Identifizierung und Charakterisierung viraler und zellulärer Komponenten, die an den frühen Schritten der HBV-Infektion beteiligt sind

Engelke, Matthias.

January 2005

Heidelberg, Univ., Diss., 2005.

The role of HCV core protein in the regulation of HCV replication /

Li, Dongsheng.

January 2003

Thesis (Ph.D.) - University of Queensland, 2004. / Includes bibliography.

Replication of hepatitis B virus in Chinese patients with chronic hepatitis B virus infection

Lok, Suk-fong, Anna.

January 1900

Thesis (M.D.)--University of Hong Kong, 1991. / Also available in print.

Interferons and tumour necrosis factor in chronic hepatitis B virus infection

Lau, Yiu-nam.

January 1990

Thesis (M.D.)--University of Hong Kong, 1992. / Includes bibliographical references (leaves 251-295) Also available in print.

Untersuchungen zur Rolle der impfinduzierten HBsAg-spezifischen CD4 + T-Zellen bei der Hepatitis-B-Virusinfektion humaner Hepatozyten

Röhrl, Elena Simone

January 2009

Regensburg, Univ., Diss., 2009.

Hepatitis-B-Virus Impfung Antigen CD4

Role of hepatitis B virus genotypes B and C on chronic liver disease in the Chinese

Yuen, Man-fung.

January 2004

Thesis (Ph. D.)--University of Hong Kong, 2005. / Title proper from title frame. Also available in printed format.

Hepatitis B virus. Hepatitis B Liver

Synthese, Eigenschaften und Anwendung Gallensäure derivatisierter Antisense-Oligonukleotide gegen Hepatitis-C-Virus RNA

Lehmann, Thomas.

January 2001

Frankfurt (Main), Univ., Diss., 2001.

Estudo da influência dos genótipos 1 e 3 do vírus da hepatite C sobre os indicadores do metabolismo lipídico em hepatopatas crônicos

Nogueira, Camila Tita [UNESP]

18 December 2009

Made available in DSpace on 2014-06-11T19:26:43Z (GMT). No. of bitstreams: 0 Previous issue date: 2009-12-18Bitstream added on 2014-06-13T20:34:30Z : No. of bitstreams: 1 nogueira_ct_me_arafcf.pdf: 255888 bytes, checksum: d417d37d80e882645bd66ae985054789 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Os perfis metabólicos correlacionam-se com a infecção pelo VHC e são prognósticos da resposta viral em pacientes crônicos. Porém, pouco se sabe a respeito da associação entre perfis lipídicos e carga viral do VHC entre infecções dos genótipos 1, 2 ou 3. Portanto, o objetivo deste trabalho foi estudar a influência da viremia e dos genótipos do VHC sobre o metabolismo lipídico através das variações de lipoproteínas séricas (colesterol total, LDL, HDL, VLDL, triglicérides) e apolipoproteína B (Apo B) em hepatopatas crônicos, avaliando se o VHC predispõe os indivíduos ao aparecimento de complicações vasculares. O grupo amostral constituiu-se de um total de 150 pacientes crônicos do VHC com genótipos 1, 2 ou 3, e de um grupo controle de 20 indivíduos saudáveis (10 homens e 10 mulheres) em idade adulta (20 à 50 anos). Os níveis séricos de HDL (28%), VLDL (26%) e triglicérides (26%) nos portadores crônicos do VHC se mostraram diminuídos em relação ao grupo controle, enquanto os níveis de LDL (25%) e Apo B (29%) se mostraram elevados, resultados que foram mais importantes nos portadores do genótipo 3a. Observou-se correlação positiva entre a viremia e alterações nos níveis de apo B (r = 0,5763) nos portadores do genótipo 1b. Assim, foi pressuposto que o risco de pacientes portadores do VHC desenvolverem complicações vasculares é elevado, pois 1% de redução nos níveis de LDL está associado com uma redução de 2-3% no risco de desenvolvimento de doenças cardíacas, e como cerca de 90% da proteína na LDL se constitui de apo B, sua concentração plasmática indica o número total de partículas potencialmente aterogênicas. Desta forma, o perfil lipídico auxilia no diagnóstico da severidade da infecção hepática causada pelo VHC e ainda atua como um bom sinal prognóstico. / The metabolic profiles correlate with the hepatitis C virus infection and are prognostics for the viral reply in chronic patients. However, little is known regarding the distinguishing association between lipid profiles and hepatitis C viral load in patients carrying genotypes 1, 2 or 3. Therefore, the objective of this work was to study viremia and genotypes on the lipid metabolism through the serum lipoprotein variations (total cholesterol, LDL, HDL, VLDL, triglycerides) and apolipoprotein B (Apo B) in chronic carriers of this infection, evaluating if the HCV premakes the individual to the lipidic disequilibrium and favors the appearance of vascular complications. The amostral group consisted of 150 HCV chronic patients with genotypes 1, 2 or 3, and a control group consisted of 20 healthful individuals (10 men and 10 women) in adult age (20 to 50 years). The levels of HDL (28%), VLDL (26%) and triglycerides (26%) of the HCV chronic patients were lower than the control group, while the LDL levels (25%) and the Apo B levels (29%) were higher. These findings were more significant in the genotype 3a carrying patients. Positive correlation occurred between the viremia and the alterations in the Apo B levels (r = 0.5763) in the genotype 1b carrying patients. Consequently it was inferred that the risk of HCV patients to develop vascular complication is elevated. In general, 1% of reduction in the LDL levels is associated with a reduction of 2-3% in the risk of development of cardiac illnesses, and, as about 90% of the protein in the LDL is constituted of apo B, its plasmatic concentration indicates the total potentially atherogenics particles number. The lipid profile aids in the diagnosis of the severity of the hepatic infection and equally acts as a good signal prognostic, therefore its analysis must be carried through in all the cases of advanced hepatic infection.

Hepatite C - Vírus

Cholesterol

Hepatitis C virus

L'EGCG et la delphinidine : deux nouvelles molécules naturelles inhibant l'entrée du virus de l'hépatite C / EGCG and delphinidin : two new natural inhibitors of hepatitis C virus entry

Calland, Noémie

23 November 2012

L’hépatite C est un problème majeur de santé publique qui touche environ 160 millions de personnes dans le monde. L’agent étiologique responsable de cette maladie, le virus de l’hépatite C (HCV), est un petit virus enveloppé dont le génome est codé par un acide ribonucléique (ARN) simple brin de polarité positive. Actuellement, il n’existe aucun vaccin contre ce pathogène et les traitements utilisés sont insatisfaisants du fait de leur spécificité d’action limitée. Ainsi, afin d’établir une thérapie antivirale efficace évitant l’apparition et la sélection de mutants de résistance aux antiviraux, l’utilisation de plusieurs agents antiviraux ciblant directement la particule virale (direct acting antiviral agents ou DAAs) en combinaison est préconisée. C’est pourquoi la découverte de nouveaux DAAs à large spectre d’action ciblant diverses étapes du cycle viral infectieux est indispensable.Au cours de ma thèse, nous avons identifié un nouvel inhibiteur de l’entrée du HCV : l’épigallocatéchine-3-gallate (EGCG). Cette molécule, extraite du thé vert, inhibe l’infection des cellules par le HCV. Plus précisément, en utilisant des particules rétrovirales pseudotypées avec les glycoprotéines d’enveloppe E1 et E2 du HCV, nous avons démontré que cette catéchine naturelle, agit à une étape très précoce de l’entrée virale, indépendamment du génotype. De même, en nous servant du virus produit en culture cellulaire, nous avons montré que cette molécule agit directement sur la particule virale. Puis, par RT-PCR quantitative (quantitative real-time polymerase chain reaction), nous avons confirmé l’inhibition de la liaison du virus à la surface cellulaire, en présence d’EGCG. Par conséquent, nos travaux suggèrent que l’EGCG interagit avec la particule virale, probablement en se liant aux glycoprotéines d’enveloppe virales, bloquant ainsi une étape initiale d’attachement entre le virus et les facteurs cellulaires présents à la surface de l’hépatocyte. Puis, en inhibant la transmission libre du virus, à l’aide, soit d’agarose, soit d’anticorps neutralisants, nous avons démontré que l’EGCG inhibe la transmission du virus de cellule à cellule. Enfin, nous avons montré que l’EGCG élimine le virus présent dans le surnageant de culture cellulaire après quatre passages successifs sur des cellules naïves.La concentration d’EGCG nécessaire pour inhiber la moitié de l’infection virale (IC50) en culture cellulaire est 11 µM. Ainsi, afin d’identifier de nouvelles molécules présentant un mode d’action similaire à celui de l’EGCG et possédant une meilleure activité antivirale, nous avons sélectionnés différentes molécules naturelles et les avons testés pour leur potentiel effet anti-HCV. C’est ainsi que le chlorure de delphinidine, une anthocyanidine, a également été identifié en tant que nouvelle molécule inhibitrice de l’entrée du HCV. De même que l’EGCG, le chlorure de delphinidine cible directement la particule virale à une étape précoce de l’entrée, indépendamment du génotype, probablement en inhibant l’attachement du virus à la surface cellulaire et sans affecter ni l’étape de réplication, ni l’étape d’assemblage/maturation. De plus, le chlorure de delphinidine présente une activité anti-HCV améliorée avec une IC50 de 3 µM.Finalement, au cours de cette thèse, nous avons identifié deux nouvelles molécules naturelles inhibant l’étape d’entrée virale du HCV. Ces molécules pourraient être utilisées comme nouveau traitement en combinaison avec d’autres DAAs et pourraient également servir d’outil afin d’étudier les mécanismes d’entrée du HCV dans l’hépatocyte. / Hepatitis C is a major global health burden with 160 million infected individuals worldwide. This long-term disease, caused by a small positive-strand ribonucleic acid (RNA) enveloped virus, namely hepatitis C virus (HCV) evolves slowly. Nowadays, no vaccine is available and current treatments are unsatisfactory due to their restricted spectrum of action. For this reason, it is suggested that the combination of several drugs will prevent viral resistance and might conduct to an efficient antiviral therapy. Thus, the discovery of new direct acting antiviral agents (DAAs), with a broad spectrum of action, targeting different steps of the virus life cycle is still needed. Here, we identified (-)-epigallocatechin-3-gallate (EGCG) as a new inhibitor of HCV entry. Epigallocatechin-3-gallate, extracted from green tea, inhibits HCV infection. More precisely, this natural catechin molecule acts at a very early step of entry regardless of the genotype as illustrated with HCV pseudoparticles expressing HCV envelope glycoproteins E1 and E2 assays and cell-cultured HCV assays. Moreover, this molecule inhibits the docking of the virus to the cell surface as showed by the quantification of bound viruses during the attachment step using quantitative real-time polymerase chain reaction. Furthermore, EGCG inhibits viral cell-to-cell transmission as demonstrated by inhibiting cell-free transmission using agarose or neutralizing antibodies assays. Finally, EGCG clears HCV from cell culture supernatants after four passages.The half maximal inhibitory concentration (IC50) of EGCG in cell culture is approximately 11 µM. In order to identify new molecules exhibiting an enhanced anti-HCV activity and displaying similarities from EGCG scaffold, a series of natural compounds were selected and were tested for their anti-HCV activities. Thus, the anthocyanidin delphinidin chloride was identified as another inhibitor of HCV entry. Like EGCG, delphinidin chloride acts directly on the virus at a very early step of entry, regardless of the genotype, probably by inhibiting the docking of the virus to the cell surface without affecting replication or viral assembly/secretion. Finally, with an IC50 of 3 µM, delphinidin chloride displays a more potent anti-HCV activity.Together, these data indicate that EGCG and delphinidin chloride are new interesting anti-HCV molecules that inhibit entry and might be used as a new treatment in combination with other DAAs. Furthermore, these two inhibitors might be novel tools to further dissect the mechanisms of HCV entry into the hepatocyte.

EGCG

Delphinidine

Hépatite C

Hepatitis C virus

Accelerated ageing, senescence and the natural history of chronic hepatitis B virus infection

Tachtatzis, Phaedra Maria

January 2015

Hepatitis B virus infection (HBV) is an important health problem worldwide, with a significant rate of chronic infection, which can lead to cirrhosis and hepatocellular carcinoma (HCC). Increased age is an important determinant of progression to cirrhosis and HCC, possibly because age is a crude measure of the duration of HBV infection. Increasing age is associated with changes in liver structure, blood flow and function and with reduced response to injury, impaired regeneration and increased mortality in acute liver disease. Age has been identified as a co‐factor in several chronic liver diseases including chronic hepatitis C infection (HCV). Available evidence suggests differential ageing of various intrahepatic cell types in different liver diseases and the ageing process may be more complex in the liver than originally thought. Telomeres are DNA structures located at the end of each chromosome, which protect the underlying coding DNA from breaks and fusions and shorten with increasing age. Both DNA damage and cell proliferation lead to progressive telomere shortening, which ultimately leads to cell cycle arrest and a state of replicative senescence. Persistent HCV and HBV infections lead to cell cycle arrest, providing a favourable environment for viral replication. Evidence suggests that progressive telomere shortening occurs with advancing stage of liver disease in HBV and specifically from cirrhosis through large cell dysplasia to small cell dysplasia and to HCC. Whether cell cycle arrest leads to a senescent‐like state or whether this is the result of oxidative stress is unknown. Unpublished data using cell cycle phase markers in chronic HBV infection reveal that hepatocytes, which support HBV replication, are arrested in G1, which is mediated by hepatocyte p21 expression. I hypothesise that: 1. In normal liver tissue, different cell types age at different rates and this is altered during disease; 2. Hepatocyte senescence plays a significant role in the natural course of chronic HBV infection and underlies HBV antigen expression. I developed and optimised large volume Q‐FISH methodology to measure telomere length and nuclear size in a variety of intrahepatic cell lineages. In normal liver tissue, cholangiocytes had longer telomeres compared with all other intrahepatic lineages over a wide age range. Hepatocytes did not show any age‐related telomere shortening, in contrast to Kupffer and hepatic stellate cells. In chronic HBV infection, all hepatocytes had shortened telomeres when compared to age and sex‐matched controls consistent with accelerated ageing. HBV replication was confined to those hepatocytes with longer telomeres, suggesting that HBV entry or replication is less efficient in older hepatocytes and compatible with the fall in serum HBV DNA and HBsAg titre seen with advancing age. There may be two populations of hepatocytes in chronic HBV infection; hepatocytes that are growth arrested with short telomeres not supporting HBV replication and biologically 'younger' hepatocytes with longer telomeres that do support HBV replication. The change in cellular HBV antigen localisation with disease progression is also explained by age related changes in HBV expression. Nuclear Hepatitis B core antigen expression (HBcAg), characteristic of the early immune tolerant phase of infection, was associated with the longest telomeres, while cytoplasmic HBcAg expression was associated with shorter telomeres. Furthermore, the total number of hepatocyte telomeres fell with increasing fibrosis stage. Hepatocyte nuclear size, a marker of senescence, increased as HBcAg expression shifted from nucleus to cytoplasm; and p21, another senescence marker, never co‐localised with HBcAg expression. These results suggest that the location and production of HBV antigens are related to increased functional hepatocyte age and the onset of cellular senescence.

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