Global ETD Search

71	EFFECTS OF ADDITIONAL SODIUM BICARBONATE ON EXTRA/INTRA CELLULAR FACTORS IN A CONTINUOUS FLOW BIOREACTOR FOR THE PRODUCTION OF TISSUE ENGINEERED ARTICULAR CARTILAGE Khan, AASMA ARIF 31 October 2012 (has links) Articular cartilage has a low propensity for self-repair, due to which 27 million people are affected by osteoarthritis every year in North America. The current repair techniques used for cartilage defects possess flaws that reduce long-term clinical success. Tissue engineering carries with it the promise of engineering hyaline-like cartilage with physical and biochemical properties, similar to that of native cartilage. This being said, the primary objective of my project was to engineer clinically relevant sized articular cartilage constructs. To achieve my objective, first, I investigated the effect of continuous culture on cartilaginous tissue growth. Constructs grown under continuous media flow significantly accumulated more collagen and glycosaminoglycan, and displayed a stratified morphology, similar to that found in native cartilage. The second goal was to further increase chondrocyte proliferation, and extracellular matrix (ECM) accumulation. To achieve this, constructs were grown in a bioreactor with media supplemented with 14 mM sodium bicarbonate (NaHCO3). Constructs cultivated in the bioreactor with NaHCO3 supplementation exhibited a significant (p<0.05) increase in ECM accumulation (a 98-fold increase in glycosaminoglycans and a 25-fold increase in collagen content), cell proliferation (a 13-fold increase), and thickness (a 28-fold increase) compared to all other conditions (static and reactor without NaHCO3 supplementation). The third goal was to engineer cartilage constructs with as little cells as possible, reducing donor site morbidity. From the results obtained, it was evident that the monolayer constructs outperformed all the other constructs (pellet, biopsy, and minced). The final goal was to understand the underlying reason for the increased proliferation. First, I investigated if there were any differences present in intracellular pH (pHi) and intracellular buffering capacity. Second, I determined the role of extracellular pH (pHe) on cell proliferation. In an effort to accurately achieve this, I, for the first time, have reported on measuring pHi of chondrocytes while still in culture (2D and 3D cultures) using a confocal microscope. This study demonstrated the importance of extracellular environments, such as pHe, extracellular buffering capacity, and the presence of carbon dioxide and bicarbonate ions for chondrocyte proliferation. / Thesis (Ph.D, Chemical Engineering) -- Queen's University, 2012-10-30 19:19:32.026 Extracellular buffering Capacity Bioreactor Continuous Flow Pellet biopsy Intracellular buffering Capacity Extracellular pH Cell proliferation Intracellular pH Large-sized engineered constructs
72	L’impact de la grossesse sur l’amplitude et la diversité de la reconnaissance antigénique des lymphocytes T cytotoxiques dirigés contre le VIH-1 Jolette, Elyse 09 1900 (has links) La transmission mère-enfant (TME) du VIH-1 est un des enjeux majeurs de la pandémie. Une meilleure compréhension de la réponse des lymphocytes T cytotoxiques CD8+ (LTC) VIH-spécifiques lors de la grossesse facilitera le design de stratégies optimales pour diminuer la TME. Notre objectif est donc de caractériser l’amplitude et la diversité de la reconnaissance antigénique des LTC VIH-spécifiques avant, pendant et après la grossesse chez des femmes infectées par le VIH-1. Nos résultats montrent pour la première fois que l’initiation et la progression de la grossesse, à elles seules, n'ont que peu d’influence sur l’amplitude et la diversité de la reconnaissance antigénique des réponses LTC en termes de production d’IFN‐. Ces résultats indiquent que les femmes infectées par le VIH conservent une immunocompétence durant leur grossesse, du moins dans le contexte d’un traitement antirétroviral efficace. Ceci pourrait éventuellement aider à promouvoir l’immunisation comme stratégie pour prévenir la TME du VIH‐1. / Mother-to-child transmission (MTCT) of HIV-1 is one of the major issues of the pandemic. Characterization of HIV-specific immunity during pregnancy, especially cytotoxic CD8+ T lymphocytes (CTL), will lead to a better understanding of HIV pathogenesis and facilitate design of optimal strategies to prevent MTCT. Our objective is to describe the magnitude and the breadth of antigen recognition of HIV-specific CTL responses before, throughout and after pregnancy in a group of HIV-infected women. Our results revealed for the first time that initiation of pregnancy by itself doesn’t change the magnitude of CTL responses in terms of IFN- production. These findings support the fact that HIV-infected women maintain immunocompetence throughout gestation, at least in the context of effective antiretroviral treatment. These results provide a novel understanding of the dynamics of HIV-specific CTL responses during pregnancy and may help to promote maternal immunization as a strategy to prevent MTCT of HIV-1. Lymphocytes T cytotoxiques CD8+ Cytotoxic CD8+ T lymphocytes LTC CTL VIH HIV Grossesse Pregnancy ELISpot IFN-γ Gag Transmission mère-enfant Mother-to-child transmission TME MTCT
73	Polyhydroxybutyrate als Scaffoldmaterial für das Tissue Engineering von Knochen Wollenweber, Marcus 27 August 2012 (has links) (PDF) In drei inhaltlich abgeschlossen Teilen werden Fragestellungen bearbeitet, die sich mit dem Einsatz von Polyhydroxybutyraten als Scaffoldmaterialien für das Tissue Engioneering von Knochen beschäftigen. Zunächst wird ein Prozess optimiert, in dem mittels Verpressen und Auslösen von Platzhaltern (Porogen) poröse Träger (Scaffolds) aus Poly-3-hydroxybuttersäure (P3HB) sowie aus P3co4HB hergestellt werden. Diese Scaffolds werden in der Folge mechanisch und strukturell charakterisiert, wobei Druckfestigkeit, Dauerfestigkeit und Viskoelastizität untersucht werden. Im Ergebnis finden sich mehrere Kandidaten, die für die weitere Testung im Tierversuch in Frage kommen. Weiter wird das Abbauverhalten von schmelzgeponnenen P3HB-Fäden untersucht. Dabei wird ein beschleunigtes Modellsystem gewählt, das noch möglichst nahe am physiologischen Fall aber ohne biologisch aktive Komponente (zB. Enzyme) definiert wurde. Die Charakterisierung bedient sich hier der Gelpermeationschromatographie (GPC), des gasgestützten Elektronenrastermikroskops (ESEM), der differentiellen Thermoanalyse (DSC) und der Rasterkraftmikroskopie. Als Ergebnis zeichnete sich ab, dass neben der hydrolytischen Degradation im Gegensatz zu PHB mit kleinerer spezifischer Oberfläche bei den Fäden auch Erosion zum Abbau beiträgt. Eine partikuläre Freisetzung wird nicht beobachtet. Im dritten Teil werden textile Scaffolds aus P3HB mit einer künstlichen extrazellulären Matrix aus Chondroitinsulfaten (CS) und Kollagen versehen. Dem CS kann hier ein positiver Einfluss auf die osteogene Differenzierung von humanen mesenchymalen Stammzellen (hMSC) nachgewiesen werden. Dies wird zum einen durch die verstärkte Expression der alkalischen Phosphatase (ALP) sowie durch die Hochregulation von Proteinen ersichtlich, die bei der osteogenen Differenzierung essentiell sind. In wenigen Gene-Arrays lässt sich ebenfalls erkennen, dass die osteogene Differenzierung durch CS positiv beeinflusst wird. Insbesondere frühe Marker wie ZBTB16 und IGFBPs werden hier identifiziert. Basierend auf den Teilergebnissen wird am Ende ein Beitrag geliefert, der das Tissue Engineering insbesondere für überkritische Röhrenknochendefekte als Methode interessant erscheinen lässt. Dabei werden mechanische Lasten durch konventionelle Fixateure aufgenommen und der Defektraum durch den mehrfachen Einsatz von bio-funktionalisierten flachen Scaffolds gefüllt. Polyhydroxybutyrate PHB P3HB P3co4HB mesenchymale Stammzellen Knochen tissue engineering mechanische Eigenschaften EZM Kollagen Chondroitinsulfat Glykosaminoglykane Scaffold Degradation mesenchymal stem cells bone mechanical properties ECM collagen chondroitinsulphate glycosaminoglycans GAG ddc:620 rvk:ZM 7070
74	L’impact de la grossesse sur l’amplitude et la diversité de la reconnaissance antigénique des lymphocytes T cytotoxiques dirigés contre le VIH-1 Jolette, Elyse 09 1900 (has links) La transmission mère-enfant (TME) du VIH-1 est un des enjeux majeurs de la pandémie. Une meilleure compréhension de la réponse des lymphocytes T cytotoxiques CD8+ (LTC) VIH-spécifiques lors de la grossesse facilitera le design de stratégies optimales pour diminuer la TME. Notre objectif est donc de caractériser l’amplitude et la diversité de la reconnaissance antigénique des LTC VIH-spécifiques avant, pendant et après la grossesse chez des femmes infectées par le VIH-1. Nos résultats montrent pour la première fois que l’initiation et la progression de la grossesse, à elles seules, n'ont que peu d’influence sur l’amplitude et la diversité de la reconnaissance antigénique des réponses LTC en termes de production d’IFN‐. Ces résultats indiquent que les femmes infectées par le VIH conservent une immunocompétence durant leur grossesse, du moins dans le contexte d’un traitement antirétroviral efficace. Ceci pourrait éventuellement aider à promouvoir l’immunisation comme stratégie pour prévenir la TME du VIH‐1. / Mother-to-child transmission (MTCT) of HIV-1 is one of the major issues of the pandemic. Characterization of HIV-specific immunity during pregnancy, especially cytotoxic CD8+ T lymphocytes (CTL), will lead to a better understanding of HIV pathogenesis and facilitate design of optimal strategies to prevent MTCT. Our objective is to describe the magnitude and the breadth of antigen recognition of HIV-specific CTL responses before, throughout and after pregnancy in a group of HIV-infected women. Our results revealed for the first time that initiation of pregnancy by itself doesn’t change the magnitude of CTL responses in terms of IFN- production. These findings support the fact that HIV-infected women maintain immunocompetence throughout gestation, at least in the context of effective antiretroviral treatment. These results provide a novel understanding of the dynamics of HIV-specific CTL responses during pregnancy and may help to promote maternal immunization as a strategy to prevent MTCT of HIV-1. Lymphocytes T cytotoxiques CD8+ Cytotoxic CD8+ T lymphocytes LTC CTL VIH HIV Grossesse Pregnancy ELISpot IFN-γ Gag Transmission mère-enfant Mother-to-child transmission TME MTCT
75	The impact of HLA-driven escape mutation on viral replicative capacity and immune control in HIV infection Tsai, Ming-Han Chloe January 2017 (has links) Despite the introduction of antiretroviral therapy, the HIV/HIV epidemic remains an unsolved global health problem. Amongst all the host defence mechanisms, HLA class I molecules have shown the strongest genetic association with delayed disease progression, in particular HLA-B alleles. Numerous studies have shown that the HLAmediated CD8+ T cell responses play a central role in the immune control of HIV. Yet our understanding of HLA-mediated immune control of HIV remains incomplete, even when considering the best-defined epitopes restricted by the protective HLA alleles at a population level. The studies I have conducted and describe herein focus on two well-charaterised protective HLA-B molecules, HLA-B81:01 and HLA-B27:05; a third protective molecule, HLA-B52:01, that has not been well-studied hitherto; and finally the most prevalent HLAB allele in many Asian populations such as Taiwan, HLA-B40:01, which has an apparently neutral effect on viral replication. This thesis is centred on the Gag-specific immune response, since previous studies have shown the benefits of CD8+ T-cell responses targeting this conserved and immunogenic region of the HIV proteome, in particular the p24 capsid protein. I have investigated here HLA footprints driven by CD8+ T-cell pressure on HIV that are evident in the viral sequences of individuals expressing these HLA molecules. These footprints include novel escape and putative compensatory mutations. The impact of these variants on viral replicative capacity (VRC) and on HIV disease outcome clinical outcomes was examined via fitness assays. These studies identified several escape mutations that effectively cripple HIV. The distinct compensatory pathways available to the virus to mitigate the fitness cost of particular escape mutations were evaluated. In the course of these analyses I have demonstrated the critical influence of the viral backbone, including HIV clade, in combination with particular viral variants, on VRC. Computational modelling analysis has been applied to facilitate understanding of the mechanism by which certain mutants affect the stability of interactions between HLA and viral capsid protein. This thesis offers novel insights into immune control of the key HIV subtypes â B- and C-clade â and of the most severely affected populations â in Africa (South Africa) and Asia (India and Taiwan) â within the global epidemic. This work helps to better define the viral mutation landscape that is essential both for future vaccines designed to corner the virus, and for successful HIV cure strategies.
76	Polyhydroxybutyrate als Scaffoldmaterial für das Tissue Engineering von Knochen Wollenweber, Marcus 10 May 2012 (has links) In drei inhaltlich abgeschlossen Teilen werden Fragestellungen bearbeitet, die sich mit dem Einsatz von Polyhydroxybutyraten als Scaffoldmaterialien für das Tissue Engioneering von Knochen beschäftigen. Zunächst wird ein Prozess optimiert, in dem mittels Verpressen und Auslösen von Platzhaltern (Porogen) poröse Träger (Scaffolds) aus Poly-3-hydroxybuttersäure (P3HB) sowie aus P3co4HB hergestellt werden. Diese Scaffolds werden in der Folge mechanisch und strukturell charakterisiert, wobei Druckfestigkeit, Dauerfestigkeit und Viskoelastizität untersucht werden. Im Ergebnis finden sich mehrere Kandidaten, die für die weitere Testung im Tierversuch in Frage kommen. Weiter wird das Abbauverhalten von schmelzgeponnenen P3HB-Fäden untersucht. Dabei wird ein beschleunigtes Modellsystem gewählt, das noch möglichst nahe am physiologischen Fall aber ohne biologisch aktive Komponente (zB. Enzyme) definiert wurde. Die Charakterisierung bedient sich hier der Gelpermeationschromatographie (GPC), des gasgestützten Elektronenrastermikroskops (ESEM), der differentiellen Thermoanalyse (DSC) und der Rasterkraftmikroskopie. Als Ergebnis zeichnete sich ab, dass neben der hydrolytischen Degradation im Gegensatz zu PHB mit kleinerer spezifischer Oberfläche bei den Fäden auch Erosion zum Abbau beiträgt. Eine partikuläre Freisetzung wird nicht beobachtet. Im dritten Teil werden textile Scaffolds aus P3HB mit einer künstlichen extrazellulären Matrix aus Chondroitinsulfaten (CS) und Kollagen versehen. Dem CS kann hier ein positiver Einfluss auf die osteogene Differenzierung von humanen mesenchymalen Stammzellen (hMSC) nachgewiesen werden. Dies wird zum einen durch die verstärkte Expression der alkalischen Phosphatase (ALP) sowie durch die Hochregulation von Proteinen ersichtlich, die bei der osteogenen Differenzierung essentiell sind. In wenigen Gene-Arrays lässt sich ebenfalls erkennen, dass die osteogene Differenzierung durch CS positiv beeinflusst wird. Insbesondere frühe Marker wie ZBTB16 und IGFBPs werden hier identifiziert. Basierend auf den Teilergebnissen wird am Ende ein Beitrag geliefert, der das Tissue Engineering insbesondere für überkritische Röhrenknochendefekte als Methode interessant erscheinen lässt. Dabei werden mechanische Lasten durch konventionelle Fixateure aufgenommen und der Defektraum durch den mehrfachen Einsatz von bio-funktionalisierten flachen Scaffolds gefüllt.:1. Vorwort 3 2. Allgemeine Einführung 5 2.1 Der Knochen 5 2.1.1 Die Knochenbildung 5 2.1.2 Zur Anatomie und Physiologie des Knochens 7 2.2 Tissue Engineering 11 2.2.1 Zelltypen für das Tissue Engineering von Knochen 12 2.2.2 Scaffold Design im Tissue Engineering von Knochen 13 2.3 Polyhydroxyalkanoate 13 2.4 Tissue Engineering am Röhrenknochen 16 2.4.1 Poly(3-hydroxybutyrat)-Scaffolds für das Tissue Engineering von Knochenersatz 17 2.4.2 Matrix Engineering 18 2.5 Ziel der Arbeit 19 3. Mechanik poröser PHB-Scaffolds 21 3.1 Einleitung 21 3.2 Materialien und Methoden 23 3.2.1 Polyhydroxybutyrate und Porogene 23 3.2.2 Uniaxiales Heißpressen 24 3.2.3 Mikrographie 26 3.2.4 Dynamische Differenzkalorimetrie (DSC) 26 3.2.5 Mechanische Druckversuche 26 3.2.6 Mikrocomputertomographie (μCT) 27 3.2.7 Zellviabilität auf den Scaffolds 28 3.3 Ergebnisse 29 3.3.1 Mikrographie 29 3.3.2 Mikrocomputertomographie (μCT) 33 3.3.3 Druckversuche 37 3.3.4 Dynamische Differenzkalorimetrie (DSC) 40 3.3.5 Zellviabilität 40 3.4 Diskussion 40 3.5 Schlussfolgernde Zusammenfassung 46 4. Degradation von P3HB-Fasern 47 4.1 Degradation von Polyhydroxyalkanoaten 47 4.2 Materialien und Methoden 49 4.2.1 Herstellung und Vorbehandlung textiler P3HB-Konstrukte 49 4.2.2 Mechanische Prüfung 50 4.2.3 Beschleunigte Degradation 50 4.2.4 Untersuchung der Oberfläche 50 4.2.5 Dynamische Differenzkalorimetrie (DSC) 51 4.2.6 Gel-Permeations-Chromatographie (GPC) 51 4.3 Ergebnisse 52 4.3.1 Mechanische Tests 52 4.3.2 Die Charakterisierung der Oberfläche 52 4.3.3 Thermische Fasereigenschaften.55 4.3.4 Untersuchung der Molekulargewichte in der GPC 58 4.4 Diskussion 60 4.5 Schlussfolgernde Zusammenfassung 64 5. hMSC auf textilen Scaffolds 67 5.1 Einleitung 67 5.2 Material und Methoden 68 5.2.1 Erzeugung der P3HB-Scaffolds 68 5.2.2 Die Immobilisierung der EZM-Komponenten auf den Scaffolds 69 5.2.3 Isolation, Vorkultur, Besiedlung und Kultur der humanen mesenchymalen Vorläuferzellen 69 5.2.4 Kombinierte Bestimmung von ALP, MTT und Proteingehalt 71 5.2.5 Mikroskopische Untersuchungen 72 5.2.6 Nachweis der Kalziummineralisierung 73 5.2.7 Quantitative real time reverse transcribing polymerase chain reaction (rt-PCR) 73 5.2.8 cRNA Microarray-Untersuchung 74 5.2.9 Zusätzliche Experimente 75 5.3 Ergebnisse 76 5.3.1 Vorhergehende Untersuchung 76 5.3.2 Rasterelektronen-Mikroskopie 77 5.3.3 Konfokale Laser-Scanning-Mikroskopie 79 5.3.4 ALP-Aktivität, SDH-Aktivität und Proteingehalt 82 5.3.5 Mineralisierende Kalziumabscheidung 86 5.3.6 rt-PCR 87 5.3.7 cRNA Microarray-Untersuchung 90 5.3.8 Kulturen von hMSC mit Chondroitinsulfat als gelöstem Zusatz 93 5.4 Diskussion 93 5.5 Schlussfolgernde Zusammenfassung 98 6. Zusammenfassung 101 info:eu-repo/classification/ddc/620 ddc:620
77	Identification and Characterization of SNAPIN as a Novel Antagonist of HIV-1 Egress: A Dissertation Younan, Patrick 05 April 2010 (has links) Vpu has been shown to possess two distinct roles in the pathogenesis of HIV. First, Vpu has been shown to down-regulate the expression of CD4 molecules at the plasma membrane of infected cells by targeting CD4 molecules for degradation in the endoplasmic reticulum. Second, Vpu promotes viral egress in specific cell lines termed non-permissive cells by mechanism that remain relatively unclear. Therefore, experiments were conducted in order to identify cellular factors involved in the Vpu-dependent phenotype. Using full-length Vpu as bait in yeast two-hybrid experiments, several candidate cellular factors were identified. One protein, SNAPIN, was identified as a cellular factor putatively involved in the Vpu-dependent phenotype. Further experiments determined that not only do SNAPIN and Vpu interact, but that Vpu also leads to the degradation of SNAPIN by both proteasomal and lysosomal degradation pathways. Over-expression of SNAPIN in cell lines that do not normally require Vpu expression for viral production resulted in a Vpu-dependent phenotype. While over-expression of SNAPIN in otherwise permissive cell lines significantly reduced Vpu-deficient virus production, wild type levels remained relatively constant. Importantly, no defective viral structural protein production was observed; however, intracellular p24/p55 did not accumulate suggesting that in SNAPIN expressing cells, Gag is also targeted for degradation. In addition, the reduction of SNAPIN expression in non-permissive cell lines significantly increased viral titers in supernatants. Of particular interest, even in cells expressing Bst-2 (a previously identified cellular factor involved in the Vpu-phenotype), siRNA mediated knockdown of SNAPIN led to increased viral titers. In addition, the co-transfection of siRNAs targeting both SNAPIN and Bst-2 resulted in an additive effect, in which Vpu-deficient viral titers were nearly equivalent to wild-type titers. Surprisingly, siRNA-mediated knockdown of SNAPIN in Jurkat cells was sufficient to overcome any restriction in viral egress imposed by the deletion of Vpu. Conversely, siRNA targeting Bst-2 had little or no effect on viral titers in Jurkat cells regardless of whether it was transfected alone or in combination with siRNAs targeting SNAPIN. These experiments provide evidence of an alternate cellular restriction mechanism involved in viral egress that is countered by the HIV-1 accessory protein, Vpu. In addition, this research may provide further insight into the complex cellular networks involved in the trafficking of Gag through cellular endosomal pathways. Human Immunodeficiency Virus Proteins Viral Regulatory and Accessory Proteins Vesicular Transport Proteins Genes vpu HIV-1 Virus Release Gene Products gag Amino Acids, Peptides, and Proteins Cells Genetic Phenomena Pathology Viruses
78	The Role of Adaptor Protein Complex-3 Delta-Mediated HIV-1 Gag Trafficking in HIV-1 Replication: A Dissertation Kim, Adonia Lee 18 May 2012 (has links) The process of HIV-1 particle production is a multi-step process directed by the viral structural protein Gag. As Gag is the only viral protein required to form virus-like particles, it presents a viable target for anti-viral therapeutics of which there are currently none. Although the functions of Gag during the particle assembly process have been well characterized, one of the least known parts of the assembly process is how Gag is targeted to the site of virus assembly. Two main virus assembly sites have been identified in cells that support HIV-1 replication: the plasma membrane or multivesicular bodies (MVBs). However the mechanism by which Gag is targeted to either of these sites remains unknown. The δ subunit of Adaptor Protein Complex 3 has previously been identified as a cellular co-factor for HIV-1 Gag and was reported to mediate Gag trafficking to MVBs, providing a mechanism for Gag targeting to this assembly site. Additionally, AP-3δ was reported to be required for HIV-1 production, suggesting that Gag to MVB targeting is also required for HIV-1 production. The work presented in this thesis further investigates the role of AP-3δ in Gag trafficking to MVBs and its role in HIV-1 production in previously unexplored host environments. Through the use of RNA interference-mediated depletion of AP-3δ, we determined that AP-3δ is dispensible for virus replication in infected HeLa cells, chronically infected HeLa-LAV cells and infected primary human monocyte-derived macrophages. We concomitantly disrupted AP-3 function by disrupting its association with membranes and observed no effect on virus production. Collectively, these results demonstrate that AP-3δ is not required for HIV-1 replication. However, AP-3δ was demonstrated to be required for Gag targeting to MVBs thus presenting a new model for the function of AP-3δ in the context of HIV-1 replication. Adaptor Protein Complex 3 gag Gene Products Human Immunodeficiency Virus Adaptor Protein Complex delta Subunits Multivesicular Bodies Amino Acids, Peptides, and Proteins Cells Genetic Phenomena Microbiology Pathology Therapeutics Viruses
79	The Role of APOBEC3 in Controlling Retroviral Spread and Zoonoses Rosales Gerpe, María Carla January 2014 (has links) APOBEC3 (A3) proteins are a family of host-encoded cytidine deaminases that protect against retroviruses and other viral intruders. Retroviruses, unlike other viruses, are able to integrate their genomic proviral DNA within hours of entering host cells. A3 proteins hinder retroviral infectivity by editing retroviral replication intermediates, as well as by inhibiting retroviral replication and integration through deamination-independent methods. These proteins thus constitute the first line of immune defense against endogenous and exogenous retroviral pathogens. The overall goal of my Master's project was to better understand the critical role A3 proteins play in restricting inter- and intra-host transmission of retroviruses. There are two specific aspects that I focused on: first, investigating the role of mouse APOBEC3 (mA3) in limiting the zoonotic transmission of murine leukemia retroviruses (MLVs) in a rural environment; second, to identify the molecular features in MLVs that confer susceptibility or resistance to deamination by mA3. For the first part of my project, we collected blood samples from dairy and production cattle from four different geographical locations across Canada. We then designed a novel PCR screening strategy targeting conserved genetic regions in MLVs and Mouse Mammary Tumor Virus (MMTV) and MMTV-like betaretroviruses. Our results indicate that 4% of animals were positive for MLV and 2% were positive for MMTV. Despite crossing the species barrier by gaining entry into bovine cells, our study also demonstrates that the bovine A3 protein is able to potently inhibit the spread of these murine retroviruses in vitro. The next question we asked was whether mA3 could also mutate and restrict murine endogenous retroviruses and thereby partake in limiting zoonotic transmission. Moloney MLV and AKV MLV are two highly homologous murine gammaretroviruses with opposite sensitivities to restriction by mA3: MoMLV is resistant to restriction and deamination while AKV is sensitive to both. Design of MoMLV/AKV hybrid viruses enabled us to map the region of mA3 resistance to the region encoding the glyco-Gag accessory protein. Site-directed mutagenesis then allowed us to correlate the number of N-linked glycosylation sites with the level of resistance to deamination by mA3. Our results suggest that Gag glycosylation is a possible viral defence mechanism that arose to counteract the evolutionary pressure imposed by mA3. Overall, my projects show the important role A3 proteins play in intrinsic immunity, whether defending the host from foreign retroviral invaders or endogenous retroviral foes. APOBEC3 deamination restriction factor HIV retrovirus accessory protein gammaretrovirus glycosylation glyco-Gag zoonosis N-linked glycosylation retroviral transmission cattle bovine mice murine endogenous retroviruses exogenous retroviruses Moloney murine leukemia virus Akv murine leukemia virus Friend murine leukemia virus XMRV Mouse mammary tumor virus MMTV cancer cytidine deaminases A3G mouse APOBEC3 mA3 hypermutation inhibition retroviral spread fitness
80	A unique serpin P1′ glutamate and a conserved β-sheet C arginine are key residues for activity, protease recognition and stability of serpinA12 (vaspin) Ulbricht, David, Pippel, Jan, Schultz, Stephan, Meier, René, Sträter, Norbert, Heiker, John T. 06 March 2019 (has links) SerpinA12 (vaspin) is thought to be mainly expressed in adipose tissue and has multiple beneficial effects on metabolic, inflammatory and atherogenic processes related to obesity. KLK7 (kallikrein 7) is the only known protease target of vaspin to date and is inhibited with a moderate inhibition rate. In the crystal structure, the cleavage site (P1-P1′) of the vaspin reactive centre loop is fairly rigid compared with the flexible residues before P2, possibly supported by an ionic interaction of P1′ glutamate (Glu379) with an arginine residue (Arg302) of the β-sheet C. A P1′ glutamate seems highly unusual and unfavourable for the protease KLK7. We characterized vaspin mutants to investigate the roles of these two residues in protease inhibition and recognition by vaspin. Reactive centre loop mutations changing the P1′ residue or altering the reactive centre loop conformation significantly increased inhibition parameters, whereas removal of the positive charge within β-sheet C impeded the serpin–protease interaction. Arg302 is a crucial contact to enable vaspin recognition by KLK7 and it supports moderate inhibition of the serpin despite the presence of the detrimental P1′ Glu379, which clearly represents a major limiting factor for vaspin-inhibitory activity. We also show that the vaspin-inhibition rate for KLK7 can be modestly increased by heparin and demonstrate that vaspin is a heparin-binding serpin. Noteworthily, we observed vaspin as a remarkably thermostable serpin and found that Glu379 and Arg302 influence heat-induced polymerization. These structural and functional results reveal the mechanistic basis of how reactive centre loop sequence and exosite interaction in vaspin enable KLK7 recognition and regulate protease inhibition as well as stability of this adipose tissue-derived serpin. info:eu-repo/classification/ddc/572 ddc:572

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