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51	Desenvolvimento de imunossensor para detecção de hemorragia feto – materna (HFM) Nishio, Suelen de Souza Assunpção January 2019 (has links) Orientador: Elenice Deffune / Resumo: A Hemorragia feto-materna (HFM) se dá pela transferência do sangue fetal para o compartimento intravascular materno, devido à ruptura na membrana vásculo-sincicial da placenta. A HFM pode ser responsável pela alosensibilização do sistema imune materno, levando a morbidade e mortalidade de gravidez corrente e/ou de futura, assim como também constitui a base da etiopatogenia de várias afecções, como se verifica na doença hemolítica perinatal que expõe a complicações fetais como, hidropsia, danos cerebrais hipóxicos e morte fetal. Detectar e quantificar hemácias fetais ajuda a prevenir as consequências devida a ocorrência da HFM. Entre os testes diagnósticos utilizados na detecção e quantificação têm - se os mais sensíveis o teste quantitativo de Kleihauer e Betke e o de Citometria de fluxo, sendo o primeiro considerado padrão ouro. Tendo em vista a importância do diagnóstico laboratorial da HFM foi desenvolvida a proposta da construção de imunossensor para detecção de amostras de sangue fetal na corrente sanguínea materna. Foi realizada a produção de anticorpo monoclonal com objetivo de produzir anticorpos contra antígenos de superfícies de hemácias fetais humana e também foram realizadas a construção de unidades sensoriais para detecção de sinal biológico de imunoafinidade entre anticorpos que detectam hemácias fetais e a hemoglobina fetal presente nestas células, a fim de se diagnosticar a ocorrência da HFM. Foram obtidos como resultados a produção de anticorpo monoclonal que... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Fetomaternal hemorrhage (FMH) occurs through the transfer of fetal blood into the maternal intravascular compartment, due to rupture in the placenta-syncytial membrane. FMH may be responsible for the alosensitization of the maternal immune system, leading to morbidity and mortality of current and / or future pregnancies, as well as being the basis of the etiopathogenesis of various conditions, as in perinatal haemolytic disease that exposes to fetal complications such as hydrops, hypoxic brain damage, and fetal death. Detecting and quantifying fetal erythrocytes helps to prevent the consequences due to the occurrence of FMH. Among the diagnostic tests used in the detection and quantification are the most sensitive the quantitative test of Kleihauer and Betke and the one of Flow cytometry, being the first considered gold standard. Considering the importance of the laboratory diagnosis of FMH, the proposal of the construction of immunosensor for the detection of fetal blood samples in the maternal blood was developed. The production of a monoclonal antibody was carried out with the objective of producing antibodies against antigens on human fetal red blood cells and also the construction of sensorial units for the detection of biological signal of immunoaffinity between antibodies that detect fetal red blood cells and the fetal hemoglobin present in these cells, in order to diagnose the occurrence of FMH. The results obtained are the production of monoclonal antibody that detec... (Complete abstract click electronic access below) / Mestre Anticorpo monoclonal Biossensor Hemorragia feto – materna Imunossensor Monoclonal antibody Biosensor Fetomaternal hemorrhage Immunosensor
52	Estudo de marcação do anticorpo monoclonal anti-PBP2a com 99mTc / The labelling of antibody anti-PBP2a with 99mTc Janio da Silva Mororó 04 September 2012 (has links) Staphylococcus aureus é um dos principais microorganismos causadores de infecção em humanos, podendo causar inclusive bacteremia e endocardite nos indivíduos infectados. Diversas cepas desta bactéria apresentam resistência a diferentes tipos de antibióticos, dentre eles os antibióticos meticilina e amoxicilina, como no caso da bactéria Staphylococcus aureus resistente à meticilina (MRSA). A Proteína ligadora de Penicilina 2a (PBP2a) é a enzima responsável por conferir resistência para a MRSA aos antibióticos β-lactâmicos, sendo uma molécula promissora para terapia com AcM. No entanto, além das terapias os métodos de diagnóstico também são ineficientes, pois atualmente o diagnóstico leva vários dias para produzir um resultado confiável. O objetivo deste trabalho foi desenvolver um radiofármaco utilizando o AcM anti-PBP2a, desenvolvido em Bio-Manguinhos/FioCruz, marcado com 99mTc, para identificação in situ do foco infeccioso causado por MRSA. Neste trabalho, incialmente o AcM anti-PBP2a foi reduzido com o agente redutor 2-mercaptoetanol (2-ME), para gerar grupos sulfidrilas (- SH). Logo após foram utilizados dois diferentes métodos da Marcação Direta: o Método 1, utilizando o reagente tartarato e o ácido gentísico, que atuam como agente transquelante e estabilizador, respectivamente; e o Método 2, utilizando um kit comercial de MDP, no qual o MDP atua como agente transquelante. Após a marcação do anticorpo, o radiofármaco foi submetido a ensaios de avaliação funcional, utilizando os métodos de eletroforese em gel SDS-PAGE não redutor; Immunoblotting; ELISA e o Ensaio de Neutralização in vitro. Como resultado foi visto que a quantidade média de grupos sulfidrilas produzida por AcM foi considerada satisfatória, cerca de 5 grupos SH por IgG, utilizando para isto a relação molar de 6.500:1 de 2-ME:AcM. O Método 2 foi o método que obteve melhor rendimento de marcação, com 73,5%, apresentando boa estabilidade depois de 2 horas (73,2%). A melhor formulação utilizada foi a seguinte: 0,5 mg de AcM anti-PBP2a; 10 μL do kit do MDP, depois de ser resuspendido com 5 mL de solução salina; e 75,48 MBq (2,04 mCi) de 99mTc, a reação ocorrendo em 15 minutos. Os Ensaios de Avaliação Funcional demonstraram que o AcM manteve a especificidade e afinidade de ligação à PBP2a. / Staphylococcus aureus is a major cause of life-threatening infections such as bacteremia and endocarditis. Unfortunately, many strains of this bacterial species have become resistant to certain antibiotics, including methicillin and amoxicillin. These strains are known as methicillin-resistant S. aureus (MRSA). The penicillin binding protein 2a (PBP2a) is the enzyme responsible for conferring resistance β-lactams antibiotics for MRSA, being one promising molecule for therapy with mAb. However, besides the therapy, the methods of diagnosis are also inefficient because the diagnosis currently takes several days to produce a reliable result. Taking into account, the objective of this research was radiolabeling one anti-PBP2a mAb developed by Bio-Manguinhos/FioCruz-RJ, utilizing 99mTc, for in situ diagnostic of the infectious caused by MRSA. First, anti-PBP2a mAb was reduced utilizing 2-mecaptoethanol (2-ME) for generate sulphydryl groups (-SH) and after to be labeled with 99mTc. In this work, were utilized two techniques of direct method: Method 1, using tartrate and gentisic acid reagents, acting like transchelant and stabilizer agents, respectively; and Method 2, using one commercial kit of MDP. Besides the radiolabeling, the mAb reduced and mAb labeled with 99mTc were submitted to immunoreactivity analysis, with SDS-PAGE non-reducing, Immunoblotting, ELISA and neutralization assay in vitro methods. The quantity produced of sulphydryl groups by mAb was satisfactory, approximately 5 per mAb, utilizing 6.500:1 of 2-ME:mAb molar ratio. The better labeling method was Method 2, with labeling yield of 73.5%, and showed a good stability after 2 hours (73.2%). The better formulation was: 0.5 mg of mAb anti- PBP2a, 10 μL of MDP kit, after resuspended with 5 mL of saline, and 75.48 MBq (2.04 mCi) of 99mTc, reacting by 15 minutes. The labeled mAb maintained the immunoreactivity, utilizing immunologic and in vitro experiments. 99mTc anticorpo monoclonal diagnóstico infecção hospitalar MRSA 99mTc diagnosis hospital infecious monoclonal antibody MRSA
53	The generation of monoclonal antibodies to investigate perlecan turnover in cells and tissues Ma, Jin, Graduate School of Biomedical Engineering, Faculty of Engineering, UNSW January 2008 (has links) Perlecan is an important basement membrane heparan sulfate (HS) proteoglycan that is essential for various cell signaling events involved in tissue development. Heparanase is a lysosomal enzyme involved in the turnover of HS. This project aimed to assist in researching the structure of HS on perlecan and how this structure changes with tissue development. This will be achieved by generating monoclonal antibodies that have an altered affinity for perlecan after heparanase treatment. Recombinant perlecan domain I was characterized by ELISA and western blotting and used as the antigen for two fusions. The first fusion was focused on the production of IgM the common subtype of anti-glycosaminoglycans antibodies. However, no clones were produced, which may have been due to the lack of feeder layers. In order to address this problem, the fibroblast cell line MRC-5 was used as a feeder layer in the second fusion. From this fusion, we obtained 216 positive cultures, which were screened against full length perlecan from endothelial cells. Of these, 26 cultures were tested against heparanase treated perlecan, and then 2 cultures were chosen for subcloning based on the different immunoreactivity between enzyme treated and nontreated perlecan. From the 2 chosen cultures, 13 sub clones were derived and 10 of them were adapted into a serum free culture environment. The 10 monoclonal antibodies displayed strong immunoreactivity with full length perlecan in ELISA and Western Blotting. When they were used as primary antibodies in Immunocytochemistry, they were able to recognize the native perlecan deposited by human chondrocytes. When the cells were incubated with heparanase, antibody 5D7-2E4 and 13E9-3G5 showed an increase in immunoreactivity while antibody 13E9-3B3 gave a decrease. These three antibodies will be the potential tools used in the future to study perlecan turnover in different cells and tissue. The remaining seven antibodies will also be very useful in the research of perlecan as they have been shown to bind to the protein core. In the future, it will be worth subcloning some of the frozen stored stocks of uncloned hybridomas, where there are potential opportunities to select antibodies, which will react with the carbohydrate chains on perlecan. Heparanase. Perlecan. Heparan sulfate proteoglycan Monoclonal antibody. Basement membrane. Monoclonal antibodies. Hybridomas. Cells. Tissues.
54	An Immunological Investigation of Salivary Gland Antigens of the Australian Paralysis Tick Ixodes holocyclus for the Development of Toxin-Specific Immunoassays Sonja Hall-Mendelin Unknown Date (has links) The Australian paralysis tick, Ixodes holocyclus causes a potentially fatal paralysis in domestic animals, livestock and humans with companion animals (mainly dogs) most commonly affected. Current treatment regimes include administration of a commercial tick anti-serum (TAS), prepared as hyperimmune serum in dogs, to neutralise the effects of the toxin. However, each new batch must be standardised using an expensive and highly subjective bioassay performed in neonatal mice. There is currently an urgent need for a more cost effective and rapid in vitro assay that can be more objectively and accurately quantified. Further understanding of the composition of the toxin molecule is also required to develop toxin-specific reagents necessary for these assays. One of the main objectives of this study was to develop a suitable immunoassay to replace the existing mouse bioassay for assessing batches of tick anti-sera for use in tick paralysis therapy in dogs. Initially an enzyme-linked immunosorbent assay (ELISA) was established to detect and quantify antibody specific for I. holocyclus toxin in dog sera. Using a partially purified antigen extracted from I. holocyclus salivary glands, good discrimination was achieved between reactive (hyperimmune) and non-reactive (naïve) sera. The hyperimmune dog sera reacted very strongly with the antigen compared to negligible reactions of serum from dogs not exposed to I. holocyclus. The reactions of hyperimmune sera were also significantly weaker to a non-toxin antigen control extracted from the salivary glands of the non-toxic tick Rhipicephalus microplus, indicating the assay was detecting toxin-specific responses. Furthermore, each of the hyperimmune sera that reacted strongly and specifically with the I. holocyclus antigen in the ELISA also strongly neutralised toxin in the mouse bioassay. Together these findings support the suitability of this ELISA for assessing the potency of batches of commercial dog hyperimmune sera for use as therapy for tick paralysis in dogs. Sera from dogs that were experimentally infested with ticks and sera from patient dogs, presenting at veterinary clinics with signs of tick paralysis, were also screened for antibodies to I. holocyclus antigen using the ELISA. Twenty-eight out of 29 sera from animals with single or multiple exposures to ticks failed to recognise the I. holocyclus antigen indicating the ELISA is not suitable as a diagnostic test to detect toxin-specific antibodies in animals with limited exposure to I. holocyclus infestation. A panel of toxin-specific monoclonal antibodies (mAbs) was produced as research tools to analyse and purify tick toxin components. Rats were successfully immunised against tick toxin using a combination of inoculation of partially purified salivary gland antigen and exposure to tick infestation. The latter approach preserved the native confirmation of the toxin using a natural route of immunisation and rats were chosen due to their high tolerance of multiple tick infestations over several days. While fusion of rat spleen cells with mouse myeloma cells has been reported several times in the literature, the resulting hybridomas are unstable with fastidious culture requirements. Optimisation of the culture conditions revealed that most rat-mouse hybridoma lines grew best in serum-free medium supplemented with 5% foetal bovine serum. Of 600 hybridomas produced, only 12 were shown to be specific for the Ixodes antigen, as determined by ELISA. A selection of these hybridomas representing various patterns of affinity and/or antigen specificity were further analysed for toxin-neutralising ability in a mouse bioassay. Notably, the most potent toxin-neutralising mAb in mice, showed a specific but relatively moderate reaction to Ixodes antigen in the ELISA. The most potent toxin-neutralising mAbs inactivated toxin as strongly as the commercial TAS used for immunotherapy in dogs with tick paralysis. This suggests that mAbs may present an alternative source of immunotherapy, providing a potentially endless supply of a highly consistent reagent and negating the need to use live animals for both the production of tick antiserum and the continual testing of reagent batches. The toxin-neutralising mAbs were also used to analyse I. holocyclus toxin in polyacrylamide gel electrophoresis (PAGE) and Western blot to identify specific toxin proteins. The most potent neutralising mAbs consistently recognised high MW proteins (100-200 kDa) in a smeared pattern. Although this was contrary to previous reports of low molecular weight components (3-5 kDa) in holocyclotoxin, this study was the first to use mAbs prepared to native toxin. The large molecular weight structures likely represent presucursors to, or complexes of the smaller peptides, previously identified. When the Toxin-neutralising mAbs were assessed as ligands to affinity purify toxin components from crude Ixodes SG extracts, toxin components of 110 and 32 kDa were consistently identified. These purified proteins represent good candidates for N-terminal sequencing to further identify the toxin components in I.holocyclus salivary glands. 03 Chemical Sciences
55	Characterization of mechanisms involved in rickettsia pathogenicity Vellaiswamy, Manohari 23 November 2011 (has links) (PDF) Les rickettsies sont de petites bactéries à Gram-négatif associées à différentes espèces d'arthropodes. Leur nature intracellulaire stricte a longtemps été un obstacle à la compréhension des mécanismes moléculaires responsables de leur pathogénicité qui restent mal connus. L'adhésion bactérienne, qui est une étape clef de l'invasion des tissus de l'hôte, met en jeu les protéines rOmpA et rOmpB (rickettsial outer membrane proteins), identifiées depuis longtemps comme des antigènes de surface majeurs des rickettsies. L'objectif de cette thèse a été de caractériser une autre adhésine potentielle de Rickettsia prowazekii récemment identifiée, soit Adr2. La stratégie mise en œuvre a été basée sur la production d'anticorps monoclonaux spécifiques de cette protéine, dont une forme recombinante a été exprimée. Cet outil a permis, non seulement de localiser Adr2 à la surface des rickettsies, mais aussi d'apporter la preuve de son rôle dans le phénomène invasif puisque les anticorps anti-Adr2 diminuent significativement la cytotoxicité des rickettsies sur les cellules épithéliales. Un autre aspect de la pathogénicité que nous avons abordé concerne la mobilité des rickettsies du groupe boutonneux, fonction attribuée à la protéine RickA lorsque ce travail a été initié. La résolution des images obtenues par immunofluorescence, ou par microscopie électronique après marquage immunogold, montrent que l'expression de RickA est non-polarisée et répartie sur la surface entière de Rickettsia conorii. Enfin, plusieurs protéines recombinantes ont été utilisées dans des tests de screening sérologiques avec des sérums de patients infectés par diverses rickettsies, avec des résultats encourageants. L'ensemble de ces résultats contribue à une meilleure connaissance de la pathogénicité des bactéries du genre Rickettsia. Rickettsia monoclonal antibody adhesin
56	Contrôle de la réaction allogénique par les lymphocytes T régulateurs naturels / Control of the allogeneic reaction by naturally occuring regulatory T cells Benghiat, Fleur Samantha 18 December 2007 (has links) Le polymorphisme et le polygénisme des complexes majeurs d’histocompatibilité (CMH) limitent les succès de la transplantation. En effet, les disparités, tant d’antigènes mineurs que majeurs, exposent le patient transplanté au risque de rejet et imposent l’administration d’un traitement immunosuppresseur. Ce dernier affecte de façon non spécifique l’ensemble des réponses immunitaires et augmente le risque d’infections mortelles et de cancers. En outre, ce traitement ne semble pas prévenir le rejet chronique. Des découvertes récentes ont confirmé l’existence de lymphocytes appelés régulateurs (Tregs) dont le rôle est de garantir l’homéostasie des réponses immunes afin qu’elles ne deviennent incontrôlées et pathologiques. Les Tregs classiquement décrits expriment de manière constitutive l’antigène CD4+, la chaîne alpha du récepteur de l’interleukine (IL)-2 (CD25) et le facteur de transcription Foxp3. Ils représentent 5 à 10% des lymphocytes CD4+ totaux. Les Tregs sont capables de réguler des lymphocytes alloréactifs et ont été décrits comme responsables du maintien de la tolérance d’allogreffe chez la souris. Mais jusqu'alors, les modèles employés pour démontrer l'importance des Tregs en transplantation utilisaient soit un traitement immunosuppresseur transitoire, soit des transferts de cellules T dans des souris lymphopéniques. Toutefois, ces derniers ne permettent pas de distinguer l'effet des Tregs sur la prolifération homéostatique des lymphocytes effecteurs de leur effet sur la réponse allogénique. Dans notre travail, nous montrons que les Tregs jouent un rôle prépondérant dans l’acceptation spontanée d’allogreffes en l’absence d’immunosuppresseur et en dehors d’un contexte lymphopénique chez la souris. En effet, la déplétion des Tregs du receveur par l’administration d’anticorps anti CD25 amplifie les réponses allogéniques de type Th1 et Th2 et, par conséquent, déclenche le rejet d’allogreffe. Les propriétés régulatrices des Tregs ne sont cependant pas illimitées. En effet, dans un second travail, nous décrivons, d’une part, leur incapacité à contrôler la production d’IL-17 par des lymphocytes CD4+CD25pos mémoires et, d’autre, part leur implication directe dans la différenciation de cellules Th17 au départ de lymphocytes CD4+CD25neg alloréactifs. Nous concluons donc que si les Tregs naturellement présents chez le receveur jouent un rôle primordial dans la protection du greffon contre des réponses de type Th1 ou Th2, ils pourraient néanmoins favoriser une voie alterne du rejet d’allogreffe dépendante de l’IL 17. / Major histocompatibility complex (MHC) polymorphism is a major hindrance to transplantation success. Both minor and major antigen disparities between donor and recipient increase the risk of transplant rejection. This is thwarted by the administration of an immunosuppressive therapy that unspecifically affects all immune responses therefore increasing the risk of infections and cancers. Besides, this treatment does not seem to prevent chronic rejection. Recent studies have confirmed the existence of lymphocytes called regulatory T cells (Tregs), whose role is to maintain the general immune homeostasis and to protect the individual from autoimmune diseases. The classically described Tregs express constitutively the CD4 antigen, the alpha chain of the interleukin (IL)-2 receptor (CD25) and the transcription factor Foxp3. They represent 5 to 10% of total CD4+ T cells. Tregs are able to control alloreactive responses and were described to be responsible for the maintenance of allograft tolerance in mice. So far, the tolerogenic capacities of Tregs have been demonstrated either in mice treated with immunomodulatory antibodies (induced Tregs) or by adoptive co-transfer of Tregs and effector cells into lymphopenic mice. However, the latter has the disadvantage of not being able to distinguish the effect of Treg on lymphopenia-induced homeostatic proliferation from their effect on alloreactive responses. Herein, we show that Tregs play a crucial role in spontaneously accepted allografts in the absence of immunosuppressive therapy and in non-lymphopenic condition. Indeed, the depletion of the recipient’s Tregs through the administration of an anti-CD25 antibody enhances type Th1 and type-Th2 allogeneic responses, consequently triggering allograft rejection. However, the regulatory properties of Tregs are not unlimited. Indeed, we found that Tregs are unable to control allogeneic IL-17 production by memory CD4+ T cells and are even necessary for de novo Th17 differentiation. We conclude, therefore, that Tregs naturally present in the recipient play a critical role in protecting the allograft. Nevertheless, despite this context of regulation, IL-17-producing alloreactive T cells, beyond the control of Tregs, could mediate an alternative pathway of allograft rejection. anticorps anti-CD25 Réaction mixte lymphocytaire regulation régulation/ Mixed lymphocyte reaction anti-CD25 monoclonal antibody
57	Aβ Conformation Dependent Antibodies and Alzheimer's Disease Sehlin, Dag January 2010 (has links) Soluble intermediates of the amyloid-β (Aβ) aggregation process are suggested to play a central role in the pathogenesis of Alzheimer’s disease (AD) by causing synaptic dysfunction and neuronal loss. In this thesis, soluble Aβ aggregates have been studied with a particular focus on the Aβ protofibril, which has served as the antigen for developing conformation dependent monoclonal antibodies. Antibodies generated from mice immunized with Aβ protofibrils were characterized regarding Aβ binding properties and the amino acid sequences of their antigen binding sites. A conformation dependent IgG antibody, mAb158, was further characterized and found to bind to Aβ protofibrils with a 200-fold higher affinity than to monomeric Aβ without affinity for soluble amyloid-β precursor protein (AβPP) or other amyloidogenic proteins. A sandwich enzyme-linked immunosorbent assay (ELISA) based on mAb158 was used to measure soluble Aβ protofibrils in brain extracts from AβPP-transgenic mice. Low levels of protofibrils could also be detected in human AD brain. However, positive signals generated from measurements in AD and control CSF samples were attributed to interference from heterophilic antibodies (HA), generating false positive signals by cross-binding the assay antibodies; consequently, a study on HA interference in Aβ oligomer ELISAs was initiated. A large set of plasma and CSF samples from AD and non-AD subjects were analyzed with and without measures taken to block HA interference, revealing that virtually all signals above the assay limit of detection were false and generated by HA interference. Many types of soluble Aβ aggregates have been described and suggested to impair neuron and synapse function. To investigate the soluble Aβ pool, synthetic Aβ and brain extracts from AβPP-transgenic mice and AD patients were ultracentrifuged on a density gradient to separate Aβ by size under native conditions. Four distinct gradient fractions were defined based on the appearance of synthetic Aβ in atomic force microscopy (AFM) and immunoreactivity in our protofibril specific sandwich ELISA. Interestingly, most Aβ from AD patients and AβPP-transgenic mice separated in the same fraction as toxic synthetic protofibrils. Alzheimer's disease amyloid-beta protofibrils conformation monoclonal antibody ELISA MEDICINE MEDICIN
58	Design and verification of a surface plasmon resonance biosensor Sommers, Daniel R. 18 August 2004 (has links) The Microelectronics Group has been researching sensors useful for detecting and quantifying events in biological molecular chemistry, for example, binding events. Our previous research has been based primarily on quartz resonators. This thesis describes the results of our initial research of Surface Plasmon Resonance (SPR) based technology. This study contains the design and implementation of a fully functional SPR biosensor with detailed disclosure of monolayer construction, digital hardware interfaces and software algorithms for process the SPR sensors output. An antibody monolayer was constructed on the biosensor surface with the goal of setting the strengths, weaknesses and limitation of measuring molecular events with SPR technology. We documented several characteristics of molecular chemistry that directly effect any measurements made using Surface Plasmon Resonance technology including pH, free ions, viscosity and temperature. Furthermore, the component used in our study introduced additional limitations due to wide variations amongst parts, the constraint of a liquid medium and the large surface area used for molecular interrogation. We have identified viable applications for this sensor by either eliminating or compensating for the factors that affect the measured results. This research has been published at the inaugural IEEE sensors conference and to our knowledge is the first time a biosensor has been constructed by attaching a sensor to a PDA and performing all signal processing, waveform analysis and display in the PDAs core processor. SPR Wireless biosensor Immunoassay sensors Monoclonal antibody Surface plasmon resonance Surface plasmon resonance Biosensors Design and construction
59	DNA Damage Response Suppresses Epstein-Barr Virus-Driven Proliferation of Primary Human B Cells Nikitin, Pavel A. January 2012 (has links) <p>The interaction of human tumor viruses with host growth suppressive pathways is a fine balance between controlled latent infection and virus-induced oncogenesis. This dissertation elucidates how Epstein-Barr virus interacts with the host growth suppressive DNA damage response signaling pathways (DDR) in order to transform infected human B lymphocytes. </p><p> Here I report that the activation of the ATM/Chk2 branch of the DDR in hyper-proliferating infected B cells results in G1/S cell cycle arrest and limits viral-mediated transformation. Similar growth arrest was found in mitogen-driven proliferating of B cells that sets the DDR as a default growth suppressive mechanism in human B cells. Hence, the viral protein EBNA3C functions to attenuate the host DDR and to promote immortalization of a small portion of infected B cells. Additionally, the pharmacological inhibition of the DDR in vitro increases viral immortalization of memory B cells that facilitates the isolation of broadly neutralizing antibodies to various infectious agents. Overall, this work defines early EBV-infected hyper-proliferating B cells as a new stage in viral infection that determines subsequent viral-mediated tumorigenesis.</p> / Dissertation Virology Genetics Oncology B cell Chk2 DNA damage response EBNA-3C Epstein-Barr virus monoclonal antibody
60	Designing a point-of-care detection assay for tuberculosis Sarkar, Susmita Unknown Date No description available. Bispecific monoclonal antibody Point of care assay Tuberculosis Chemical treatment of serum sample

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