Global ETD Search

161	Design and synthesis of xyloglucan oligosaccharides : structure-function studies and application of xyloglucan endotransglycosylase PttXET16A Baumann, Martin J. January 2004 (has links) Primary cell walls are a composite of cellulose microfibrilsand hemicelluloses. Xyloglucan is the principal hemicelluloseof primary cell walls of dicotyledons. Xyloglucanendotransglycosylases (XETs) cleave and religate xyloglucanpolymers in plant cell walls. A XET (PttXET16A) from hybridaspen has been heterologously expressed and characterized inour lab. To study XETs enzymology on a molecular level a series ofnovel xyloglucan oligosaccharides (XGOs) have been synthesized.The chromogenic 2-nitrophenol XGO and fluorogenic XGOs havebeen used as kinetic probes for PttXET16A. The first 3-Dstructure of the XET and of the enzyme-substrate complexrevealed new insights into the requirements fortransglycosylation. Cellulose fibers are an important raw material for manyindustries. In a novel chemo-enzymatic approach, thetransglycosylating activity of XET was used for biomimeticfiber surface modification. The aminoalditol XGO derivate wasused as key intermediate to incorporate novel chemicalfunctionality into xyloglucan. TheXGO derivatives wereintegrated into xyloglucan with PttXET16A. The resultingmodified xyloglucan was used as a versatile tool fiber surfacemodification. xyloglucan oligosaccharides xyloglucan endotransglycosylase XET crystal structure fiber surface modification Populus tremula x Populus tremuloides Hybrid aspen Biochemistry and Molecular Biology Biokemi och molekylärbiologi
162	Poly (butylene succinate) and poly (butylene adipate) : quantitative determination of degradation products and application as PVC plasticizers Lindström, Annika January 2005 (has links) A solid phase extraction (SPE) method was developed for simultaneous extraction of dicarboxylic acids and diols formed during hydrolysis of poly(butylene succinate), PBS, and poly(butylene adipate), PBA. The developed SPE method and subsequent GC-MS analysis were used to extract, identify and quantify low molecular weight products migrating from linear and branched poly(butylene adipate) (PBA) and poly(butylene succinate) (PBS) during aging in aqueous media. The combination of SPE and GC-MS proved to be a sensitive tool, able to detect small differences in the degradation rate during early stages of hydrolysis before any significant differences were observed by weight loss and molecular weight measurements. The detected low molecular weight products included monomers i.e. adipic acid and 1,4-butanediol for the PBA polymers and succinic acid and 1,4-butanediol for PBS. Several dimers and trimers i.e. hydroxybutyl adipate, hydroxybutyl succinate, di(hydroxybutyl) adipate, di(hydroxybutyl) succinate and hydroxybutyl disuccinate were also detected. Best extraction efficiency for 1,4-butanediol and succinic acid was achieved with a hydroxylated polystyrene-divinylbenzene resin as solid phase. Linear range for the extracted analytes was 1-500 ng/ml for adipic acid and 2-500 ng/ml for 1,4-butanediol and succinic acid. Detection and quantification limits for all analytes were between 1-2 ng/ml (S/N=3) and 2-7 ng/ml (S/N=10) respectively. Relative standard deviations were between 3 % and 7 %. Comparison of measured weight loss and the amount of monomeric products showed that weight loss during early stages of hydrolysis was mainly caused by the release of water-soluble oligomers that on prolonged ageing were further hydrolyzed to monomeric species. Significant differences in degradation rate could be assigned to degree of branching, molecular weight, aging temperature and degradation medium. Linear and branched PBA was mixed with PVC in solution cast films to study the effects of molecular weight and branching on plasticizer efficiency. Used as polymeric plasticizer, PBA formed a semi-miscible two-phase system with PVC where the amorphous part exhibited one single glass transition temperature and the degree of polyester crystallinity was dependent on molecular weight, degree of branching and blend composition. Plasticizing efficiency was favored by higher degree of branching and a 40 weight-percent polyester composition. / QC 20101209 Biochemistry solid phase extraction degradation products poly(butylene succinate) poly(butylene adipate) GC-MS PVC plasticizer Biokemi Biochemistry and Molecular Biology Biokemi och molekylärbiologi
163	Lipase chemoselectivity - kinetics and applications Hedfors, Cecilia January 2009 (has links) A chemoselective catalyst is preferred in a chemical reaction where protecting groups otherwise are needed. The two lipases Candida antarctica lipase B and Rhizomucor miehei lipase showed large chemoselectivity ratios, defined as (kcat/KM)OH / (kcat/KM)SH, in a transacylation reaction with ethyl octanoate as acyl donor and hexanol or hexanethiol as acyl acceptor (paper I). The chemoselectivity ratio of the uncatalyzed reaction was 120 in favour of the alcohol. Compared to the uncatalyzed reaction, the chemoselectivity was 730 times higher for Candida antarctica lipase B and ten times higher for Rhizomucor miehei lipase. The KM towards the thiol was more than two orders of magnitude higher than the KM towards the corresponding alcohol. This was the dominating contribution to the high chemoselectivity displayed by the two lipases. In a novel approach, Candida antarctica lipase B was used as catalyst for enzymatic synthesis of thiol-functionalized polyesters in a one-pot reaction without using protecting groups (paper II). Poly(e-caprolactone) with a free thiol at one of the ends was synthesized in an enzymatic ring-opening polymerization initiated with mercaptoethanol or terminated with either 3-mercaptopropionic acid or g-thiobutyrolactone. Candida antarctica lipase B Rhizomucor miehei lipase active site titration kinetics chemoselectivity thiol alcohol thiol-functionalized polyesters Biochemistry and Molecular Biology Biokemi och molekylärbiologi
164	Development of a high-throughput platform for generation and early screening of high producing stable cell lines Karlsson Persson, Jonathan January 2021 (has links) Produktionen av rekombinanta biofarmaceutiska läkemedel, exempelvis monoklonala antikroppar, är en oumbärlig men ansträngande process. Under 2019 var sju av de tio mest sålda läkemedlen globalt baserade på rekombinant producerade monoklonala antikroppar. En betydande flaskhals i utvecklingen av stabila cellinjer är screening och selektion av högproducerande singelcellkloner. Tekniker som utspädningskloning (limiting dilution) och fluorescensaktiverad cellsortering (FACS) når idag medelmåttiga resultat som bäst, men saknar förmåga att både isolera produktiva singelcellkloner och hålla cellviabilitet på en acceptabel nivå. Samtidigt kan CellCelectorn™, ett helt automatiserat instrument utformat för att detektera, selektera och isolera singelcellkloner, screena celler för att kartlägga deras produktivitet. CellCelectorn™ är utrustad både med brightfield- och fluorescerande kameror och kan ranka samtliga cellkloner i en provplatta efter produktivitet för att sedan överföra de mest lovande klonerna till en destinationsplatta för vidare analyser och singelklonexpansion. Med avstamp i detta instrument var syftet med projektet att utveckla ett automatiserat arbetsflöde för screening och selektion av högproducerande singelcellkloner med hög genomströmning vid generering av stabila cellinjer. Inledande tester med redan utvecklade och produktiva cellinjer genomfördes för att undersöka CellCelectorns™ prestanda och för att upprätta och optimera sekundära parametrar relevanta för instrumentets kapacitet. Då dessa inledande tester var framgångsrika utfördes en polyklonal selektion i syfte att utveckla tre stabila cellinjer producerandes olika antikroppar. Dessa cellinjer skulle sedan användas för att undersöka CellCelectorns™ förmåga att isolera och överföra de mest lovande singelklonerna till en destinationsplatta. Dessa test kunde tyvärr inte genomföras, då kontaminering i de polyklonala poolerna hade uppstått, men de övergripande resultaten av detta projekt indikerar att CellCelectorn™ är kapabel till att screena för och ranka singelkloner efter deras produktivitet samt att selektera högproducerande klonkandidater under en enda arbetsvecka. Framtida tester är dock nödvändiga för att säkerställa CellCelectorns™ förmåga att isolera singelcellkloner med hög genomsnittlig cellviabilitet för att kunna genomföra singelklonexpansion. / The production of recombinant biopharmaceuticals, such as monoclonal antibodies (mAbs), from stable mammalian cell lines is an indispensable yet strenuous process. In 2019, seven of the top ten most sold drugs globally were based on monoclonal antibodies produced recombinantly. A prominent bottleneck in stable cell line development is the screening and selection of high target protein producing single clone candidates. Today, techniques such as limiting dilution and Fluorescence Activated Cell Sorting (FACS) receive moderate success at best at isolating single clones while keeping cell viability high. Simultaneously, the CellCelector™ is a fully automated instrument designed for the detection, selection, and isolation of single cell clones. Containing both a brightfield and fluorescence-detecting camera, the CellCelector™ can screen cells to measure their productivity and rank them accordingly, meaning high target protein producing clones can be selected and transferred to a destination plate for single clone expansion. Thus, this project aimed at developing an automated high-throughput workflow using the CellCelector™ to streamline the screening and selection steps of stable mammalian cell line generation. Several tests with stable proof-of-concept cells were performed to evaluate the performance of the CellCelector™ and to establish favorable secondary parameter settings. As initial proof-of-concept tests showed promise, a polyclonal selection to obtain three stable Human Embryonic Kidney (HEK) cultures expressing different antibodies was carried out in order to test the CellCelector™ proficiency in clone selection and picking. Unfortunately, no clone picking or single clone expansion could be executed due to bacterial contamination in the cell cultures. Nevertheless, the overall results of this project indicate high potential of the CellCelector™ to detect and identify promising stable clone candidates for single clone expansion over the course of a single work week. Future tests are however required to solidify CellCelector™ ability to isolate monoclonal clones while preserving cell viability for single clone expansion. CHO-K1 HEK293 CellCelector™ High-throughput screening Protein A beads Secondary antibody CHO-K1 HEK293 CellCelector™ Högkapacitets-screening Protein A-kulor Sekundär antikropp Biochemistry and Molecular Biology Biokemi och molekylärbiologi
165	Jämförelse av kemiinstrument och validering av referensintervall hos hund och katt / Comparison of chemical instruments and validation of reference intervals in dogs and cats Borg, Johanna January 2021 (has links) Klinisk kemiska analyser har hög klinisk relevans. I serum/plasma kan olika parametrar kvantifieras. Dessa parametrar kan vara proteiner, enzymer, joner, metaller, lipider och kolhydrater. Med hjälp av referensintervall kan veterinärer ställa diagnos, följa behandling och sjukdomsförlopp. Parametrar detekteras med olika analysprinciper/metoder; kolorimetri, immunturbidimetri, enzymatisk metod och potentiometri. Djursjukhuset, AniCura, i Hässleholm mottagas både hundar och katter. Cirka 120 kemianalyser analyseras varje dag. AniCura har köpt in ett nytt våtkemiiinstrument, Indiko Plus, som ska ersätta Cobas C111. Med Indiko Plus tillkommer fler provpositioner, 8 nya analyser, ökad kapaciteten och underlättad användning. Syftet med denna studie var att jämföra instrumenten och ta fram eget referensintervall som jämfördes med referensintervall framtaget av Thermo Fisher. Verifiering av det nya instrumentet genomfördes med precisionsstudie och linjäritetsstudie. Provtagning på hundar och katter utfördes av personal på AniCura. Jämförelsen gjordes med patientprover och referensintervall togs fram med hjälp av prover från friska hundar och katter. Jämförelsen visade att 9 av 13 analyser hade statistisk signifikant skillnad. Orsaken till det beror troligen på skillnaden av reagens, instrumentens ålder och tid mellan mätningar. Ett nytt referensintervall utarbetades och skiljde sig inte mycket från Thermo Fishers intervall. Vidare validering på grund av liten population rekommenderades. Precisionen för Indiko Plus blev godkänd. Linjäriteten blev icke linjär och berodde troligen på en dålig pipett och bör göras om. / Clinical chemical analyzes has high clinical relevance. In serum/plasma, different parameters can be quantified. Parameters can be proteins, enzymes, ions, metals, lipids, and carbohydrates. With reference intervals, veterinarians can set diagnosis, follow treatment and development of the disease. Parameters are detected with different analysis principles/methods; colorimetry, immunoturbidimetry, enzymatic method and potentiometry. The animal hospital, AniCura, in Hässleholm accept dogs and cats. About 120 chemical analyzes are analyzed every day. AniCura purchased a new instrument, Indiko Plus, which will replace Cobas C111. Indiko Plus provide, more sample positions, 8 new analyzes, increased capacity, and facilitated use. The purpose of this study was to compare the instruments and produce a new reference interval which was compared to the reference interval provided by Thermo Fisher. To verify Indiko Plus, a precision and linearity study were conducted. Blood sampling of dogs and cats was performed by staff at AniCura. The comparison was made with patient samples and the reference intervals were obtained using samples from healthy animals. The comparison showed 9 of 13 analyzes had a statistically significant difference. The reason for this is probably due to the difference in reagents, the age of the instruments and the time between measurements. A new reference interval was developed and did not differ much from the Thermo Fisher interval. Further validation due to low population was recommended. The precision for Indiko Plus was approved. The linearity study shows not linear trend but was likely due to a bad pipette and should be redone. Indiko Plus Cobas C111 Clinical Chemistry Dog Cat Indiko Plus Cobas C111 Klinisk Kemi Hund Katt Biochemistry and Molecular Biology Biokemi och molekylärbiologi Clinical Laboratory Medicine Klinisk laboratoriemedicin
166	Permeability of fluorescently labelled proteins in silk-based skin equivalent Chumpitaz Chavez, Gabriel January 2021 (has links) Development of methods for studying drug delivery systems is of great significance for the improvement of topical formulations. Active compounds for topical drug delivery are often formulated into gels and creams, that can be applied onto skin surfaces. It is important to know the extent of the permeability of the active compounds, in order to determine the medical effect. This study examines the possibilities of using an animal-free skin equivalent for penetration and permeation experiments, i.e. a silk scaffold integrated with viable human dermaland epidermal cells. Mammalian cell culturing together with silkconstruct formation, constituted the upstream bioprocess and acquisition of the skin equivalents. Permeability of fluorescently labelled Bovine Serum Albumin and Sodium Fluorescein salt was assessed, using a Franz- cell setup incorporated with the skin equivalents. Furthermore, fluorescence analysis and SDS-PAGE was performed on the collected samples, along with cryosectioning and image analysis of the skin equivalents. The results indicate variations in tissue integrity, leading to both high and low permeability. Fluorescence intensity can be correlated with the amount of sample liquid passing through. The model is still under development, hence more research is needed to draw a conclusion regarding the cellular composition of the skin equivalents, and how it influences permeability. / NextBioForm skin equivalent recombinant spider silk fibroblasts keratinocytes permeability Franz cells fluorescence bovine serum albumin sodium fluorescein salt Biochemistry and Molecular Biology Biokemi och molekylärbiologi
167	Characterisation of Potential Inhibitors of Calmodulin from Plasmodium falciparum Iversen, Alexandra, Nordén, Ebba, Bjers, Julia, Wickström, Filippa, Zhou, Martin, Hassan, Mohamed January 2020 (has links) Each year countless lives are affected and about half a million people die from malaria, a disease caused by parasites originating from the Plasmodium family. The most virulent species of the parasite is Plasmodium falciparum (P. falciparum). Calmodulin (CaM) is a small, 148 amino acid long, highly preserved and essential protein in all eukaryotic cells. Previous studies have determined that CaM is important for the reproduction and invasion of P. falciparum in host cells. The primary structure of human CaM (CaMhum) and CaM from P. falciparum (CaMpf) differ in merely 16 positions, making differences in their structures and ligand affinity interesting to study. Especially since possible inhibitors of CaMpf in favor of CaMhum, in extension, could give rise to new malaria treatments. Some antagonists, functioning as inhibitors of CaM, have already been analysed in previous studies. However, there are also compounds that have not yet been studied in regards to being possible antagonists of CaM. This study regards three known antagonists; trifluoperazine (TFP), calmidazolium (CMZ) and artemisinin (ART) and also three recently created fentanyl derivatives; 3-OH-4-OMe-cyclopropylfentanyl (ligand 1), 4-OH-3OMe-4F-isobutyrylfentanyl (ligand 2) and 3-OH-4-OMe-isobutyrylfentanyl (ligand 3). Bioinformatic methods, such as modelling and docking, were used to compare the structures of CaMhum and CaMpf as well as observe the interaction of the six ligands to CaM from both species. In addition to the differences in primary structure, distinguished with ClustalW, disparities in tertiary structure were observed. Structure analysis of CaMhum and CaMpf in PyMOL disclosed a more open conformation as well as a larger, more defined, hydrophobic cleft in CaMhum compared to CaMpf. Simulated binding of the six ligands to CaM from both species, using Autodock 4.2, indicated that TFP and ART bind with higher affinity to CaMhum which is expected. Ligand 2 and ligand 3 also bound with higher affinity and facilitated stronger binding to CaMhum, which is reasonable since their docking is based on how TFP binds to CaM. However, ligand 1 as well as CMZ both bound to CaMpf with higher affinity. Despite promising results for ligand 1 and CMZ, no decisive conclusion can be made solely based on bioinformatic studies. To gain a better understanding on the protein-ligand interactions of the six ligands to CaMhum and CaMpf, further studies using e.g. circular dichroism and fluorescence would be advantageous. Based on the results from this study, future studies on the binding of CMZ and ligand 1 to CaM as well as ligands with similar characteristics would be especially valuable. This is because they, based on the results from this study, possibly are better inhibitors of CaMpf than CaMhum and thereby could function as possible antimalarial drugs. Plasmodium falciparum Calmodulin Malaria Trifluoperazine Calmidazolium Artemisinin Fentanyl derivatives Modelling Docking Bioinformatics Engineering and Technology Teknik och teknologier Bioinformatics and Systems Biology Bioinformatik och systembiologi Biochemistry and Molecular Biology Biokemi och molekylärbiologi
168	Selection of a calcium-dependent IgG1-binding protein domain Rönning, Sanne January 2020 (has links) Standard purification processes in large scale antibody production are largely dependent on Protein A chromatography. Protein A binds specifically to many subclasses of IgG with high affinity. However, in order to elute the proteins, the pH needs to be lowered. Since lowering of the pH can be detrimental to some antibodies, a milder purification process is of great interest. A variant of Protein A, called ZCa, has previously been engineered to bind to IgG in a calcium-dependent manner. The antibody binds to ZCa when calcium is present and releases when calcium is removed. For the IgG1 subclass, the elution still requires a slight lowering of the pH, which is why there is room for improvement of the molecule. A phage display selection has been performed with the aim to obtain calcium-dependent IgG1 binders that are able to release the antibodies upon calcium depletion at neutral pH. In addition, an attempt on increasing the alkaline stability of the binders was made. Sequence analysis of the selection output showed almost no indications of increased alkaline stability. Instead, M13K07 helper phages were exposed to new selections for increased alkaline tolerance which might be useful in future phage display selections. Even though the binders selected for in this project did show some promising characteristics, none of them were able to elute upon calcium depletion at neutral pH as aimed for. However, one of the variants did show promising results during most of the performed characterizations. Most interestingly, the elution properties of this variant could indicate a higher calcium-dependence in the interaction with the target than that of ZCa, although further characterizations need to be performed in order to draw any conclusions about possible improvements of this protein domain. protein science phage display selection Protein A chromatography calcium dependence characterization proteinteknik fagdisplay selektion Protein A kromatografi calciumberoende karakterisering Biochemistry and Molecular Biology Biokemi och molekylärbiologi
169	Development of a new quantitative PCR analysis method for HIV-1 Schöldström Degenne, Jacob January 2021 (has links) På grund av planerat tillverkningsstopp av instrumenten som används idag på Octapharma AB, så syftar detta projekt till nyutvecklingen av en kvantitativ PCR analysmetod för detektion av HIV-1 i human blodplasma, genom TaqMankemi. Projektet inkluderade design, testning och utvärdering av olika set av primer och probe sekvenser. För att säkerställa specificiteten hos metoden designades primrarna och proberna för att vara komplementära till olika konservativa regioner av HIV-1:s genom. Primer och probe set:en (P/P) testades både individuellt och kombinerat i spädningsserier och genotypspaneler. Analyserna visade att det inte fanns någon korrelation mellan felmatchning av P/P och referenssekvenser hos subtyper, och detektionsnivå. När P/P testades i kombination hittades falsk-positiva signaler i negativa kontroller (4 falsk-positiva signaler; n= 106). Detta åtgärdades genom att utesluta specifika prober(0 falsk-positiva signaler; n= 152)(p = 0,030, Fisher’s exact test). Kombinationen av primer och prober, med någraprober uteslutna, hade en högre detektionsnivå för HIV-1 subtyper än de individuella set:en (29 positiva prover vs 23.5; n= 64), och lyckadesäven detektera åtminstone ett positivt prov hos varje subtyp A, B, C, D, AE, F, G och H. Avsaknaden av korrelation mellan felmatchning av P/P och detektionsnivå, visar på att orsaken av den suboptimala detektionsnivån av subtyper var inte på grund av antalet felmatchningar mellan primer och probe set:en till målsekvenserna. Den högre specificiteten vid kombination av P/P indikerar även att primrar och prober som riktar in sig på olika regioner avHIV-1 genomet ytterligare ökar specificiteten och detektionsnivån hos metoden. / As a result of future instrument discontinuation by Octapharma AB’s manufacturers, this project sought to develop a new quantitative PCR analysis method for the detection of HIV-1 in human blood plasma using TaqMan chemistry. The project included the design, testing and statistical analysis of different sets of novel primer and probe sequences. To ensure specificity, the primer and probe sequences were designed to target conserved regions of the HIV-1 genome. The primer and probe sets were tested both individually and in combination in dilution series and genotype tests. Linear regression analyses showed no correlation between mismatches between the primer and probe sets and the subtype reference sequences tested, and detection rate. When the primer and probe setswere tested in combination, false positive signals were obtained in negative control samples (4 false positive signals; n= 106). However, this obstacle was overcome by the omission of certain probes, resulting in no false positive signals (0 false positive signals; n= 152)(p = 0.030, Fisher’s exact test).The combination of primer and probe sets, with certain probes omitted, had an increased HIV-1 subtype detection rate compared to the individual P/P (29 positive samples detected versus 23.5; n= 64), and were also able to detect at least one positive sample from each of the HIV-1 subtypes A, B, C, D, AE, F, G, and H. The absence of correlation between primer and probe set mismatch and detection rate, suggests that the cause of the suboptimal detection rate of the subtypes was not the result of primer and probe set mismatch to the target sequences. The increased subtype detection rate upon combining the P/P also indicates that targeting different region of the HIV-1 genome further improves the detection rate and specificity of the method. qPCR HIV HIV-1 Primer Probe TaqMan Genotype Sensitivity Specificity qPCR HIV HIV-1 Primer Probe TaqMan Genotyp Biochemistry and Molecular Biology Biokemi och molekylärbiologi
170	Identification of changes in biomarkers relevant for breast cancer biology occurring in a novel 3D-Biosilk model Ståhl, Emmy January 2021 (has links) Bröstcancer är den vanligaste formen av cancer som drabbar kvinnor. Det är en heterogen och komplex sjukdom som består av flera undergrupper, var och en med distinkt morfologi och kliniska implikationer [1]. För att modellera och studera cellbiologi, vävnadsmorfologi, molekylära mekanismer och läkemedels effekter används cellkulturer [2]. Idag är tvådimensionella (2D) modeller fortfarande den mest använda metoden för att odla celler in vitro [3]. En nackdel med 2D-modeller är att mikromiljön i dessa modeller inte imiterar in vivo strukturen av tumörer och vävnader, då de saknar tre dimensionella (3D) cell-cell och cellextracellulär matrix (ECM) interaktioner [2]. På grund av nackdelarna med 2D-modeller, har 3D-modeller blivit mer intressanta som alternativ för att lösa behovet av en pålitlig preklinisk modell för läkemedelstestning och för studier av cancerbiologi. För att utveckla ett redskap som är relevant för cancerforskning etablerar professor My Hedhammars laboratorium en 3D-modell av bröstcancer. I en sådan ny modell används Biosilk som byggnadsställning för att odla odödliga cellinjer som är representativa för de tre huvudklasserna av bröstcancer (i.e. MCF-7 (luminal-lik), SKBR-3 (HER2-överuttryckt) och MDAMB- 231 (trippel-negativ)). Eftersom transkriptions signaturer kan användas för att klassificera och studera bröstcancer är det viktigt att undersöka om och hur tillväxt i 3D-Biosilk kan påverka genuttrycksprofiler. Hypotesen som testades i denna studie var om cellkulturer i 3DBiosilk kan ha signifikanta skillnader i uttryck av biomarkörer, relevanta för bröstcancerbiologi, vid jämförelse av samma cellinje kultiverad i 2D. För att testa detta utvärderades kvalitén och reproducerbarheten av 3D-Biosilk konstruktionen med hjälp av olika kvalitetstester. Strukturen granskades med brightfield mikroskopi, arean av konstruktionen mättes med ImageJ, infärgning med phalloidin bekräftade cellnärvaro och cellvidhäftning till modellen. Alamar blue utfördes för att bedöma den cellulära metaboliska aktiviteten i modellen. Förändringarna av målgenernas genuttryck undersöktes med kvantitativ omvänd transkription PCR (RT-qPCR) och detta påvisade en statistiskt signifikant skillnad i genuttrycket beroende på om cellerna odlats i 2D- eller 3D-Biosilk modeller. I cellinje MDA-MB-231 hittades tre gener, i cellinje SKBR-3 hittades två gener och i cellinje MCF-7 hittades fyra gener. Genuttrycket för en av dessa gener i cellinje MCF-7, som var kultiverad i 3D-Biosilk, var nedreglerad (i.e. ZO-1). Detta kunde valideras på proteinnivå med immunofluorescens. Sammanfattningsvis, celler odlade i 3D-Biosilk visar på en mer aggressiv fenotyp. / Breast cancer is the most common cancer among women. It is a heterogenous and complex disease composed of several subtypes, each with distinct morphological and clinical implications [1]. To model and study cell biology, tissue morphology, molecular mechanisms and drug actions, cell cultures are canonically used [2]. Today two-dimensional (2D) models are still widely the preferred method for culturing cells in vitro [3]. A drawback with 2D models is that the microenvironment in these models does not mimic the in vivo structure of tumors and tissues, lacking three-dimensional (3D) cell-cell and cell-extracellular matrix (ECM) interactions [2]. Due to the disadvantages of 2D models, 3D cultures have become an increasingly interesting alternative to solve the need for a reliable preclinical model for drug testing and the study of cancer biology. To develop a relevant tool for cancer research, the laboratory of professor My Hedhammar is currently establishing a 3D model of breast cancer. In such novel model, Biosilk is used as scaffold to grow immortalized cell lines representative of the three major classes of breast cancer (i.e. MCF-7 (luminal-like), SKBR-3 (HER2-overexpression) and MDA-MB-231 (triplenegative)). Since transcriptional signatures can be used to classify and study breast cancers, it is important to investigate if and how growth in 3D-Biosilk can impact gene expression profiles. The hypothesis tested in this study was that cells cultured in 3D-Biosilk have differences in expression of biomarkers relevant to breast cancer biology, when compared to the same cell lines cultured in 2D. To examine this, 3D-Biosilk models were created and evaluated to ensure their quality and reproducibility, for instance, the scaffold structure was monitored by brightfield microscopy, the construct’s area was measured with ImageJ, staining with phalloidin confirmed the presence of cells as well as their attachment to the construct, and Alamar blue was used to assess the cellular metabolic activity. Differences in gene expression of target genes were investigated using reverse transcription quantitative PCR (RTqPCR), which revealed statistically significant changes depending on whether the cells were cultivated in 2D or a 3D-Biosilk model. For cell line MDA-MB-231 three genes were found, for SKBR-3 two genes were found and for MCF-7 four genes were found. The expression of one gene which was found downregulated in MCF-7 cultured in 3D-Biosilk (i.e. ZO-1) was validated at protein level by immunofluorescence. In conclusion, cultivating cells in 3D-Biosilk indicates a more aggressive phenotype. 3D-Biosilk breast cancer 3D cell culture recombinant spider silk ZO-1 3D-Biosilk bröstcancer 3D cellkultur rekombinant spindeltråd ZO-1 Biochemistry and Molecular Biology Biokemi och molekylärbiologi

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