity in Site-specific Recombination of Integron Cassettes

Johansson, Carolina

January 2007

<p>Bacterial resistance to antibiotics has become a serious problem. This is due to the remarkable ability of bacteria to respond and rapidly adapt to environmental changes. Integrons are elements with the capacity for gene capture by an integron-encoded site-specific recombinase called IntI. IntI binds and acts at the recombination sites, <i>attI </i>and<i> attC</i> resulting in excision and integration of short DNA elements called gene cassettes carrying an <i>attC</i> site in the 3’ end. Several families of antibiotic resistance genes are borne on gene cassettes in integrons connected to mobile elements. Other cassettes reside in the larger and ancestral superintegrons located on chromosomes in both pathogenic and environmental bacteria. Due to their close connection with lateral gene transfer systems, it is possible that integrons are functionally dependent on those networks. This work presents arguments for such connections. The<i> attC</i> of the <i>aadA1-qacE</i> cassette junction in Tn<i>21</i> was characterized in detail. Like other <i>attC</i> sites, it contains two pairs of inverted repeats and is almost palindromic. By using electrophoretic mobility shift assays, this study showed that IntI1 binds only to the bottom strand of <i>attC</i>. Upon folding the strand into a hairpin, a few chiral hairpin distortions define both the strand choice and also the appropriate orientation of the highly symmetrical site. Structural recognition also explains the wide sequence variation among <i>attC</i> sites. We have documented the initial cleavage step in recombination in IntI extracts and integrase levels in extracts were evaluated by a new method. Mutagenesis and homology modelling were performed to find amino acid residues in IntI1 that are important for recognition of <i>attC</i> hairpin-DNA. Comparisons were made with other tyrosine family members to explain how integron integrases differ in site-recognition and also in their mechanism of strand exchange.</p>

Microbiology

lateral gene transfer

site-specific recombination

tyrosine recombinase

integron

single-stranded

DNA hairpin

Mikrobiologi

Functional characterization of the small antisense RNA MicA in Escherichia coli

Udekwu, Klas Ifeanyi

January 2007

<p>The Escherichia coli small RNA (sRNA) MicA was identified recently in a genomewide search for sRNAs. It is encoded between the genes <i>gshA</i> and <i>luxS</i> in E. coli and its close relatives. The function of sRNAs in bacteria is generally believed to be in maintenance of homeostasis via stress-induced modulation of gene expression. Our studies on MicA have been aimed at attributing function(s) to this molecule.</p><p>We carried out high throughput assays aimed at identifying genes that are differentially regulated upon knocking out or overexpressing MicA. Among the protein candidates identified was the outer membrane protein, OmpA. Subsequent analysis allowed us to show this regulation to be antisense in nature with MicA binding within the translation initiation region of <i>ompA</i> mRNA. Furthermore, blocking the ribosome from loading caused a translational decoupling that instigates degradation of the mRNA. The regulation was apparent in early stationary phase and seen to be dependent on the RNA chaperone Hfq. </p><p>We went on to characterize the regulation of MicA, looking at its own transcription. Testing various stress conditions, we were able to identify putative promoter elements that we confirmed using transcriptional fusions. The results showed MicA to be dependent on the extracytoplasmic function ECF sigma E (σ^E) and could not detect MicA in mutants deleted for this factor.</p><p>Lastly, we identified an additional target for MicA being the adjacently encoded <i>luxS</i> mRNA. The LuxS protein is essential for the synthesis of the quorum sensing AI-2 molecule. Transcription of the <i>luxS </i>mRNA is commences within the <i>gshA</i> gene, on the other side of MicA coding region. We were able to show that MicA interacts with <i>luxS </i>mRNA and is recognized by RNase III which processes this complex leading to a shorter <i>luxS</i> mRNA isoform. The significance of this processing event is as yet undetermined. Our data elucidated a new promoter driving transcription of <i>luxS,</i> and we demonstrated this promoter to be stationary phase responsive.</p><p>In summary, the work presented here characterizes the sRNA MicA as a dual regulatory sRNA molecule, moonlighting between its cis-encoded target and its trans-encoded target. .</p>

small RNA

antisense

outer membrane

Hfq-dependence

RNase III

LuxS

Quorum sensing

Microbiology

Mikrobiologi

Versatile and Antique World of RNA : The Simplicity of RNA Mediated Catalysis

Kikovska, Ema

January 2007

<p>RNA is the only biological molecule that can function both as a repository of information and as a catalyst. This, together with the ability to self-replicate, led to recognition of RNA as ‘prelude to life’.</p><p>My work highlights some of the important features of RNA as a catalyst, exemplified by RNase P. It addresses questions of evolutionary preservations of residues and structure, involvement of metal ions and finally structure evolution towards minimal catalytically competent RNA motifs.</p><p>RNase P is the only enzyme involved in 5’ end processing of all pre-tRNAs. Until recently, it was believed that the RNA moiety of RNase P is responsible for mediating catalysis only in Bacteria. However, my recent study conclusively demonstrated that eukaryotic RNase P RNA is catalytically competent in vitro in absence of proteins. These findings evidenced evolutionary preservation of RNA-mediated catalysis in RNase P.</p><p>RNase P RNA is a metalloeznyme. In my studies I analyzed the contributions of individual chemical groups at the cleavage site to catalysis. My findings suggested that the 2’OH of N_-1 and the exocyclic amine of G₊₁ are involved in positioning of functionally important metal ions. Additionally, data appointed the function of Pb²⁺ as both structural metal ion and important in generating the nucleophile. My studies further indicate a conformational change upon RNase P RNA -substrate complex formation in keeping with an induced fit mechanism. </p><p>Studying the effects of reducing the ribozyme size upon dissection of bacterial RNase P RNAs, we defined the smallest catalytically competent domain i.e. P15-loop. Derivatives of this autonomous metal ion binding domain, (the smallest being 31nt-s), are able to cleave both whole-length pre-tRNAs as well as hairpin substrates, though with severely reduced rates relative to their parent ribozymes. The study has inferred that partite ES interactions at the cleavage site prove sufficient for catalysis.</p>

Microbiology

RNA Catalysis

RNase P

Metal ions

tRNA Processing

Ribozyme

Mikrobiologi

Detection of Enterococci with three different methods

Lepp, Cecilia

January 2007

<p>Water is the most consumed foodstuff around the world. Therefore it is very important to analyze possible faecal contamination of water, and Enterococci are an indicator for that. They are also used as an indicator for possible faecal contamination in food. Normally you find Enterococci in the intestines of humans and animals, but Enterococci can also give infections like urinary tract infection.</p><p>In this study, varying number of colonies and colours of Enterococci on different media were evaluated. The purpose was to investigate if three different methods would give the same numbers of colonies. Another interesting perspective was to investigate if one medium could be used for two methods. Membrane filter techniques and surface spreading techniques were used to detect Enterococci. These methods were compared with a most probable number method.</p><p>None of the strains showed an optimal result on all media, however one medium, ChromoCult, showed good results for all investigated strains.</p>

Enterococcus

water analysis

membrane filtration

food analysis

surface spreading

Microbiology

Mikrobiologi

Mutations and Mutation Rate in the Development of Fluoroquinolone Resistance

Komp Lindgren, Patricia

January 2007

<p>The emergence of multidrug resistant bacteria world wide is a serious problem, and very few new drugs are under development. The selection of resistant bacteria is affected by factors such as mutation rate, biological fitness cost and the rate of fitness compensation. This thesis is focused on how mutation rate affects resistance to fluoroquinolones and on exploring a dosing strategy that might slow resistance development. </p><p>In a set of urinary tract <i>Escherichia coli</i> isolates MIC values above the breakpoint for the fluoroquinolones norfloxacin and ciprofloxacin carried at least three resistance-associated mutations. In these isolates the number of resistance mutations correlated with the mutation rate. During step-wise selection for decreased susceptibility to fluoroquinolones, the accumulation of mutations in <i>E. coli</i> was associated with an increasing biological cost both <i>in vitro</i> and <i>in vivo</i>. However, in some lineages an additional selection step for resistance was associated with a partial restoration of fitness. During step-wise selections we found, as expected, that reduced ciprofloxacin susceptibility frequently hitchhiked with a strong mutator phenotype. More surprisingly, we also found that reduced susceptibility was frequently associated with the emergence of rifampicin-resistant populations. We hypothesise that this correlation reflects selection for fitness-compensating mutations in RNA polymerase.</p><p>Mutant prevention concentration (MPC) dosing has been proposed as a strategy to reduce the selection of resistant bacterial populations. Based on limited data it had been thought that MPC might be a simple multiple of MIC, which can easily be determined. However, we showed for a collection of susceptible urinary tract <i>E. coli </i>that MPC could not be predicted from MIC and must be measured directly for relevant populations. Using an <i>in vitro</i> kinetic model we also showed that the pharmacodynamic index that best predicted prevention of resistance development in wild type <i>E. coli</i> was an AUC/MPC of > 22 for ciprofloxacin.</p>

Microbiology

Mutation rate

Fluoroquinolone

Resistance

Biological fitness

Urinary tract infection

Escherichia coli

MPC

Mikrobiologi

Towards a Refined Model of Neutrophil Motility

Loitto, Vesa-Matti

January 2001

The ability of human polymorphonuclear leukocytes (PMNL; neutrophils), to sense and move to sites of infection is essential for our defense against pathogens. Cell motility is critically dependent on a dynamic remodeling of morphology. The morphological polarization toward chemoattractants, such as N-formyl-Met-Leu-Phe (fMLF), is associated with temporary extension and stabilization of lamellipodia in the direction of movement. The underlying mechanisms of cell motility are, however, still not entirely elucidated. It is therefore an urgent task to extend the present experimental evidence to give solid basis for a comprehensive model. Here it is shown that nitric oxide (NO) stimulates the morphological response of neutrophils, most likely due to transient increases in [Ca2+]i, following addition of NO-donors. This will, hypothetically, activate gelsolin and other actin filament severing proteins, leading to a subsequent decrease in filamentous actin. The incapability to efficiently turnover the actin filament network then blocks all motile activity. It is also shown that N-formyl peptide receptors on polarized neutrophils accumulate non-uniformly towards regions involved in motility. It is suggested that neutrophils use the asymmetric receptor distribution for directional sensing and sustained migration. A model for lamellipodium extension, where water fluxes play a pivotal role is presented. It is suggested that water fluxes through water-selective aquaporin (AQP) channels, contribute to the propulsive force for formation of various membrane protrusions and, thus, cell motility. It is well known that small G proteins of the Rho family GTPases play important roles in the intracellular signaling underlying cell motility. In morphologically polarized neutrophils it is shown that Cdc42, Rac2 and RhoA display spatially distinct distributions, which allows for sequential chemoattractant stimulation of neutrophil motility. The specific localizations of Rac2, Cdc42 and RhoA relative to each other and filamentous actin and fMLF receptors support the hypothesized order of activation and regulation of neutrophil cell motility. In conclusion, the detailed analysis of motility-related issues presented here provide new data allowing further refinement of previous models of neutrophil motility.

human polymorphonuclear leukocytes. PMNL

neutrophils

neutrophil motility

N-formyl-Met-Leu-Phe

Medical microbiology

Medicinsk mikrobiologi

Rational and combinatorial protein engineering for vaccine delivery and drug targeting

Wikman, Maria

January 2005

This thesis describes recombinant proteins that have been generated by rational and combinatorial protein engineering strategies for use in subunit vaccine delivery and tumor targeting. In a first series of studies, recombinant methods for incorporating immunogens into an adjuvant formulation, e.g. immunostimulating complexes (iscoms), were evaluated. Protein immunogens, which are not typically immunogenic in themselves, are normally administered with an adjuvant to improve their immunogenicity. To accomplish iscom incorporation of a Toxoplasma gondii surface antigen through hydrophobic interaction, lipids were added either in vivo via E. coli expression, or in vitro via interaction of an introduced hexahistidyl (His6) peptide and a chelating lipid. The possibility of exploiting the strong interaction between biotin and streptavidin was also explored, in order to couple a Neospora caninum surface antigen to iscom matrix, i.e. iscom particles without any antigen. Subsequent analyses confirmed that the immunogens were successfully incorporated into iscoms by the investigated strategies. In addition, immunization of mice with the recombinant Neospora antigen NcSRS2, associated with iscoms through the biotin-streptavidin interaction, induced specific antibodies to native NcSRS2 and reduced clinical symptoms following challenge infection. The systems described in this thesis might offer convenient and efficient methods for incorporating recombinant immunogens into adjuvant formulations that might be considered for the generation of future recombinant subunit vaccines. In a second series of studies, Affibody® (affibody) ligands directed to the extracellular domain of human epidermal growth factor receptor 2 (HER2/neu), which is known to be overexpressed in ∼ 20-30% of breast cancers, were isolated by phage display in vitro selection from a combinatorial protein library based on the 58 amino acid residue staphylococcal protein A-derived Z domain. Biosensor analyses demonstrated that one of the variants from the phage selection, denoted His6-ZHER2/neu:4, selectively bound with nanomolar affinity (KD ≈ 50 nM) to the extracellular domain of HER2/neu (HER2-ECD) at a different site than the monoclonal antibody trastuzumab. In order to exploit avidity effects, a bivalent affibody ligand was constructed by head-to-tail dimerization, resulting in a 15.6 kDa affibody ligand, termed His6-(ZHER2/neu:4)2, that was shown to have an improved apparent affinity to HER2-ECD (KD ≈ 3 nM) compared to the monovalent affibody. Moreover, radiolabeled monovalent and bivalent affibody ligands showed specific binding in vitro to native HER2/neu molecules expressed in human cancer cells. Biodistribution studies in mice carrying SKOV-3 xenografted tumors revealed that significant amounts of radioactivity were specifically targeted to the tumors in vivo, and the tumors could easily be visualized with a gamma camera. These results suggest that affibody ligands would be interesting candidates for specific tumor targeting in clinical applications, such as in vivo imaging and radiotherapy.

Biomedicine

affibody

affinity chromatography

biotin

combinatorial

delivery

phage display

Biomedicin

Microbiology

Mikrobiologi