860 resultados para Co-expression network
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Das menschliche Gen human giant larvae (hugl) ist ein Homolog des hochkonservierten Drosophila Gens lethal giant larvae (lgl), welches in Epithelzellen die Funktion eines neoplastischen Tumorsuppressors und Polaritätsregulators einnimmt. Ein Verlust oder eine verminderte Expression beider Homologe des Gens, hugl-1 und hugl-2, geht einher mit dem Auftreten und der Progression verschiedener epithelialer Tumorerkrankungen wie malignen Melanomen und Brust-, Kolon- oder Lungentumoren. Die exakte Funktion der Homologe Hugl-1 und Hugl-2 bezüglich der Regulation und Aufrechterhaltung der epithelialen Zellpolarität sowie ihre Rolle in der Genese humaner Tumore ist jedoch weitgehend unbekannt. Gänzlich unbekannt ist auch die Bedeutung von Hugl-1 und Hugl-2 als Polaritätsregulatoren für die Ausbildung und den Erhalt der T-Zellmorphologie und -funktion. Ziel der vorliegenden Arbeit war es daher, die Polaritäts- und Tumorsuppressorgene hugl-1 und hugl-2 in funktionellen Analysen mittels siRNA-vermitteltem Gen-Silencing in Epithelzellen und T-Lymphozyten zu charakterisieren. Darüber hinaus wurden die Funktionen und Eigenschaften von mgl-2, dem murinen Homologen von hugl-2, im Cre/loxP-vermittelten konditionalen Knockout Mausmodell in vivo analysiert.rnrnZur Charakterisierung der biologischen Effekte von Hugl-1 und Hugl-2 auf das Wachstumsverhalten, Migration und Invasion von Epithelzellen wurden in dieser Arbeit erfolgreich unterschiedliche shRNA-Expressionskonstrukte generiert sowie Hugl-supprimierte Zelllinien etabliert. In vitro Studien sowie in vivo Tumorigenizitätsanalysen lieferten übereinstimmend Hinweise darauf, dass verminderte Hugl-1- und Hugl-2-Expressionsspiegel eine signifikante Rolle in der Vermittlung invasiver und tumorigener Eigenschaften von Epithelzellen spielen. Dabei rief der Verlust beider Homologe deutlich stärkere Reaktionen hervor als die Suppression eines einzelnen Homologen. Zudem wiesen die Überexpression des Zellzyklusregulators Cyclin D1 sowie die Hyperproliferation von Hugl-1- und/oder Hugl-2-depletierten Epithelzellen auf eine wichtige Rolle der beiden Homologe in der Zellzyklusprogression und Zellproliferation hin. Ein geringer Expressionsstatus von Hugl-1 und -2 schien darüber hinaus mit einer verstärkten Resistenzbildung gegenüber Chemotherapeutika zu korrelieren. Im Rahmen dieser Arbeit konnte weiterhin gezeigt werden, dass die untersuchten T-Lymphozyten nur Hugl-1 exprimieren und dass letzteres notwendig für den F-Aktin-vermittelten Erhalt der T-Zellpolarität und -morphologie ist. Hugl-1-supprimierte, über voneinander unabhängige Signalwege (TCR- oder Chemokinrezeptor) stimulierte T-Lymphozyten wiesen eine bedeutende Störung der Lamellipodien- und Uropodausbildung auf und ließen eine Interaktion von Hugl-1 auf Ebene des F Aktins vermuten. Des Weiteren zeigte sich, dass der Polaritätsregulator Hugl-1 die CD3/TCR-induzierte Zelladhäsion positiv beeinflusst. Die Analyse der T-Zellmigration und -motilität offenbarte in Übereinstimmung dazu die Wichtigkeit von Hugl-1 für die Polarisierung und Migration der T-Zellen sowohl im Chemokingradienten als auch auf mDCs. rnrnFür die Aufklärung der funktionellen Rolle von mgl-2 in vivo wurde in dieser Arbeit eine Tamoxifen-induzierbare, Cre/loxP-vermittelte konditionale Mauslinie generiert und analysiert. Die mgl-2-deletierten Tiere wiesen weder signifikante phänotypische Unterschiede noch Abweichungen in der Organanatomie auf und ließen daher auf eine Kompensation durch das im Darmepithel koexprimierte und möglicherweise funktionell redundante mgl-1 Gen schließen.rn
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In dieser Arbeit wurden Mechanismen der Musterbildung in der terminalen Abdominalregion des Zentralnervensystems von Drosophila melanogaster untersucht. Dazu wurden zunächst die Anzahl der angelegten Neuromere und das Muster der dort lokalisierten neuralen Stammzellen (Neuroblasten) analysiert. Dabei zeigte sich, dass sowohl die Größe der Neuromere, als auch die Anzahl an Neuroblasten von anterior nach posterior sukzessiv abnimmt, wobei keine geschlechtsspezifischen Unterschiede in der Anzahl der vorhandenen Neuroblasten festgestellt werden konnten. Durch die Kombination einer Vielzahl von molekularen Markern war es anschließend möglich, die Identität aller Neuroblasten in diesem Bereich aufzuklären und in einer Karte zusammenzutragen. Sie weisen alle eine serielle Homologie zu Neuroblasten in weiter anterior gelegenen Segmenten auf. Des Weiteren wurde die embryonale Identität der geschlechtsspezifischen Neuroblasten untersucht und deren postembryonalen mänchenspezifischen Zellstammbäume charakterisiert. Diese detaillierten Beschreibungen bildeten die Grundlage für die funktionelle Analyse von geschlechts- und segmentspezifischen Faktoren, die zur Musterbildung in dieser Region des Zentralnervensystems beitragen. So konnte gezeigt werden, dass die weibliche Isoform von doublesex den programmierten Zelltod der geschlechtsspezifischen Neuroblasten induziert, während die männliche Isoform diesen verhindert. Das Hox-Gen Abdominal-B zeigt relativ milde Effekte auf das Überleben dieser Neuroblasten, was darauf hindeutet, dass weitere Faktoren benötigt werden, um diesen Prozess in segmentspezifischer Weise zu kontrollieren. Die Funktion von Hox-Genen wurde ferner im Hinblick auf die abgeleitete Morphologie der terminalen Neuromere untersucht. Es konnte herausgefunden werden, dass die regulatorische Isoform von Abdominal-B auf mehreren Ebenen wirkt: Sie beeinflusst die Zusammensetzung bestimmter Zellstammbäume durch Modifikation von Zelldeterminationsprozessen und durch die Kontrolle des programmierten Zelltods. Außerdem unterdrückt sie die Bildung einer spezifischen Subpopulation von Neuroblasten. Allerdings benötigt Abdominal-B.r die Co-Expression des ParaHox-Gens caudal, um sein gesamtes Potenzial bezüglich der Suppression dieser Neuroblasten zu entfalten. Die vorliegende Arbeit hat somit erste Einblicke in die geschlechtsspezifische und segmentspezifische Spezifizierung der terminalen Abdominalregion des Zentralnervensystems von Drosophila auf Ebene des Neuroektoderms, der daraus hervorgehenden Neuroblasten und deren Tochterzellen gewährt. Die vollständige und detailgetreue Beschreibung des Neuroblasten-Musters und der postembryonalen männchenspezifischen Zellstammbäume hat zudem attraktive Modellsysteme für zukünftige Untersuchungen etabliert, an denen sich weitere Mechanismen der Musterbildung im Zentralnervensystem analysieren lassen.
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Dendritische Zellen (DC) spielen als professionelle antigenpräsentierende Zellen (APC) eine zentrale Rolle in der Aktivierung und Regulierung antigenspezifischer Immunantworten. Aus diesem Grund wird der therapeutische Einsatz von DC zur Behandlung von Autoimmunerkrankungen und Allergien sowie zur Tumorbekämpfung erforscht. Im ersten Teil der vorliegenden Arbeit untersuchten wir das Potenzial einer biolistischen DNA-Vakzinierung zur Induktion tolerogener DC in vivo. Im Tiermodell der Myelin-Oligodendrozyten-Glykoprotein Peptid 35-55 (MOGp35-55) induzierten experimentellen autoimmunen Enzephalomyelitis (EAE) sollte mittels präventiver biolistischer Kovakzinierung von Plasmid-DNA kodierend für MOG und die immunregulatorischen Zytokine TGFβ oder IL-10 eine protektive Immunität induziert werden. Die MOG-Expression stand dabei entweder unter der Kontrolle des ubiquitär aktiven CMV-Promotors oder des murinen Fascin-Promotors, um eine ektopische MOG-Expression spezifisch in dermalen DC und Langerhanszellen zu erreichen. Dass MOGp35-55-präsentierende DC nach biolistischer DNA-Vakzinierung von der Haut in die drainierenden Lymphknoten migrieren und dort T-Zellen aktivieren, konnte im Vorfeld anhand einer substanziellen Proliferation von MOGp35-55-reaktiven 2D2 T-Zellen nachgewiesen werden. Im präventiven Ansatz der MOGp35-55-induzierten EAE zeigten Mäuse, die mit MOG-kodierenden Plasmiden biolistisch transfiziert wurden, eine leicht reduzierte EAE-Symptomatik. Die Kotransfektion von MOG und TGFβ führte zu einer Verstärkung der EAE-Suppression – unabhängig davon, ob die MOG-Expression unter der Kontrolle des CMV- oder des Fascin-Promotors stand. Interessanterweise resultierte die Koapplikation von MOG- und IL-10-kodierender Plasmid-DNA nur bei DC-fokussierter MOG-Expression zu reduzierter EAE-Symptomatik. Für biolistische DNA-Vakzinierungen stellt somit der Fascin-Promotor eine potente Alternative zu viralen Promotoren dar. Entsprechend der milderen EAE-Symptome beobachteten wir bei behandelten EAE-Mäusen einen geringeren Grad an Demyelinisierung sowie eine reduzierte Infiltration des ZNS mit IFNγ-produzierenden CD4+ Th1- und IL-17-produzierenden CD4+ Th17-Zellen. Desweiteren zeigten Milzzellen ex vivo nach MOGp35-55-Restimulation eine inhibierte Proliferation und eine signifikant reduzierte IFNγ- und IL-17-Zytokinproduktion. Überraschenderweise ging die antigenspezifische Immunsuppression nicht mit der Expansion von Foxp3+ regulatorischen T-Zellen einher. Da die Milzen aber erhöhte Mengen an CD8+IFNγ+ T-Zellen aufweisen, könnte ein zytotoxisch-suppressiver Mechanismus für die Inhibition der Th1- und Th17-Immunantwort verantwortlich sein. Nachfolgende Untersuchungen sind notwendig, um die induzierten immunologischen Mechansimen mittels biolistischer DNA-Vakzinierung aufzuklären. Der zweite Teil der Arbeit befasst sich mit der Generierung von tolerogenen DC in vitro. Dafür wurden murine Knochenmarkszellen unter DC-differenzierenden Bedingungen in Gegenwart des synthetischen Glucocorticoids Dexamethason (DEX) kultiviert. Die DEX-Zugabe führte zur Differenzierung von APC mit geringer CD11c-Expression. DEX-APC waren in vitro weitestgehend gegen LPS stimulierungsresistent und zeigten eine reduzierte Expression von MHC-II und den kostimulatorischen Molekülen CD80, CD86 und CD40. Ihrem tolerogenen Phänotyp entsprechend besaßen DEX-APC ein geringeres syngenes T-Zellstimulierungspotenzial als unbehandelte BM-DC. Anhand der erhöhten Oberflächenexpression von CD11b, GR1 und F4/80 besteht eine phänotypische Ähnlichkeit zu myeloiden Suppressorzellen. Die Fähigkeit von DEX-APC in vivo antigenspezifische Toleranz zu induzieren, wurde durch einen therapeutischen Ansatz im murinen Krankheitsmodell der Kontaktallergie überprüft. Die therapeutische Applikation von DEX-APC führte hierbei im Vergleich zur Applikation von PBS oder unbehandelten BM-DC zu einer signifikant reduzierten Ohrschwellungsreaktion. Zusammenfassend demonstrieren die Ergebnisse dieser Arbeit, dass potente tolerogene DC sowohl in vivo als auch in vitro induziert werden können. Dass diese Zellpopulation effektiv antigenspezifische Immunreaktionen supprimieren kann, macht sie zu einem vielversprechenden Werkzeug in der Behandlung von Autoimmunerkrankungen und Allergien.rn
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The voltage-gated cardiac potassium channel hERG1 (human ether-à-gogo-related gene 1) plays a key role in the repolarization phase of the cardiac action potential (AP). Mutations in its gene, KCNH2, can lead to defects in the biosynthesis and maturation of the channel, resulting in congenital long QT syndrome (LQTS). To identify the molecular mechanisms regulating the density of hERG1 channels at the plasma membrane, we investigated channel ubiquitylation by ubiquitin ligase Nedd4-2, a post-translational regulatory mechanism previously linked to other ion channels. We found that whole-cell hERG1 currents recorded in HEK293 cells were decreased upon neural precursor cell expressed developmentally down-regulated 4-2 (Nedd4-2) co-expression. The amount of hERG1 channels in total HEK293 lysates and at the cell surface, as assessed by Western blot and biotinylation assays, respectively, were concomitantly decreased. Nedd4-2 and hERG1 interact via a PY motif located in the C-terminus of hERG1. Finally, we determined that Nedd4-2 mediates ubiquitylation of hERG1 and that deletion of this motif affects Nedd4-2-dependent regulation. These results suggest that ubiquitylation of the hERG1 protein by Nedd4-2, and its subsequent down-regulation, could represent an important mechanism for modulation of the duration of the human cardiac action potential.
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Neuronal precursor cell-expressed developmentally down-regulated 4 (Nedd4) proteins are ubiquitin ligases, which attach ubiquitin moieties to their target proteins, a post-translational modification that is most commonly associated with protein degradation. Nedd4 ubiquitin ligases have been shown to down-regulate both potassium and sodium channels. In this study, we investigated whether Nedd4 ubiquitin ligases also regulate Ca(v) calcium channels. We expressed three Nedd4 family members, Nedd4-1, Nedd4-2, and WWP2, together with Ca(v)1.2 channels in tsA-201 cells. We found that Nedd4-1 dramatically decreased Ca(v) whole-cell currents, whereas Nedd4-2 and WWP2 failed to regulate the current. Surface biotinylation assays revealed that Nedd4-1 decreased the number of channels inserted at the plasma membrane. Western blots also showed a concomitant decrease in the total expression of the channels. Surprisingly, however, neither the Ca(v) pore-forming α1 subunit nor the associated Ca(v)β and Ca(v)α(2)δ subunits were ubiquitylated by Nedd4-1. The proteasome inhibitor MG132 prevented the degradation of Ca(v) channels, whereas monodansylcadaverine and chloroquine partially antagonized the Nedd4-1-induced regulation of Ca(v) currents. Remarkably, the effect of Nedd4-1 was fully prevented by brefeldin A. These data suggest that Nedd4-1 promotes the sorting of newly synthesized Ca(v) channels for degradation by both the proteasome and the lysosome. Most importantly, Nedd4-1-induced regulation required the co-expression of Ca(v)β subunits, known to antagonize the retention of the channels in the endoplasmic reticulum. Altogether, our results suggest that Nedd4-1 interferes with the chaperon role of Ca(v)β at the endoplasmic reticulum/Golgi level to prevent the delivery of Ca(v) channels at the plasma membrane.
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Since the turbulence of 1989, the countries of Central and Eastern Europe have striven to "return to Europe". Agreements have been signed with ten post-communist countries, beginning in 1991 with Czechoslovakia (before its division), Hungary and Poland. Since that time several countries have expressed a desire to become members of the EU. In 1997 the European Commission announced its opinion on the applications for EU membership of the Czech Republic, Hungary, Poland, Slovakia, and seven other applicant countries. The Commission recommended the commencement of negotiations on accession with the Czech Republic, Estonia, Hungary, Poland, and Slovenia. Mr. Kucia's report, presented in the form of a series of manuscripts totalling 91 pages, written in English and Polish and including many pages of tables and graphs, presents the results of a study of public opinion on European integration in four countries of Central Europe (CE): the Czech Republic (CZ), Hungary (H), Poland (PL), and Slovakia (SK). The research results are primarily based on a public-opinion survey known as the Central and Eastern Eurobarometer (CEEB). CEEB has been conducted on behalf of the European Commission in the Central and Eastern European countries each year in autumn since 1990. Below is a very small selection of Mr. Kucia's research findings. Throughout the 90s people in the four countries increasingly saw their countries' future tied up with the EU, since economic and political connections to the EU were growing and prospects for EU membership were increasing. Regional co-operation within CE did not gain much popular recognition. However, initially high levels of enthusiasm for the EU were gradually superseded by a more realistic approach or even scepticism. Poland was the exception in this respect; its population was more positive about the EU in 1996 than ever before. Mr. Kucia concludes that, since the political "elites" in CE are more positive about the EU than the people they serve, they should do their best to bring people round to their beliefs, lest the project of European integration become purely the business of the elites, as Mr. Kucia claims it has been in the EU up till now. He accuses the governments of the region, the EU authorities and the media of failing to provide appropriate information, especially about the two subjects which most affect them, association with the EU and the PHARE assistance programme. Respondents were asked to rank in order the countries or regions they saw their country's future most closely tied up with. In the period 92-96 the EU received the highest ratings in all of CE. The ratings were highest in CZ in 92 and 93 (46%) and in Poland in 96 (46%). They were the lowest in Hungary (22% in 94). After the EU came "Other Western European countries (non EU)", that is Austria, Sweden and Finland (before they joined the EU in 1995), Switzerland and Norway. Mr. Kucia puts the high ratings of these countries down to historical connections and geographical proximity, particularly in the case of Austria. The USA always came second in Poland, and in Hungary too its standing has always been higher than in CZ or SK. Indeed Mr. Kucia suggests that the USA's standing is disproportionately low in especially the CZ. Germany was nominated frequently by Hungarians, though in the CZ and SK, figures have been consistently low (1-2%). "Other CE/EE countries" increased their ratings in all of CE except Poland between 92 and 96. With regard to these last figures, Mr. Kucia makes an interesting note. Assuming that for the respondents in the four countries this category covered the Visegrad 4, least support was found in Poland, whose government was the most in favour of close political co-operation within the V4, while most support was in evidence in CZ and SK, for whose governments V4 was simply not a priority. Again, there is evidence of a divide between the political elites and the people. Russia has occupied a consistently modest rank. It was the highest in PL, fairly low in H and SK and the lowest in CZ. The Slovak government's policy of closer ties with Russia is reflected in a growth in the figures from 2% in 93 to 6% in 95. Every year the spontaneous answer "we should depend on ourselves" appeared, which Mr. Kucia interprets as either a sign of isolationism and disillusionment or as a call for self-reliance. Unfortunately he regards both these tendencies as unfeasible in the uniting Europe. Moving to more general conclusions, Mr. Kucia finds that the concept "Central Europe" does not have much meaning for Central Europeans. He believes that this is probably due to the failure to establish a viable regional co-operation network. Group discussions also revealed that people thought themselves European as a consequence of being Czech or Polish etc. Thus European identity is based on national identities. Generally within the surveyed period, the numbers of those who said they often think themselves European decreased, while the numbers of those who said they never think themselves European increased from 41% in PL, 36% in CZ, and 30% in H in 1990, to 67% in CZ, 58% in PL, and 51% in H in 1995.
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The annexins are a multigene family of Ca(2+)- and charged phospholipid-binding proteins. Although they have been ascribed with diverse functions, there is no consensus about the role played by this family as a whole. We have mapped the Ca(2+)-induced translocations of four members of the annexin family and of two truncated annexins in live cells, and demonstrated that these proteins interact with the plasma membrane as well as with internal membrane systems in a highly coordinated manner. Annexin 2 was the most Ca(2+) sensitive of the studied proteins, followed by annexins 6, 4 and 1. The calcium sensitivity of annexin 2 increased further following co-expression with S100A10. Upon elevation of [Ca(2+)](i), annexins 2 and 6 translocated to the plasma membrane, whereas annexins 4 and 1 also became associated with intracellular membranes and the nuclear envelope. The NH(2)-terminus had a modulatory effect on plasma membrane binding: its truncation increased the Ca(2+) sensitivity of annexin 1, and decreased that of annexin 2. Given the fact that several annexins are present within any one cell, it is likely that they form a sophisticated [Ca(2+)] sensing system, with a regulatory influence on other signaling pathways.
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The nonstructural protein NS2-3 of pestiviruses undergoes tightly regulated processing. For bovine viral diarrhea virus it was shown that uncleaved NS2-3 is required for infectious particle formation while cleaved NS3 is essential for genome replication. To further investigate the functions of NS2-3 and NS4A in the pestivirus life cycle, we established T7 RNA polymerase-dependent trans-complementation for p7-NS2-3-4A of classical swine fever virus (CSFV). Expression of NS2-3 and NS4A in trans restored the production of infectious particles from genomes lacking NS2-3 expression. Co-expression of cleaved NS4A was essential. None of the enzymatic activities harbored by NS2-3 were required for infectious particle formation. Importantly, expression of uncleavable NS2-3 together with NS4A rescued infectious particles from a genome lacking NS2, demonstrating that cleaved NS2 per se has no additional essential function. These data indicate that NS2-3 and NS3, each in association with NS4A, have independent functions in the CSFV life cycle.
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Mutations in the B1 subunit of the multisubunit vacuolar ATPase cause autosomal-recessive distal renal tubular acidosis and sensorineural deafness. Here, we report a novel frameshift mutation that truncates the C-terminus of the human B1 subunit. This mutant protein failed to assemble with other subunits in the cytosol to form the complex that can be targeted to vesicular structures in mammalian cells. Loss of proton pump activity was demonstrated in a functional complementation assay in B-subunit null yeast. The mutation caused loss of a discreet C-terminal region critical for subunit interaction not related to the C-terminal PDZ motif. Co-expression studies failed to demonstrate dominant negative effects of this truncated mutant over wild-type B1. Analysis of 12 reported B1 subunit missense mutations showed one polymorphic allele had intact pump function, two point mutants had intact assembly but defective proton pumping, and the remaining nine had disrupted assembly with no pump function. One presumed polymorphic allele was actually an inactivating mutation. Our study shows that multiple mechanisms of pump dysfunction result from B1 subunit mutations with a common outcome being defective assembly. Polymorphisms of the B1 subunit in the general population may affect renal acidification and urinary chemistry.
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Biofuels are an increasingly important component of worldwide energy supply. This research aims to understand the pathways and impacts of biofuels production, and to improve these processes to make them more efficient. In Chapter 2, a life cycle assessment (LCA) is presented for cellulosic ethanol production from five potential feedstocks of regional importance to the upper Midwest - hybrid poplar, hybrid willow, switchgrass, diverse prairie grasses, and logging residues - according to the requirements of Renewable Fuel Standard (RFS). Direct land use change emissions are included for the conversion of abandoned agricultural land to feedstock production, and computer models of the conversion process are used in order to determine the effect of varying biomass composition on overall life cycle impacts. All scenarios analyzed here result in greater than 60% reduction in greenhouse gas emissions relative to petroleum gasoline. Land use change effects were found to contribute significantly to the overall emissions for the first 20 years after plantation establishment. Chapter 3 is an investigation of the effects of biomass mixtures on overall sugar recovery from the combined processes of dilute acid pretreatment and enzymatic hydrolysis. Biomass mixtures studied were aspen, a hardwood species well suited to biochemical processing; balsam, a high-lignin softwood species, and switchgrass, an herbaceous energy crop with high ash content. A matrix of three different dilute acid pretreatment severities and three different enzyme loading levels was used to characterize interactions between pretreatment and enzymatic hydrolysis. Maximum glucose yield for any species was 70% oftheoretical for switchgrass, and maximum xylose yield was 99.7% of theoretical for aspen. Supplemental β-glucosidase increased glucose yield from enzymatic hydrolysis by an average of 15%, and total sugar recoveries for mixtures could be predicted to within 4% by linear interpolation of the pure species results. Chapter 4 is an evaluation of the potential for producing Trichoderma reesei cellulose hydrolases in the Kluyveromyces lactis yeast expression system. The exoglucanases Cel6A and Cel7A, and the endoglucanase Cel7B were inserted separately into the K. lactis and the enzymes were analyzed for activity on various substrates. Recombinant Cel7B was found to be active on carboxymethyl cellulose and Avicel powdered cellulose substrates. Recombinant Cel6A was also found to be active on Avicel. Recombinant Cel7A was produced, but no enzymatic activity was detected on any substrate. Chapter 5 presents a new method for enzyme improvement studies using enzyme co-expression and yeast growth rate measurements as a potential high-throughput expression and screening system in K. lactis yeast. Two different K. lactis strains were evaluated for their usefulness in growth screening studies, one wild-type strain and one strain which has had the main galactose metabolic pathway disabled. Sequential transformation and co-expression of the exoglucanase Cel6A and endoglucanase Cel7B was performed, and improved hydrolysis rates on Avicel were detectable in the cell culture supernatant. Future work should focus on hydrolysis of natural substrates, developing the growth screening method, and utilizing the K. lactis expression system for directed evolution of enzymes.
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Striated muscle exhibits a pronounced structural-functional plasticity in response to chronic alterations in loading. We assessed the implication of focal adhesion kinase (FAK) signalling in mechano-regulated differentiation of slow-oxidative muscle. Load-dependent consequences of FAK signal modulation were identified using a multi-level approach after electrotransfer of rat soleus muscle with FAK-expression plasmid vs. empty plasmid-transfected contralateral controls. Muscle fibre-targeted over-expression of FAK in anti-gravitational muscle for 9 days up-regulated transcript levels of gene ontologies underpinning mitochondrial metabolism and contraction in the transfected belly portion. Concomitantly, mRNA expression of the major fast-type myosin heavy chain (MHC) isoform, MHC2A, was reduced. The promotion of the slow-oxidative expression programme by FAK was abolished after co-expression of the FAK inhibitor FAK-related non-kinase (FRNK). Elevated protein content of MHC1 (+9%) and proteins of mitochondrial respiration (+165-610%) with FAK overexpression demonstrated the translation of transcript differentiation in targeted muscle fibres towards a slow-oxidative muscle phenotype. Coincidentally MHC2A protein was reduced by 50% due to protection of muscle from de-differentiation with electrotransfer. Fibre cross section in FAK-transfected muscle was elevated by 6%. The FAK-modulated muscle transcriptome was load-dependent and regulated in correspondence to tyrosine 397 phosphorylation of FAK. In the context of overload, the FAK-induced gene expression became manifest at the level of contraction by a slow transformation and the re-establishment of normal muscle force from the lowered levels with transfection. These results highlight the analytic power of a systematic somatic transgene approach by mapping a role of FAK in the dominant mechano-regulation of muscular motor performance via control of gene expression.
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Many membrane proteins, including the GABA(A) [GABA (gamma-aminobutyric acid) type A] receptors, are oligomers often built from different subunits. As an example, the major adult isoform of the GABA(A) receptor is a pentamer built from three different subunits. Theoretically, co-expression of three subunits may result in many different receptor pentamers. Subunit concatenation allows us to pre-define the relative arrangement of the subunits. This method may thus be used to study receptor architecture, but also the nature of binding sites. Indeed, it made possible the discovery of a novel benzodiazepine site. We use here subunit concatenation to study delta-subunit-containing GABA(A) receptors. We provide evidence for the formation of different functional subunit arrangements in recombinant alpha(1)beta(3)delta and alpha(6)beta(3)delta receptors. As with all valuable techniques, subunit concatenation has also some pitfalls. Most of these can be avoided by carefully titrating and minimizing the length of the linker sequences joining the two linked subunits and avoiding inclusion of the signal sequence of all but the N-terminal subunit of a multi-subunit construct. Maybe the most common error found in the literature is that low expression can be overcome by simply overloading the expression system with genetic information. As some concatenated constructs result by themselves in a low level of expression, this erroneous assembly leading to receptor function may be promoted by overloading the expression system and leads to wrong conclusions.
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BACKGROUND & AIMS: Congenital sucrase-isomaltase (SI) deficiency is an autosomal-recessive intestinal disorder characterized by a drastic reduction or absence of sucrase and isomaltase activities. Previous studies have indicated that single mutations underlie individual phenotypes of the disease. We investigated whether compound heterozygous mutations, observed in some patients, have a role in disease pathogenesis. METHODS: We introduced mutations into the SI complementary DNA that resulted in the amino acid substitutions V577G and G1073D (heterozygous mutations found in one group of patients) or C1229Y and F1745C (heterozygous mutations found in another group). The mutant genes were expressed transiently, alone or in combination, in COS cells and the effects were assessed at the protein, structural, and subcellular levels. RESULTS: The mutants SI-V577G, SI-G1073D, and SI-F1745C were misfolded and could not exit the endoplasmic reticulum, whereas SI-C1229Y was transported only to the Golgi apparatus. Co-expression of mutants found on each SI allele in patients did not alter the protein's biosynthetic features or improve its enzymatic activity. Importantly, the mutations C1229Y and F1745C, which lie in the sucrase domains of SI, prevented its targeting to the cell's apical membrane but did not affect protein folding or isomaltase activity. CONCLUSIONS: Compound heterozygosity is a novel pathogenic mechanism of congenital SI deficiency. The effects of mutations in the sucrase domain of SIC1229Y and SIF1745C indicate the importance of a direct interaction between isomaltase and sucrose and the role of sucrose as an intermolecular chaperone in the intracellular transport of SI.
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Argininosuccinic aciduria (ASA) is an autosomal recessive urea cycle disorder caused by deficiency of argininosuccinate lyase (ASL) with a wide clinical spectrum from asymptomatic to severe hyperammonemic neonatal onset life-threatening courses. We investigated the role of ASL transcript variants in the clinical and biochemical variability of ASA. Recombinant proteins for ASL wild type, mutant p.E189G, and the frequently occurring transcript variants with exon 2 or 7 deletions were (co-)expressed in human embryonic kidney 293T cells. We found that exon 2-deleted ASL forms a stable truncated protein with no relevant activity but a dose-dependent dominant negative effect on enzymatic activity after co-expression with wild type or mutant ASL, whereas exon 7-deleted ASL is unstable but seems to have, nevertheless, a dominant negative effect on mutant ASL. These findings were supported by structural modeling predictions for ASL heterotetramer/homotetramer formation. Illustrating the physiological relevance, the predominant occurrence of exon 7-deleted ASL was found in two patients who were both heterozygous for the ASL mutant p.E189G. Our results suggest that ASL transcripts can contribute to the highly variable phenotype in ASA patients if expressed at high levels. Especially, the exon 2-deleted ASL variant may form a heterotetramer with wild type or mutant ASL, causing markedly reduced ASL activity.
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BACKGROUND Cardiac sodium channel β-subunit mutations have been associated with several inherited cardiac arrhythmia syndromes. OBJECTIVE To identify and characterize variations in SCN1Bb associated with Brugada syndrome (BrS) and sudden infant death syndrome (SIDS). METHODS All known exons and intron borders of the BrS-susceptibility genes were amplified and sequenced in both directions. Wild type (WT) and mutant genes were expressed in TSA201 cells and studied using co-immunoprecipitation and whole-cell patch-clamp techniques. RESULTS Patient 1 was a 44-year-old man with an ajmaline-induced type 1 ST-segment elevation in V1 and V2 supporting the diagnosis of BrS. Patient 2 was a 62-year-old woman displaying a coved-type BrS electrocardiogram who developed cardiac arrest during fever. Patient 3 was a 4-month-old female SIDS case. A R214Q variant was detected in exon 3A of SCN1Bb (Na(v)1B) in all three probands, but not in any other gene previously associated with BrS or SIDS. R214Q was identified in 4 of 807 ethnically-matched healthy controls (0.50%). Co-expression of SCN5A/WT + SCN1Bb/R214Q resulted in peak sodium channel current (I(Na)) 56.5% smaller compared to SCN5A/WT + SCN1Bb/WT (n = 11-12, P<0.05). Co-expression of KCND3/WT + SCN1Bb/R214Q induced a Kv4.3 current (transient outward potassium current, I(to)) 70.6% greater compared with KCND3/WT + SCN1Bb/WT (n = 10-11, P<0.01). Co-immunoprecipitation indicated structural association between Na(v)β1B and Na(v)1.5 and K(v)4.3. CONCLUSION Our results suggest that R214Q variation in SCN1Bb is a functional polymorphism that may serve as a modifier of the substrate responsible for BrS or SIDS phenotypes via a combined loss of function of sodium channel current and gain of function of transient outward potassium current.
