Global ETD Search

181	Associação entre hanseníase e infecção pelo vírus da hepatite B: estudo de caso-controle / Association between leprosy and hepatitis B virus infection: case-control study Celina Maria Turchi Martelli 27 November 1995 (has links) Um estudo de caso-controle para investigar a associação entre a hanseníase e infecção pelo vírus da hepatite B (VHB) foi conduzido no período de 1992/93, na cidade de Goiânia e municípios contíguos - Estado de Goiás. Avaliou-se, também, a distribuição espacial da hanseníase neste aglomerado urbano. Inicialmente, os indivíduos com suspeita clínica de hanseníase foram submetidos a exames baciloscópicos e histopatológicos, independentemente da rotina do Programa de Controle de Hanseníase. Do total de 855 pacientes recémdiagnosticados de hanseníase, 600 eram residentes em área urbana, e foram categorizados em casos multibacilares (31,3 por cento ), paucibacilares (51,8 por cento ) e prováveis (16,8 por cento ). Foi realizada análise descritiva desta casuística, havendo nítida predominância do sexo masculino na forma multibacilar de hanseníase. A distribuição espacial dos pacientes possibilitou, através da análise exploratória das taxas de detecção, discriminar estratos de risco intra-urbano. Para o estudo de caso-controle, 552 pacientes de hanseníase de 1 O a 70 anos foram incluídos. Os controles (N =552) foram selecionados de indivíduos com ausência de sinais e sintomas sugestivos de hanseníase oriundos da demanda espontânea de ambulatórios de 7 unidades de saúde, localizadas na região de procedência dos casos. Os participantes - casos e controles - foram entrevistados para avaliar fatores de risco para hanseníase e infecção pelo vírus da hepatite B. Foram coletadas amostras de sangue para detecção de marcadores ao vírus da hepatite B pela técnica de ELISA. Comparou-se a prevalência de marcadores de exposição (anti-HBc), de imunidade (anti-HBs) e de portador (AgHBs) entre casos e controles. Foram avaliados como potenciais fatores de confusão: sexo, idade, condições sócio-econômicas, estado nutricional, cicatriz vacinal de BCG e utilização dos serviços de saúde. Casos e controles foram similares quanto às características sócio-econômicas e nutricionais indicando que o princípio de selecionar controles da mesma base populacional que os casos parece ter sido adequado. Cicatriz vacinal de BCG esteve estatisticamente associada aos diferentes tipos de hanseníase. Houve maior proporção de indivíduos hospitalizados nos útimos 5 anos entre casos que em controles indicando que o emparelhamento por local de residência não eliminou completamente as diferenças entre os grupos em relação ao uso dos serviços de saúde. Entre os participantes do estudo, 18,1 por cento dos casos e 19,6 por cento dos controles foram soropositivos ao anti-HBc. Em análise multivariada, utilizando-se o modelo de regressão logística politômica, a associação da hanseníase e anti-HBc entre casos e controles apresentou odds ratio de 0,9 (IC95 por cento O, 7-1 ,3) para a categoria de multibacilar; 1,0 (IC 95 por cento 0,7-1,3) para a de paucibacilar e 1,1 (IC95 por cento 0,8-1,5) para a de provável. Estes resultados mostraram que subgrupos de casos e os controles estiveram igualmente expostos ao vírus da hepatite B. As proporções de indivíduos imunes foram semelhantes nos grupos de casos (9,2 por cento ) e controles (10,2 por cento ). Casos multibacilares responderam à exposição viral com formação de anticorpos protetores, qualitativa e quantitativamente de maneira semelhante aos pacientes paucibacilares e grupo controle. Os resultados dos índices de persistência de infecção (PPI) indicaram não haver diferença quanto ao clearance do antígeno viral nos subgrupos de casos e controles. Os resultados obtidos nesta investigação mostraram nos subgrupos de casos e controles: (i) prevalências semelhantes dos marcadores de exposição, de imunidade e de estado de portador; (ii) capacidade similar para produção de anticorpos protetores, avaliada através dos percentuais do marcador anti-HBs e, quantitativamente, através do Índice de Elisa e (iii) baixa probabilidade de persistência da antigenemia mensurada pelo PPI. Em conclusão, não houve evidências epidemiológicas de uma associação entre hanseníase e infecção pelo vírus da hepatite B, avaliada através de estudo de caso-controle, conduzido em área de baixa endemicidade ao VHB e alta endemicidade de hanseníase. / A case-control study was conducted in Goiânia, Central Brazil, a highly endemic area for leprosy and Iow endemic region for hepatitis B virus (HBV) infection. The purpose was to investigate the association between leprosy types and hepatitis B infection. The spatial distribution of leprosy in urban area was assessed. Between 1992 and 1993, newly detected leprosy cases (N=855) were investigated and 600 cases lived in the urban area. They were classified in multibacillary (31.3 per cent ), paucibacillary (51.8 per cent ) and probable cases (16.8 per cent ) according to histopathological and baciloscopic exams, independently of the leprosy control routine. The majority of multibacillary cases was males. Detection rates of leprosy were calculated by mapping cases and several risk strata were identified by using exploratory data analysis. This methodology seems to be particularly useful for targeting control activities in urban areas. Cases were 552 leprosy patients from the urban area and adjacent counties, between the ages of 1O and 70 years who self-referred or were referred to the main outpatient clinic for treatment in the region. 552 controls were selected from among self-referred outpatients from 7 health centers geographically located in areas where the cases came from. The main criteria for eligibility for control subjects was that they must not have any signs or symptoms indicative of leprosy. Blood samples were collected for all participants to determine serological markers of HBV infection and tested by enzyme immunoabsorbent assay technique (ELISA). Cases and controls were interviewed in order to evaluate risk factors for leprosy and hepatitis B vírus (HBV) infection. Prevalence of HBV exposure (anti-HBc), immunity (anti-HBs) and carrier status (AgHBs) were compared among cases and controls. Cases and controls were also compared for age, sex, socio-economic conditions, nutritional status, BCG scars and previous hospitalization. The participants had similar socio-economic pattern and also nutrition status, suggesting that the source of control selection was adequate for controlling for the most common confounding variables. BCG vaccine appeared to provide protection against multibacillary and paucibacillary types of leprosy and percentage of hospitalization was higher among cases. Prevalence of anti-HBc was similar among leprosy cases (18.1 per cent ) compared to controls (19.6 per cent ). An analysis of association between anti-HBc infection and leprosy types in terms of odds ratio, calculated by polytomous logistic regression, showed no positive association: multibacillary (OR=0.9 CI95 per cent 0.7-1.3); paucibacillary (OR= 1.0 CI95 per cent 0.7-1.3) and probable (OR= 1.1 CI95 per cent 0.8-1.5). The main findings of the case-control study were: (i) cases and controls had similar leveis of viral exposure, immune and carrier status (íi) the persistence of antigen response (PPI) was low among cases and controls respectively; (iii) ELISA índices were similar among multibacillary, paucibacillary and control group indicating that all participants mount antibody response to viral infection. In conclusion, there was no association between multibacillary leprosy and HBV infection in this setting. Hanseníase Vírus da Hepatite B Hepatitis B Virus Leprosy
182	Caractérisation d'inhibiteurs de l'entrée du Virus de l'Hépatite C / Characterisation of HCV entry inhibitors Potel, Julie 21 December 2012 (has links) L’infection par le Virus de l’Hépatite C (VHC) est un problème majeur de santépublique touchant environ 170 millions de personnes dans le monde. A l’heure actuelle, il n’existe aucun vaccin pour lutter contre le VHC et les traitements curatifs disponibles sont chers, donnent lieu à des effets secondaires très sévères et ne sont efficaces que pour une partie des patients. Le développement de nouvelles stratégies antivirales représente donc un enjeu crucial dans la lutte contre le VHC. Dans le but de développer de nouvelles molécules bloquant différentes étapes du cycle viral, une meilleure compréhension de chacune des ces étapes est nécessaire. Au cours de mon travail de thèse, nous avons étudier le mécanisme d’entrée du VHC dans ses cellules cibles, les hépatocytes. Dans un premier temps nous avons caractérisé un inhibiteur naturel de l’entrée du VHC, appelé EWI-2wint. Ce travail a notamment permis de mettre en évidence l’importance de la dynamique membranaire de l’un des récepteurs du virus, la protéine CD81, dans ce processus. Dans un second axe, nous avons étudié l’effet de la monensine sur l’infection par le VHC. Nous avons ainsi montré que cet inhibiteur pharmacologique bloque une étape tardive du processus d’entrée du VHC.L’ensemble des données accumulées au cours de ma thèse permettent de mieux comprendre le mécanisme d’entrée du VHC et ouvrent la voie au développement de nouveaux outils thérapeutiques. / Hepatitis C, whose causal agent is called Hepatitis C Virus (HCV), is a global health burden with about 170 million people infected. Currently, no vaccine exists again HCV and treatments are effective for only a part of infected people. Therefore, new treatments are urgently needed, as well as a better understanding of the viral life cycle.To do so, we studied the entry process of HCV in its targets cells through the characterisation of HCV entry inhibitors. Firstly, we have shown that EWI-2wint, a natural inhibitor of HCV entry, blocks this process by changing the partitionning of CD81, one of the HCV receptors. In addition, we have studied the effect of monensin on HCV infection and found that this pharmacological inhibitor impairs a late step of HCV entry.Altogether, our results allow a better understading of the HCV entry process and open the way to the development of new therapeutic agents. EWI-2wint Virus de l’Hépatite C Hepatitis C Virus
183	Mechanistic Insights into Translation and Replication of Hepatitis C Virus RNA : Exploring Direct-Acting Antivirals Kumar, Anuj January 2014 (has links) (PDF) Hepatitis C virus (HCV), a blood-borne pathogen, is a small enveloped RNA virus belonging to the Hepacivirus genus of the Flaviviridae family. HCV infection represents one of the major health concerns affecting approximately 170 million people globally. Patients with chronic HCV infection are at risk of developing hepatic fibrosis, cirrhosis and hepatocellular carcinoma. No protective anti-HCV vaccine is available yet. Until recently, standard therapy based on pegylated interferon plus ribavirin, was inadequate in treating all the patients as it results in a sustained virological response in only 40 to 50 percent of patients infected with the most common genotype (gt 1). Advances in understanding host-HCV interactions have helped developing newer anti-HCV agents such as telaprevir and boceprevir. However, treatment success is still limited due to different factors including genotype specificity, high cost, potential drug-drug interactions, substantial side effects etc. The positive-sense single-stranded RNA genome of HCV is approximately 9.6kb long which is flanked by highly structured and conserved 5’ and 3’ untranslated regions (UTRs) at both ends. Unlike cap-dependent translation of host cell mRNAs, HCV translation is mediated by an internal ribosomal entry site (IRES) present majorly within the 5’UTR. Several reports have demonstrated the interaction of different cellular proteins with HCV-5’UTR and/or 3’UTR, which include human La protein, polypyrimidine tract binding protein (PTB), poly (rC)-binding protein 2 (PCBP2) etc. These interactions of trans-acting factors with the UTRs may be important for HCV translation and/or replication. Earlier study from our laboratory revealed the importance of interaction of human La protein, by its central RNA recognition motif (RRM), with the HCV IRES around a tetranucleotide sequence GCAC near initiator AUG in influencing HCV translation. However, the role of this interaction, if any, in HCV RNA replication was not known. In the first part of the thesis, we characterized the interaction between human La protein and the GCAC to understand its role in HCV replication. We incorporated mutation, which altered the binding of La, in the GCAC motif in HCV monocistronic replicon and checked HCV RNA replication by reverse transcriptase polymerase chain reaction (RT-PCR). The mutation drastically inhibited HCV replication. Interestingly, overexpression of La could reverse the effect of this mutation and significantly enhanced HCV RNA levels. Using a bicistronic replicon, we observed that decrease in replication was independent of translation inhibition. Furthermore, mutation at the GCAC motif reduced the association between La and viral polymerase, NS5B as seen in co-immunoprecipitation assays. Moreover, this mutation affected translation to replication switch regulated by the interplay between HCV-NS3 protease and human La protein. Our analyses of point mutations, based on RT-PCR and luciferase assays, revealed distinct roles of each nucleotide of the GCAC motif in HCV replication and translation. Finally, 5’-3’ crosslink assays revealed that specific interaction of the GCAC motif with human La protein is important for linking 5’ and 3’ends of HCV genome. Results clearly demonstrate the mechanism of regulation of HCV replication by interaction of cis-acting element GCAC within the HCV IRES with human La protein. HCV is highly species-specific. Under natural conditions, HCV infects only humans and chimpanzees. This restricted host-tropism has prevented the development of a small animal model to study HCV infection in vivo. Although several human-specific entry factors have been identified to be responsible for this species selectivity, full multiplication of the HCV in animals (other than humans and chimpanzees) is still not possible. In the second part of the thesis, we showed that a post-entry host factor –‘La protein’ may also contribute in determining HCV host tropism. We aligned La protein sequences from different species and interestingly we found that HCV RNA interacting beta-turn sequence (KYKETDL) in central RRM (residues 112-184) is conserved only in human and chimpanzee. Earlier, it was shown from our laboratory that a heptameric peptide comprising of this sequence (derived from human La) could inhibit HCV translation by competing with La interaction with the IRES element. However, in the current study, another peptide corresponding to the mouse La sequence (KYKDTNL) was unable to inhibit HCV RNA translation. Similarly, wild-type mouse La (mLa) failed to stimulate HCV IRES function, but addition of chimeric mouse La protein bearing human beta-turn sequence (mLahN7) significantly increased HCV IRES mediated translation in vitro. Also, exogenous supplementation of mLahN7 enhanced HCV translation in cell culture system. Moreover, quantitative as well as tagged RT-PCR analyses showed an enhanced HCV replication upon overexpression of mLahN7. The findings obtained in this part raise a possibility of creating HCV mouse model using human specific cellular entry factors and a humanized form of La protein. Hepatitis C has emerged as a major challenge to the medical community. Developing more potent and safe anti-HCV regimens is need of the hour. As described above, a linear hepatapeptide (KYKETDL) was synthesized and shown to reduce HCV translation. However, this linear peptide was stable only for a shorter time scale. Therefore, in the third part of the thesis, effect of a more stable cyclic form of this peptide has been described. NMR spectroscopy suggested that the beta turn conformation is preserved in cyclic peptide as well. Also, using in vitro bicistronic reporter assay, we demonstrated that cyclic peptide inhibits HCV translation in a dose dependent manner. In fact, due to its higher stability, cyclic peptide reduced HCV translation and replication more efficiently than the corresponding linear peptide at longer post-treatment time point. Additionally, we observed that cyclic peptide is non-toxic in cell culture system. Our results suggest that cyclic peptide might emerge as a promising lead compound against hepatitis C. Due to availability of only partially effective liver protective drugs in modem medicine, complementary and alternative medicine approach, based on plant derived compounds, is also being utilised against HCV. Plant derived compounds have advantages of having high chemical diversity, drug-likeliness properties and ability of being metabolized by the body with little or no toxicity than synthetic ones. Different studies have shown that phytochemicals may exert anti-HCV activities by acting as direct-acting antivirals and play a potential therapeutic role in treating HCV infection. Also, from our laboratory, it was shown that methanolic extract of Phyllanthus amarus (P. amarus) plant inhibited HCV replication. The fourth part of the thesis describes the study on the anti-HCV properties of several bioactive components from P. amarus extract. Using a fluorimetric assay, we demonstrated that two principal components of this extract, phyllanthin and corilagin reduced the HCV NS3 protease activity significantly in vitro. We also observed a sharp reduction in HCV negative sense RNA levels in cell culture system. Structural knowledge-based molecular docking studies showed interactions of phyllanthin and corilagin with the amino acid residues of the catalytic triad of NS3 protease. Further, these compounds were found to be non-toxic in cell culture. Also, phyllanthin and corilagin displayed antioxidant properties by blocking HCV induced oxidative stress generated by reactive oxygen species suggesting their hepatoprotective nature. More importantly, our in vivo toxicity analyses and pharmacokinetics studies proved their safety, tolerability, metabolic stability, and systemic oral bioavailability and support their potential as novel anti-HCV therapeutic candidates. Altogether, the study deciphers mechanistic details of translation and replication of HCV RNA and demonstrates novel antiviral agents targeting these important viral processes. Hepatitis C Virus RNA HCV Genotypes HCV Vaccines Hepatitis C Virus Infection Antivirals Human La Protein Hepatitis C Virus Life Cycle Viral Proteins HCV Replication HCV IRES HCV Translation HCV Infection HCV Vaccine Development Hepatitis C Virus (HCV) Microbiology and Cell Biology
184	Investigation of the Polyprimidine Tract-Binding Protein-Associated Splicing Factor (PSF) Domains Required for the Hepatitis Delta Virus (HDV) Replication Al-Ali, Youser January 2011 (has links) The hepatitis delta virus (HDV), composed of ~1,700nt, is the smallest circular RNA pathogen known to infect humans. Understanding the mode of replication of HDV implies on investigating the host proteins that bind to its genome. The polypyrimidine tract-binding protein-associated splicing factor (PSF), an HDV interacting protein, was found to interact with the carboxy terminal domain (CTD) of RNA polymerase II (RNAPII), and to facilitate the interaction of RNA transcripts with the CTD of RNAPII. Both PSF and RNAPII were found to interact with both polarities of the terminal stem loop domains of HDV RNA, which possess RNA promoter activity in vitro. Furthermore, PSF and RNAPII were found to simultaneously interact with HDV RNA in vitro. Together, the above experiments suggest that PSF acts as a transcription factor during HDV RNA replication by interacting with both the CTD of RNAPII and HDV RNA simultaneously. PSF knockdown experiments were performed to indicate that PSF is required for HDV RNA accumulation. Mutagenesis experiments of PSF revealed that HDV RNA accumulation might require the N terminal domain, and the RNA recognition motifs RRM1 and RRM2. I propose that the RRM1 and RRM2 domains might interact with HDV RNA, while the N-terminal domain might interact with the CTD of RNAPII for HDV RNA accumulation. Together, the above experiments provide a better understanding of how an RNA promoter might be recognized by RNAPII. Hepatitis delta virus HDV replication Polypyrimidine tract-binding protein PSF
185	Characterization of Liver Damage Mechanisms Induced by Hepatitis C Virus Soare, Catalina P. January 2011 (has links) Hepatitis C Virus (HCV) is one of the most important causes of chronic liver disease, affecting more than 170 million people worldwide. The mechanisms of hepatitis C pathogenesis are unknown. Viral cytotoxicity and immune mediated mechanisms might play an important role in its pathogenesis. HCV infection and alcohol abuse frequently coexist and together lead to more rapid progression of liver disease, increasing the incidence and prevalence of cirrhosis and hepatocellular carcinoma. The cytopathic effect of HCV proteins, especially the core, E1 and E2 structural proteins, which induce liver steatosis, oxidative stress and cell transformation may be amplified by alcohol abuse. The purpose of this study was to characterize the liver damage mechanisms induced by HCV structural proteins and alcohol and to determine the potential molecular mechanism(s) that may promote chronic, progressive liver damage. A transgenic mouse model expressing HCV core, E1 and E2 was used to investigate whether alcohol increased HCV RNA expression. Real-time RT-PCR analysis of genes involved in lipid metabolism and transport confirmed their abnormal expression in the alcohol-fed transgenic mice. In addition, light and electron microscopy analysis were performed on liver tissues of transgenic mice on an alcoholic diet versus those on a normal diet, in order to identify histological changes. The severe hepatopathy in HCV transgenic mice was exacerbated by alcohol. Mitochondria and endoplasmic reticulum had severe abnormalities in the electron microscopy analysis. The second part of this study focused on adaptive immune responses, which may also play an important role in HCV pathogenesis. I focused my analysis on dendritic cells (DC), which have been the main suspects to explain immune impairment in HCV infection. Their powerful antigen-presenting function allows them to stimulate the antiviral response of CD4+ and CD8+ T cells, the effector cells of the immune system. This unique function of the DC makes them possible targets for immune evasion by the Hepatitis C virus. In this study, DCs were generated from mouse bone marrow cells. I investigated their maturation capacity in the presence of structural proteins of HCV. The impact of HCV core/E1/E2 polyprotein on DCs cytokine expression and ability to activate T-cell lymphocytes was also analyzed. A dysfunctional CD4 T cell response was observed after exposure of DCs to core/E1/E2 polyprotein, indicating inefficient CD4 priming, which might lead to chronic HCV infection in humans. The presence of the core/E1/E2 polyprotein reduced the DC maturation capacity and the expression of certain cytokines (IL-12, IFNg, IL-6, MCP-1) important for stimulation and chemotaxis of T cells and other immune cells. My studies contribute to the understanding of HCV pathogenesis and may have implications to the development of better therapies for HCV infection. Hepatitis C virus Alcohol HCV-transgenic mouse model Dendritic cells
186	Examining MicroRNAs as Regulators of Hepatic Lipid Homeostasis and Hepatitis C Virus Replication Singaravelu, Ragunath January 2016 (has links) Hepatitis C virus (HCV) infection is a leading cause of liver transplantation and hepatocellular carcinoma worldwide. HCV, like all obligate parasites, relies on host pathways to facilitate its pathogenesis. In particular, the virus possesses an intimate link with hepatic lipid metabolism, promoting a lipid-rich cellular environment conducive to HCV propagation. Clinically, these metabolic perturbations manifest as steatosis in over 50% of patients. The majority of research to-date examining how the virus co-opts hepatic lipid pathways has been focused on coding genes and their protein products. MicroRNAs (miRNAs) are post-transcriptional regulators of gene expression, which have been implicated in virtually every cellular process. Through interactions with partially complementary mRNAs, each individual miRNA has the capacity to repress the expression of hundreds of genes and induce significant regulatory effects. Herein, we demonstrate that hepatic miRNAs, including miR-7, miR-27a/b, miR-130b, and miR-185, act as crucial regulatory molecules to the maintenance of hepatic lipid homeostasis. These miRNAs cooperate to regulate fatty acid and cholesterol metabolism. HCV modulates the expression of a subset of these miRNAs (miR-27a/b, miR-130b, and miR-185) to promote hepatocellular lipid accumulation and the HCV life cycle. There appears to be a broad viral requirement for lipids, and the mammalian innate immune response strategically targets host metabolic pathways to restrict virus’ access to key lipid species. We demonstrate that 25-hydroxycholesterol, a broadly anti-viral oxysterol produced as part of the innate anti-viral response, activates miR-185 expression in the liver to deplete virus infected cells of lipids. HCV appears to actively counteract this anti-viral response by suppressing miR-185 expression. Collectively, our results highlight the role of microRNAs in hepatic lipid metabolism and the immunometabolic response to viral infection. MicroRNA Lipid Hepatitis C Virus Metabolism 25-hydroxycholesterol Innate immunity
187	Investigating Hepatitis C Virus Interactions with Host Lipid Pathways that are Critical for Viral Propagation Using Small Molecule Inhibitors and Chemical Biology Methods Lyn, Rodney January 2013 (has links) Hepatitis C virus (HCV) is remarkably capable of efficiently hijacking host cell pathways including lipid metabolism in the liver in order to create pro-viral environments for pathogenesis. It is becoming increasingly clear that identifying small molecule inhibitors that target host factors exploited by the virus will expand available HCV treatment options. As such, a thorough understanding of host-virus interactions is critical to the development of alternative therapeutic strategies. Hepatic lipid droplets (LDs) are recruited by HCV to play essential roles in the viral lifecycle. The intracellular location of LDs is modified upon interacting with viral structural core protein. This enables formation of platforms that support viral particle assembly. Because these interactions are non-static, capturing its dynamic processes in order to better understand viral assembly can be achieved with label-free molecular imaging enhanced with live-cell capabilities. Chemical biology approaches that includes CARS microscopy employed in a multi-modal imaging system was used to probe interactions between HCV and host LDs. By successfully tracking LD trajectories, we identified core protein’s ability to alter LD speed and control for LD directionality. Using protein expression model systems that allowed for simultaneous tracking of core protein and LDs, our data revealed that mutations in the core protein region that vary in hydrophobicity and LD binding strengths, are factors that control for differential modulation of LD kinetics. Furthermore, we measured bidirectional LD travels runs and velocities, and observed critical properties by which core protein induces LD migration towards regions of viral particle assembly. Given that many steps in the HCV lifecycle are directly linked to host lipid metabolism, it is not surprising that disrupting lipid biosynthetic pathways would negatively affect viral replication. From this outlook, we explored small molecule inhibitors that targeted several lipid metabolic pathways to study its antiviral properties. Using fluorescent probes covalently labeled to viral RNA, we captured the visualization of disrupted replication complexes upon antagonizing nuclear hormone receptors that are linked to regulating lipid homeostasis. Correspondingly, biochemistry and molecular imaging techniques were also employed to identify novel antiviral mechanisms of small molecule inhibitors that target additional HCV-dependent lipid metabolic pathways. CARS microscopy hepatitis C virus small molecule inhibitors lipid droplets
188	Investigating Host-Viral Interactions in Liver Lipid Homeostasis and HCV Pathology Delcorde, Julie January 2014 (has links) Hepatitis C virus (HCV) infects an estimated 170 million people worldwide and is a major cause of chronic hepatitis and hepatocellular carcinoma. As there are limited treatment options, the elucidation of novel host-viral interactions during HCV pathogenesis will be critical for the development of new therapeutics. My thesis work has identified cell death-inducing DFF45-like effector B (CIDEB) as a host factor that is disregulated during HCV infection, and has delineated the relevance of CIDEB’s dual roles in apoptosis and lipid metabolism in the context of the HCV lifecycle. Moreover, additional host factors necessary for the HCV lifecycle were investigated using unnatural amino acid (UAA) technology. With this technique, the photo-cross-linking UAA p-azido-phenlyalanine (AZF) and 3’-azibutyl-N-carbamoyl-lysine (Abk) were incorporated into viral proteins by expanding the genetic code of the host organism. This conferred diverse physicochemical and biological properties to these proteins that were exploited to investigate protein structure and function in vitro and in vivo. In summary, gaining insight into the numerous host-viral interactions that take place during HCV infection will both advance our understanding of HCV pathogenesis and uncover potential therapeutic targets. Hepatitis C Virus CIDEB Lipids Host-factor Unnatural amino acid
189	Genotype 1 hepatitis E virus (HEV) ORF4 protein enhances genotype 3 HEV replication Yadav, Kush Kumar January 2019 (has links) No description available. Virology
190	Viral (Hepatitis C Virus, Hepatitis B Virus, HIV) Persistence and Immune Homeostasis Zhou, Yun, Zhang, Ying, Moorman, Jonathan P., Yao, Zhi Q., Jia, Zhan S. 01 January 2014 (has links) Immune homeostasis is a host characteristic that maintains biological balance within a host. Humans have evolved many host defence mechanisms that ensure the survival of individuals upon encountering a pathogenic infection, with recovery or persistence from a viral infection being determined by both viral factors and host immunity. Chronic viral infections, such as hepatitis B virus, hepatitis C virus and HIV, often result in chronic fluctuating viraemia in the face of host cellular and humoral immune responses, which are dysregulated by multi-faceted mechanisms that are incompletely understood. This review attempts to illuminate the mechanisms involved in this process, focusing on immune homeostasis in the setting of persistent viral infection from the aspects of host defence mechanism, including interferon-stimulated genes, apolipoprotein B mRNA editing enzyme catalytic polypeptide 3 (APOBEC3), autophagy and interactions of various immune cells, cytokines and regulatory molecules. hepatitis C virus HIV immune homeostasis viral persistence Internal Medicine

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