Global ETD Search

41	Etude du transfert du VIH-1 des cellules présentatrices d'antigènes aux lymphocytes T CD4 primaires et inhibition par les anticorps neutralisants / Study of HIV-1 transfer from antigen presenting cells to primary CD4 T lymphocytes and inhibition by neutralizing antibodies Proust, Alizé 20 September 2013 (has links) Les cellules présentatrices d'antigènes (APCs) présentes dans les muqueuses comptent parmi les première cibles du VIH-1 et participent à sa dissémination dans l'organisme. Durant ma thèse, j'ai étudié le transfert du VIH des macrophages (Mφ) et des cellules dendritiques (DCs) aux lymphocytes T. J'ai montré que ces APCs transfèrent efficacement le virus aux lymphocytes par le biais de différents mécanismes: transfert direct en trans dans les coculture Mφ/T, et transfert en cis (suite à la production de nouveaux virions) dans les DCs/T. Ces deux modes de transfert sont inhibés par les anticorps neutralisants (AcN). De manière intéressante, certains AcN anti-gp120 inhibaient plus efficacement le transfert du VIH dans les cocultures Mφ/T que dans les cocultures DCs/T et l'infection des cellules T par le virus libre. Ces résultats suggèrent que les APCs participent activement au transfert et à la dissémination du VIH et que les AcN sont capable d'inhiber ces différents modes de transfert. / Antigen-presenting cells (APCs) present at mucosal sites are among the first HIV-1 target cells and contribute to the spread of infection. During my thesis, I studied HIV transfer from macrophages (Mφ) and dendritic cells (DCs) to CD4-T lymphocytes. I showed that APCs were able to efficiently transfer HIV particles to lymphocytes, but through different mechanisms: Mφ rapidlytransferred HIV by direct trans-transfer, whereas DCs were mainly implicated in cistransfer (after production of de novo HIV). Moreover, I have demonstrated that these two modes of transfer were inhibited by neutralizing antibodies (NAb) in both type ofcocultures. Very interestingly, I showed that anti-gp120 NAb inhibit more efficiently HIV transfer in Mφ/T than in DCs/T cocultures and T cells infection by free viral particles. These findings highlight the major contributions of various mucosal target cells in HIV transfer and demonstrate the potent role of NAb on inhibition of cell-to-cell transfer. VIH-1 Anticorps neutralisants Cellules présentatrices d'antigènes Transfert de cellule-à-cellule HIV-1 Neutralizing antibodies Antigen-presenting cells Cell-to-cell transfer 571.96 616.91
42	Padronização de uma nova técnica para detecção de anticorpos neutralizantes anti-dengue baseada na RT-PCR em tempo real / Standardization of a new technique for anti-dengue neutralizing antibodies detection based on Real Time RT-PCR Ana Luisa Pereira Feitosa 06 November 2015 (has links) Por representar a mais importante arbovirose em nível mundial, as infecções causadas pelos vírus da dengue são de grande importância em nosso país, apresentando uma ampla variedade de sintomas clínicos que vão desde infecção assintomática até formas mais graves da doença. O título de anticorpos neutralizantes produzidos frente à infecção por dengue parece ser determinante na forma de apresentação da doença no paciente. Atualmente, a forma com que o teste de neutralização é realizado demanda tempo para sua realização. O objetivo deste trabalho foi padronizar um ensaio de neutralização viral por RT-PCR em tempo real em cepas virais dos quatro sorotipos dengue para, posteriormente, ser empregada na detecção rápida e em grande escala de anticorpos em soro de pacientes e de candidatos vacinais. Para isso, foram construídas curvas padrão, para cada sorotipo viral, por meio da transcrição in vitro do RNA viral. O ensaio de neutralização padronizado nesse estudo reduziu o número de dias de detecção da neutralização em 48 horas quando comparada com a técnica de neutralização tradicional (PRNT), além de utilizar técnicas moleculares sensíveis e específicas para detecção como a RT-PCR em tempo real que garantem maior aplicabilidade do teste. / Because Dengue virus is the most important arboviral disease worldwide, infections caused by this pathogen are of great importance in Brazil, producing a wide variety of clinical symptoms ranging from asymptomatic infection to more serious forms of the disease. The title of neutralizing antibodies produced against the dengue infection appears to be determinant in the outcome of the disease. Currently, neutralization tests that have been performed take time for its execution. The aim of this study was to standardize a viral neutralization assay by real-time RT-PCR of viral strains of the four Dengue serotypes to subsequently be used for rapid detection and large-scale using antibodies of patients and for vaccine candidates. For this matter, standard curves were constructed for each Dengue serotype, by in vitro transcription of viral RNA. The neutralization assay in this study reduced the period of neutralization to 48 hours, compared to traditional neutralization test (PRNT), and it uses a more sensitive and specific molecular technique for detection of neutralizing antibodies, such as real time RT-PCR, to ensure greater applicability of the test Anticorpos neutralizantes Dengue Ensaio de neutralização viral PRNT RT-PCR em tempo real Dengue virus Neutralization Assay Neutralizing Antibodies PRNT Real time RT-PCR
43	Nouveaux rôles de l'apolipoprotéine E dans le cycle du virus de l'hépatite C : Docteur Jekyll ou Mister Hyde ? / New roles of apolipoprotein E in HCV life cycle : Doctor Jekyll or Mister Hyde? Crouchet, Émilie 09 September 2016 (has links) L’infection par le virus de l’hépatite C (HCV) est une cause majeure d’hépatite chronique, de cirrhose hépatique et ce carcinome hépatocellulaire dans le monde. La compréhension des relations entre le virus et sa cellule hôte, l’hépatocyte, est indispensable pour le développement de nouvelles stratégies thérapeutiques et d’un vaccin préventif. La particularité de ce virus est son lien étroit avec le métabolisme lipidique. Le virus circule dans le sang associé aux lipoprotéines, formant une lipo-viro-particule (LVP) infectieuse. L’apolipoprotéine E (apoE) est une protéine cellulaire faisant intégralement partie de la LVP. Elle joue un rôle majeur dans l’infection et à la production des particules virales. Durant ce travail de thèse, j’ai pu approfondir les connaissances sur le rôle d’apoE dans le cycle viral du HCV sous deux aspects très différents. D’une part, j’ai pu démontré que la forme libre d’apoE, non liée aux lipoprotéines, inhibe la réplication du HCV grâce à la régulation du métabolisme lipidique hépatique, en induisant un efflux de cholestérol ABCG1-dépendant. D’autre part, j’ai participé à une étude démontrant que l’apoE liée à la LVP contribue à l’échappement du virus au système immunitaire, en masquant les épitopes de la protéine virale E2 aux anticorps neutralisants. Ces études ont mis en évidence deux nouveaux rôles d’apoE dans la pathogenèse du HCV. / Hepatitis C virus (HCV) infection is a major cause of chronic hepatitis, liver cirrhosis and hepatocellular carcinoma worldwide. Understanding virus-host interactions in hepatocytes will contribute towards the development of new therapeutic strategies and a protective vaccine. HCV life cycle and the lipid metabolism are inextricably intertwined. A particular feature of this virus is that, in the blood, HCV virions are associated with lipoproteins, forming an infectious lipoviroparticle (LVP). Apolipoprotein E (apoE) is a key component of LVPs that plays an essential role in HCV entry and virions production. My PhD project entailed a more detailed dissection of apoE’s role in the HCV life cycle. I demonstrated that lipid-free apoE inhibits HCV replication by regulating the hepatic lipid metabolism via an ABCG1-dependent cholesterol efflux. Furthermore, I contributed to a study demonstrating that LVP-associated apoE helps the virus escape host immunity by blocking access of neutralizing antibodies to the viral glycoprotein E2. The work presented highlights two new roles of apoE in HCV pathogenesis Virus de l’hépatite C Apolipoprotéine E HDL ABCG1 Métabolisme des lipides Anticorps neutralisants Hepatitis C virus Apolipoprotein E HDL ABCG1 Lipid metabolism Neutralizing antibodies 572.4 579.2 616.91
44	Avaliação soroepidemiológica de cães imunizados contra a raiva com vacina de cultivo celular em campanha anual de vacinação no município de Botucatu/SP Silva, Rodrigo Iais da January 2019 (has links) Orientador: Cassiano Victória / Resumo: A raiva é uma zoonose transmitida pelo vírus do gênero Lyssavirus, e é considerada uma das enfermidades mais temidas no mundo devido à sua alta letalidade e inexistência de tratamento eficaz. Anualmente morrem mais de 50 mil pessoas por raiva em países subdesenvolvidos. O cão é o principal transmissor da raiva humana nos centros urbanos, responsável por 99% dos casos e 92% dos tratamentos pós-exposição. No Brasil, a raiva animal se apresenta de forma endêmica. A vacinação é o método mais eficiente de prevenção da raiva em cães e, por consequência, a proteção à população humana. No município de Botucatu, SP, há mais de 30 anos não são diagnosticados casos de raiva canina, devido às campanhas anuais de vacinação contra a raiva realizadas há 50 anos. Em 2010, o Ministério da Saúde preconizou o uso da vacina contra a raiva animal de cultivo celular nas campanhas de vacinação em massa. Este estudo teve como objetivo avaliar a resposta imunológica de cães que receberam apenas doses da vacina de cultivo celular contra o vírus da raiva. Para consolidação do tamanho amostral considerou-se uma porcentagem de 80% de adesão com consentimento livre e esclarecido, erro de estimação da ordem de 4% e nível de confiança de 95%. O título de anticorpos para a raiva foi detectado pelo Microteste Simplificado de Inibição de Fluorescência - SFIMT. Todas as discussões analíticas no plano estatístico foram realizadas no nível de significância de 5%. Observou-se que 59,12% (428/724) dos cães possuíam... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Rabies is a zoonosis transmitted by the virus of the genus Lyssavirus and is considered one of the most feared diseases in the world due to its high lethality and lack of effective treatment. Annually more than 50,000 people die from rabies in underdeveloped countries. The dog is the main transmitter of human rabies, accounting for 99% of cases and 92% of post-exposure treatments. In Brazil, animal rabies presents itself endemic. Vaccination is the most effective method of preventing rabies in dogs and, consequently, protecting the human population. In the municipality of Botucatu, SP, for more than 30 years no cases of canine rabies have been diagnosed due to the annual campaigns of rabies vaccination applied 50 years. In 2010, the Ministry of Health advocated the use of the antirabies animal cell culture vaccine in mass vaccination campaigns. This study aimed to evaluate the immunological response of dogs that received only doses of the cell culture vaccine against the rabies virus. To consolidate the sample size, a percentage of 80% adherence with free and informed consent, an error of the order of 4% and a 95% confidence level were considered. The antibody titers for rabies were detected by the Simplified Fluorescence Inhibition Microtest - SFIMT. All statistical analyses were performed at a significance level of 5%. It was observed that 59.12% (428/724) of the dogs had a protective titer (≥0.5 IU / mL) and 40.88% (296/724) had not developed a protective titer of anti-rab... (Complete abstract click electronic access below) / Mestre Hidrofobia. Vacina de cultivo celular Cães. Anticorpos neutralizantes Campanha de vacinação Saúde pública. Resposta imune. SFIMT Rabies Cell culture vaccine Dogs Neutralizing antibodies Vaccination campaign Public health Immune response
45	Mechanism of Abrin-Induced Apoptosis and Insights into the Neutralizing Activity of mAb D6F10 Mishra, Ritu January 2014 (has links) (PDF) Abrin is a potent toxin obtained from the seeds of Abrus precatorius. It is a heterodimeric glycoprotein consisting of an A and a B subunit linked together by a disulfide bond. The toxicity of the protein comes from the A subunit harboring RNA-N-glycosidase activity which cleaves the glycosidic bond between the ribose sugar and the adenine at position 4324 in 28S rRNA. The depurination of a specific adenine residue at position 4324 results in loss of conformation of the 28S rRNA at the α sarcin/ricin loop to which elongation factor-2 (EF-2) binds, during the transloction step of translation, leading to inhibition of protein synthesis. The B subunit of abrin is a galactose specific lectin. The lectin activity enables the toxin to gain entry inside cells on binding to receptors with terminal galactose. After entering cells, a few molecules of abrin reach the endoplasmic reticulum (ER) via the retrograde transport, where the disulfide bond between the A and the B subunits gets cleaved. Then the A chain escapes into the cytosol where it binds to its target, the α-sarcin loop of the 28S ribosomal RNA and inhibits protein synthesis. Apart from inhibition of protein synthesis, exposure of cells to abrin leads to the loss of mitochondrial membrane potential (MMP) resulting in the activation of caspases and finally apoptosis. However, whether apoptosis is dependent on the inhibition of protein synthesis has not been elucidated. The major objectives of this study are therefore to delineate the signaling pathways involved in abrin-induced apoptosis. The thesis is divided into 4 Chapters: Chapter 1. provides a overview of the general properties of RIPs, with a brief history, classification, trafficking and biological activities of the toxins. This chapter also discusses their potential use in bio-warfare and the treatments available for management of toxicity. Chapter 2 and 3 discuss the results obtained on studies aimed at gaining insights into the signaling pathways involved in abrin-induced apoptosis. Chapter 4 focuses on the research carried out to understand the mechanisms of neutralization of abrin by the mAb D6F10. Towards the first objective, chapter 2 elucidates the role of endoplasmic reticulum (ER) stress signaling in abrin-induced apoptosis using the human T-cell line, Jurkat as a model system. It could be concluded that the inhibition of protein synthesis by the catalytic A subunit of abrin could result in accumulation of unfolded proteins in the ER leading to ER stress which triggers the unfolded protein response (UPR) pathway. The ER resident trans-membrane sensors IRE1 (Inositol-requiring enzyme 1), PERK (PKR-like ER kinase) and ATF6 (Activating transcription factor 6) are the important players of UPR in mammalian cells. These sensors inhibit translation and increase the levels of chaperones to restore protein homeostasis. However, if the ER stress is prolonged, apoptotic pathways get activated to remove severely damaged cells in which protein folding defects cannot be resolved. Recent studies have shown that endoplasmic reticulum (ER) stress induces apoptosis by activating initiater caspases such as caspase-2 and -8 which eventually trigger mitochondrial membrane potential loss and activation of downstream effector capases-9 and -3. Phosphorylation of eukaryotic initiation factor 2α and upregulation of CHOP [CAAT/enhancer binding protein (C/EBP) homologous protein], important players involved in ER stress signaling by abrin, suggested activation of ER stress in the cells. ER stress is also known to induce apoptosis via stress kinases such as p38 MAPK and JNK. Activation of both the pathways was observed upon abrin treatment and found to be upstream of the activation of caspases. However, abrin-induced apoptosis was found be dependent on p38 MAPK but not JNK. We also observed that abrin induced activation of caspase-2 and caspase-8 and triggered Bid cleavage leading to mitochondrial membrane potential loss and thus connecting the signaling events from ER stress to mitochondrial death machinery. Few toxins belonging to the family of ribosome inactivating proteins such as Shiga toxin have been observed to induce DNA damage in human endothelial cells and activate p53/ATM-dependent signaling pathway in mammalian cells. To further investigate the role of abrin on activation of DNA damage signaling pathway, we analysed the phosphorylation of H2AX and ATM, which are markers for double strand DNA breaks. We observed phosphorylation of H2AX and ATM upon abrin treatment but not when cells were pretreated with the broad spectrum pan caspase inhibitor. This study suggested that the DNA damage observed was an indirect effect of caspase-activated DNase. We concluded from the studies in chapter 2 that inhibition of protein synthesis by abrin can trigger endoplasmic reticulum stress leading to mitochondria-mediated apoptosis. Further studies were conducted to understand the dependence of ER stress on inhibition of protein synthesis and are presented in chapter 3. For this study, we have used an active site mutant of abrin A chain (R167L) which exhibits lower protein synthesis inhibitory activity than the wild type abrin A chain. Recombinant wild type and mutant abrin A chains were expressed in E.coli and purified. Since, abrin A chain requires the B chain for internalization into cells, both wild type and mutant abrin A chains were conjugated to native ricin B chain to generate a hybrid toxin. Next, we have compared the toxic effects of the two conjugates in cells. The rate of inhibition of protein synthesis mediated by the mutant ricin B-rABRA (R167L) conjugate was slower than that of the wild type ricin B-rABRA conjugate but it could trigger ER stress leading to mitochondrial mediated apoptosis in cells though delayed, suggesting that inhibition of protein synthesis is the major factor contributing to abrin-mediated apoptosis. Abrin is extremely lethal and considered as a potential agent for use in biological warfare. Currently, there are no antidotes or effective therapies available for abrin poisoning. Antibody based antitoxins function by either preventing toxin binding to cell surface receptors or by translocation. Antibodies against the B chain of RIPs function by inhibiting the binding of B chain of the toxin to cells, whereas the exact mechanism by which antibodies against A chain function is still not clear. The only known neutralizing monoclonal antibody against abrin A chain, namely, D6F10, was generated in our laboratory and was shown to rescue cells and mice from abrin intoxication. Earlier experiments with confocal microscopy suggested that mAb D6F10 could internalize in HeLa cells along with abrin, suggesting that the antibody can function intracellularly. Chapter 4 discusses the work carried out to delineate the mechanism of intracellular neutralization of abrin by the mAb D6F10. We observed significant reduction in binding and delay in abrin internalization in the presence of the neutralizing monoclonal antibody (mAb) D6F10. Considering that the majority of the abrin after internalization is removed by lysosomal degradation, we studied the fate of abrin in the presence of mAb D6F10. Confocal images did not show any difference in the distribution of abrin in the lysosomes in the absence or presence of antibody. However, the antibody remained persistently colocalized with abrin in the cells, suggesting that the antibody might inhibit enzymatic activity of abrin at its cellular site of action. Abrin Apoptosis Neutralizing Antibodies Abrin-induced Apoptosis Ribosome Inactivating Proteins (RIPs) Abrus precatorius Plant Ribosome Inactivating Proteins Abrin Cytotoxicity Apoptosis Induced by Abrin Plant Toxins Phytotoxin mAb D6F10 Cell Death Cell Biology
46	Modulation of HIV-specific T cell responses during standard antiretroviral treatment and immunotherapy Niessl, Julia 05 1900 (has links) Seule une minorité des individus infectés par le virus de l’immunodéficience humaine (VIH) développe une réponse immunitaire capable de contrôler le virus. Chez la plupart des individus, on observe un échappement virologique et un épuisement des lymphocytes T CD8+ spécifiques du VIH. L’infection chronique non-traitée altère également les lymphocytes T CD4+ spécifiques du VIH caractérisé par l’expression accrue des récepteurs co-inhibiteurs et une signature des cellules auxiliaires T folliculaires (Tfh). La thérapie antirétrovirale (TAR) est très efficace pour supprimer durablement la charge virale dans le plasma. Néanmoins, elle ne permet pas une éradication complète du VIH car le virus persiste, intégré dans le génome des cellules réservoirs, desquelles le virus réapparaît lors de l’interruption de la thérapie. Cela démontre que l'immunité adaptive spécifiques du VIH n'est pas restaurée. Les anticorps neutralisants à large spectre (bNAbs) représentent une alternative potentielle à la TAR. En plus de la neutralisation du virus – et contrairement à la TAR – les bNAbs ne limitent pas la disponibilité de l'antigène et peuvent engager le système immunitaire. L'administration de bNAbs à des macaques rhésus induit des réponses immunitaires adaptatives associées à un contrôle prolongé de la virémie, mais cela n’a pas été établi chez l’Homme. Dans cette thèse, nous avons donc exploré la modulation des réponses des lymphocytes T spécifiques du VIH lors d'une TAR standard et d’une immunothérapie utilisant des bNAbs. Dans un premier objectif nous avons analysé la modulation persistante des réponses des lymphocytes T CD4+ spécifiques du VIH chez les individus sous TAR. Nous avons pu démontrer l'expansion persistante des Tfh spécifiques au VIH avec des caractéristiques phénotypiques et fonctionnelles les distinguant des Tfh spécifiques d’antigènes viraux comparatifs (cytomégalovirus, virus de l’hépatite B). Ces caractéristiques ont été induites au cours de l’infection chronique non-traitée, persistaient pendant la TAR et étaient associées au réservoir du VIH compétent pour la traduction. Ces données suggèrent qu’une stimulation antigénique persistante, malgré une TAR efficace, maintient des modifications immunologiques notamment au niveau des Tfh. Dans un second objectif, nous avons caractérisé les réponses T spécifiques du VIH à la suite d’un traitement utilisant des bNAbs et une interruption structurée de la TAR (IST). Des individus inclus dans une étude clinique de phase Ib ont reçu une perfusion d’une combinaison des bNAbs 10-1074 et 3BNC117 et ont démontré une suppression virale prolongée après l’IST. Chez ces participants, nous avons observé une augmentation des réponses immunitaires des lymphocytes T CD8+ et CD4+ spécifiques du VIH due à l'expansion des réponses immunitaires préexistantes et au développement de réponses ciblant de nouveaux épitopes. Cela suggère que la combinaison d’un traitement par bNAbs avec l’IST est associée au maintien de la charge virale plasmatique indétectable et à une intensification de la réponse immunitaire des lymphocytes T spécifiques du VIH. Nos travaux permettent une meilleure compréhension des réponses des lymphocytes T spécifiques du VIH au cours de la TAR et lors d’une immunothérapie. Ils peuvent contribuer au développement de stratégies thérapeutiques plus efficaces visant à contrôler la réplication virale sans la TAR. / Only a small fraction of individuals infected with the human immunodeficiency virus (HIV) develops effective immune responses able to control the virus. In most individuals, the virus escapes the antiviral immune response and HIV-specific CD8+ T cell responses become exhausted. Untreated progressive HIV infection also leads to alterations in HIV-specific CD4+ T cells. This includes increased expression of co-inhibitory receptors and skewing towards a T follicular helper cell (Tfh) signature. Antiretroviral therapy (ART) is highly effective in controlling the HIV viral load at undetectable levels in the plasma. However, ART does not represent a cure as the virus integrates into the genome of infected cells from where the virus rebounds once ART is stopped. This demonstrates that the HIV-specific T cell immunity is not restored. However, the changes that are introduced during progressive infection and that are maintained after viral suppression with ART are poorly known. Broadly neutralizing antibodies (bNAbs) represent a potential alternative to ART. In addition to virus neutralization and unlike ART, bNAbs to do not limit HIV antigen availability and can engage the immune system. bNAb administration elicited adaptive immune responses that were associated with long-lasting viral control in a simian animal model but this has not been established in HIV-infected individuals. In this thesis, we therefore proceeded to study the modulation of HIV-specific T cell responses during standard ART and after an immunotherapeutic intervention using bNAbs. The first objective was to better understand persistent modulation of HIV-specific CD4+ T cell responses in ART-treated individuals. Our results demonstrated the persistent expansion of HIV-specific Tfh cell responses with multiple phenotypic and functional features that differed from Tfh cells specific for comparative viral antigens (cytomegalovirus, hepatitis B virus). These features were induced during chronic untreated HIV infection, persisted during ART and correlated with the translation-competent HIV reservoir. This suggests that persistent HIV antigen expression, despite effective ART, maintains these altered immunological features specifically for Tfh responses. For the second objective, we characterized changes in the HIV-specific CD8+ and CD4+ T cell immunity after bNAb treatment and analytical treatment interruption (ATI). For this, we used samples obtained from participants enrolled in a clinical phase Ib study that received combined infusion of bNAbs 10-1074 and 3BNC117 and demonstrated prolonged viral suppression after ATI. In these individuals, we detected an increase of HIV-specific CD8+ and CD4+ T cell responses during ART interruption when compared to baseline. Increased T cell responses were due to both expansion of pre-existing responses and the emergence of responses to new epitopes. In contrast, HIV-specific T cell responses remained unchanged in ART-treated individuals who did not receive bNAb infusions. This suggests that bNAb treatment and ATI is associated with increased HIV-specific T cell immunity while viral suppression is maintained. Together our results contribute to a better understanding of HIV-specific T cell responses during ART and immunotherapy treatment. Our findings may help to develop more effective HIV treatment strategies to improve the host’s immune system so that HIV can be controlled without the need for ART. VIH Cellules T spécifiques du VIH Thérapie antirétrovirale Anticorps neutralisants à large spectre Cellules T auxiliaires folliculaires HIV HIV-specific T cells Antiretroviral therapy Broadly neutralizing antibodies T follicular helper cells
47	The Effect of Viral Envelope Glycoproteins on Extracellular Vesicle Communication andFunction Troyer, Zach Andrew January 2021 (has links) No description available. Biomedical Research Virology Molecular Biology extracellular vesicles viruses viral fusion proteins glycoproteins SARS-CoV-2 COVID-19 neutralizing antibodies spike VSV-G Syncytin-1 HERV endogenous retrovirus fusion membrane signaling intercellular communication

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