Hepatitis B virus and single nucleotide polymorphisms

Lau, Chi Chiu

01 January 2007

No description available.

Hepatitis B virus

Hepatitis B

Research

Development of Biomolecular Tools for Studying Host-Virus Interactions of the Hepatitis C Virus

Nasheri Ardekan, Neda

January 2015

Hepatitis C virus (HCV) is a growing health concern in Canada and around the world, as it currently infects 3% of the global population. While there is no vaccine available against this virus, novel and effective treatment regimens have improved prospects for the cure of HCV. Complications caused by HCV can lead to severe liver disease and even death. The limited viral proteome forces HCV to rely heavily on various host factors for its replication. Additionally HCV modulates the host physiology to facilitate its pathogenesis; consequently, the in dept study of essential host-virus interactions expands our understandingof how the virus and related species commandere host cell machinery. This understanding can help create new therapeutic strategies, which may have applications towards HCV and other related RNA viruses. While numerous studies have demonstrated that HCV modulates the abundance of various host proteins, the systematic study of the virus’s effect on the enzymatic activity has been relatively unexplored. For this reason, activity-based protein profiling (ABPP) was applied to study the changes in the activity of host enzymes during HCV replication. ABPP is a functional proteomics technique that employs active site-directed probe (ABP) to report on the activity of enzymes within complex proteomes, such as living cells. Herein, directed and non-directed ABPs were employed for specific as well as global profiling of the alterations in the activity of cellular enzymes during HCV replication. As a result, essential host enzymes that are differentially active during HCV infection were identified. Furthermore, I have developed a quantitative ABPP method for relative quantification of the cellular enzymes activity during HCV infection. These results contribute to the discovery of disease-associated biomarkers, with diagnostic significance, and aid in the identification of potential targets for therapeutic interventions. In addition to developing protein-based tools to study host-virus interactions, I employed a novel technique to investigate the interactions of micro-RNA 122 (miR-122), an essential HCV host factor, with the viral RNA genome. This in vitro screening approach, interrogates the folding of HCV RNA using viral RNA-coated magnetic bead (VRB) to determine target site accessibility for RNA silencing. This method predicts the relative affinity of small RNAs towards HCV genomic RNA that are not easily predicted by informatic means, and led to discovery of potent miR-122 interaction site within the large, highly-structured HCV RNA genome. For that reason, VRB assay may represent an attractive tool for the examination of target site accessibility for RNA silencing.

Hepatitis C Virus

Activity-Based Protein Profiling

Generalized Impairment of CD8+ T-cells in HCV Mono- and HIV-HCV Co-infection

Burke, Stephanie

January 2015

Chronic hepatitis C virus (HCV) infection has global effects on the immune system. CD8+ T-cells, responsible for viral clearance and control, are dysfunctional for as yet unknown reasons. It is hypothesized that IL-7 signaling pathway deficiencies contribute to this impairment. Blood-derived CD8+ T-cells in chronic HCV mono- and HIV-HCV co-infection had lower IL-7-induced activation of STAT5 and production of Bcl-2, and lower proliferation in co-infection, compared to controls. Lower Bcl-2 production was also associated with increased fibrosis. These changes were independent of the IL-7 receptor α expression and suppressor of cytokine signaling 1 or 3 expression. Intrahepatic CD8+ T-cells in HCV-infection did not activate STAT5 above basal levels with cytokine stimulation and had lower Bcl-2 expression than blood-derived cells. In conclusion, bulk CD8+ T-cells were impaired in response to IL-7 and the IL-7 signaling pathway may be one mechanism by which CD8+ T-cells are impaired in chronic HCV infection.

Hepatitis C Virus

CD8+ T cell

HIV

Assessing the Global Burden of Hepatitis E Virus Associated with Genotypes 1, 2, 3 and 4

Saboui, Myriam

January 2016

Globally, policy recommendations on vaccines as provided by the Strategic Group of Experts on Immunization (SAGE) rely on a number of factors including burden of disease. In the scope of this thesis, two studies were conducted in order to inform the World Health Organization Hepatitis E Virus (HEV) working group and ultimately the SAGE: 1) a systematic review and meta-analysis of the global incidence, prevalence and mortality associated with all genotypes of HEV; and 2) a global subgroup analysis of incidence, prevalence and mortality on special populations and high risk populations. Circulation of HEV was documented in all global regions. Severe disease was observed among pregnant women and fulminant hepatic failure patients in both studies conducted. Poor data quality was observed in both studies, this poses a serious challenge for estimating the burden of disease. Countries should consider the implementation of an HEV surveillance system to improve data quality and ultimately to inform decision-making.

Hepatitis E Virus

acute viral hepatitis

epidemiology

Discovery of Novel Strains of Animal Hepatitis E Viruses in the United States: Antigenic and Genetic Characterization, Cross-Species Infection, and Public Health Implications

Cossaboom, Caitlin Marie

30 April 2015

Hepatitis E virus (HEV) is an important human pathogen, with pigs and likely other animal species serving as natural reservoirs. There are currently four recognized HEV genotypes that infect humans within the genus Hepevirus of the family Hepeviridae. Genotypes 1 and 2 are human viruses that are associated with waterborne and fecal-oral transmission in developing countries, while genotypes 3 and 4 have been identified in humans and other animal species and are zoonotic and endemic in both industrialized and developing countries. In my dissertation research, we identified the first strain of HEV from rabbits in the United States. We subsequently determined the complete genome sequence of the virus. Phylogenetic analyses of the full-length sequence indicated that U.S. rabbit HEV is a distant member of the zoonotic genotype 3, thus raising a potential concern for zoonotic infection. In order to investigate the cross-species potential of rabbit HEV, we then determined its antigenic cross-reactivity with other animal strains of HEV. Additionally, we demonstrated that the novel rabbit HEV could cross species barriers and infect pigs under experimental conditions. Finally, we attempted to determine the risk factors and sources of foodborne HEV infection in the United States. We detected HEV for the first time from non-liver pork commercial products in the United States and demonstrated consumption of undercooked meat a risk factor for HEV infection. HEV sequences of genotype 3 origin were detected from pork products purchased from grocery stores in Southwest Virginia. Approximately 6.3% (21/335) of university students tested seropositive for HEV antibodies and, importantly, those with a history of consuming undercooked meats were 13 times more likely to be seropositive. These results further underscore the importance of cooking pork thoroughly and using proper hygiene when preparing meals. / Ph. D.

zoonosis

transmission

Hepatitis E Virus

cross-species

Foodborne Transmission and Molecular Mechanism of Cross-species Infection of Hepatitis E Virus (HEV)

Feagins, Alicia R.

09 December 2010

Hepatitis E virus (HEV), the causative agent of hepatitis E, is an emerging virus of global distribution. At least four distinct genotypes of HEV exist worldwide: genotype 1 and 2 HEV strains are responsible for waterborne epidemics; genotype 3 and 4 HEV strains are responsible for sporadic occurrences of acute hepatitis E. Genotype 3 and 4 HEVs are zoonotic and have a more expanded host range than genotypes 1 and 2 which are restricted to humans. Genotype 3 and 4 HEV isolates obtained from animal tissues are genetically very similar, or identical in some cases, to human HEV recovered from hepatitis E patients. The objectives of this dissertation research were to assess the zoonotic foodborne transmission of HEV and elucidate the viral determinants of HEV host range. To determine the risk of HEV foodborne transmission, 127 packages of commercial pig liver were tested for HEV RNA. Eleven percent of them were positive for HEV RNA and the contaminating virus remained infectious. We also demonstrated that medium-to-rare cooking condition (56°C) does not completely inactivate HEV, although frying and boiling of the contaminated livers inactivated the virus. To reduce the risk of foodborne HEV transmission, commercial pig livers must be thoroughly cooked for consumption. To determine the host range of genotype 4 HEVs, pigs were inoculated with a genotype 4 human HEV. All pigs developed an active HEV infection indicating that genotype 4 human HEVs can cross species barriers and infect pigs. To identify viral determinant(s) of species tropism, ORF2 alone or in combination with its adjacent 5′ junction region (JR) and 3′ non-coding region (NCR), were swapped between genotypes 1 and 4, 3 and 4, and 1 and 3 to produce 5 chimeric viruses. Chimeric viruses containing ORF2 or JR+ORF2+3' NCR from genotype 4 human HEV in the backbone of genotype 3 swine HEV were viable in vitro and infectious in vivo. Chimeric viruses containing the JR+ORF2+3'NCR of genotypes 3 or 4 HEV in the backbone of genotype 1 human HEV were viable in vitro but non-infectious in pigs, suggesting that ORF1 may also be important for host range. / Ph. D.

foodborne

cross-species

transmission

Hepatitis E Virus (HEV)

Cross-protection and Potential Animal Reservoir of the Hepatitis E Virus

Sanford, Brenton Joel

23 July 2012

HEV is an important public health concern due largely to water-borne outbreak. Recent research confirms individual cases of zoonotic transmission due to human exposure to contaminated animal meats. At least four recognized and two putative genotypes of mammalian HEV have been reported: genotypes 1 and 2 are restricted to humans whereas genotypes 3 and 4 are zoonotic. In addition to humans, strains of HEV have been genetically identified from pigs, chickens, rats, mongoose, deer, rabbits and fish. The current experimental vaccines are all based on a single strain of HEV, even though multiple genotypes of HEV are co-circulating in some countries and thus an individual may be exposed to more than one genotype. Therefore, it is important to know if prior infection with a genotype 3 swine HEV will confer protective immunity against subsequent exposure to genotypes 3 and 4 human and swine HEV. In the first study, specific-pathogen-free pigs were divided into 4 groups of 6 each. Pigs in the three treatment groups were each inoculated with a genotype 3 swine HEV, and 12 weeks later, challenged with the same genotype 3 swine HEV, a genotype 3 human HEV, and a genotype 4 human HEV, respectively. Sera from all pigs were tested for HEV RNA and IgG anti-HEV, and fecal samples were also tested for HEV RNA each week. The pigs inoculated with swine HEV became infected as evidenced by fecal virus shedding and viremia, and the majority of pigs also developed IgG anti-HEV prior to challenge at 12 weeks post-inoculation. After challenge, viremia and fecal virus shedding of challenge viruses were not detected, suggesting that prior infection with a genotype 3 swine HEV prevented pigs from developing viremia and fecal virus shedding after challenge with homologous and heterologous genotypes 3 and 4 HEV, respectively. Immunogenic epitopes are located within the open reading frame 2 (ORF 2) capsid protein and recombinant ORF 2 antigens are capable of preventing HEV infection in non-human primates and chickens. In the second study we expressed and purified N-truncated ORF 2 antigens based on swine, rat, and avian HEV strains. Thirty pigs were randomly divided into groups of 6 pigs each and initially vaccinated with 200µg swine ORF 2 antigen, rat ORF 2 antigen, avian ORF 2 antigen, or PBS buffer (positive and negative control groups) and booster with the same vaccine 2 weeks later. At 4 wks, after confirming seroconversion to IgG anti-HEV antibody with ELISA, all groups except the negative control were challenged with swine genotype 3 HEV (administered intravenously). The protective and cross-protective abilities of these antigens were determined following swine genotype 3 challenge by evaluating both serum and fecal samples for HEV RNA using nested RT-PCR and IgG anti-HEV using ELISA. The results from these two studies have important implications for future development of an effective HEV vaccine. As a part of our ongoing efforts to search for potential animal reservoirs for HEV, we tested goats from Virginia for evidence of HEV infection and showed that 16% (13/80) of goat sera from Virginia herds were positive for IgG anti-HEV. Importantly, we demonstrated that selected goat sera were capable of neutralizing HEV in cell culture. Subsequently, in an attempt to genetically identify the HEV-related agent from goats, we conducted a prospective study in a closed goat herd with known anti-HEV seropositivity and monitored a total of 11 kids from the time of birth until 14 weeks of age for evidence of HEV infection. Seroconversion to IgG anti-HEV was detected in 7 out of the 11 kids, although repeated attempts to detect HEV RNA by a broad-spectrum nested RT-PCR from the fecal and serum samples of the goats that had seroconverted were unsuccessful. In addition, we also attempted to experimentally infect laboratory goats with three well-characterized mammalian strains of HEV but with no success. The results indicate that a HEV-related agent is circulating and maintained in the goat population in Virginia and that the goat HEV is likely genetically very divergent from the known HEV strains. / Ph. D.

animal reservoir

cross-protection

Hepatitis E virus (HEV)

The Role of e-Antigen in Hepatitis B Infection

Saul, April Leigh

29 June 2015

Mathematical modeling of biological systems has improved the knowledge of scientists for many years. In virology, particularly in the study of hepatitis B virus, mathematical models were used to explain interactions between hepatitis B virus and the human host in the absence and presence of interventions such as drug therapy and vaccines. This thesis seeks to explain the role of e-Antigen, a particle produced by hepatitis B virus, in the pathogenesis of hepatitis B infection. To accomplish this goal, I will provide biological background as well as previous modeling work on the role of e-Antigen in hepatitis B virus infection, before finally developing a new model adapted specifically for connecting hepatitis B progression with e-Antigen and drug therapy. I will analyze the model both analytically and numerically, fit it to virus data from humans chronically infected with hepatitis B that undergo drug therapy, and draw conclusions about the relation between drugs, immune activation, and loss of e-Antigen. / Master of Science

Mathematical modeling

Hepatitis B Virus

e-Antigen

Modification to the immunodominant loop of hepatitis B virus core protein to enhance vector properties of virus-like particles

Hean, Justin

08 September 2014

Gene therapy has shown potential in alleviating a wide range of diseases, ranging from viral infections to autosomal diseases. One of the obstacles to gene therapy reaching its full potential is the inadequacy of methods to deliver therapeutic nucleic sequences. Current delivery of gene therapy entails use of viral and non-viral vectors. Viral vectors are however associated with drawbacks such as potential toxicity, high cost and labour-intensive production. Thus non-viral delivery alternatives are being developed in an attempt to overcome difficulties associated with nucleic acid delivery for gene therapy. Virus-like particles are potentially very useful delivery vehicles as their production is simple and cost effective, the particle surface is amenable to modification and the capsid interior can be altered to accommodate a variety of cargoes. One such particle is the recombinant HBV capsid, which comprises a single species of protein and is tolerant of amino acid substitutions on the surface exposed immunodominant loops. This study aimed to enhance the vector-like properties of the HBV virus-like particle by including amino acid substitutions on the particle surface. These substituted residues in turn provided a conjugation site for tropic and immuno evasive moieties. It was found that lysine substitutions resulted in poor conjugation to the capsid surface, whereas substituted cysteine residues resulted in almost all protein-moiety conjugates forming. In order to introduce lysine and cysteine substitutions, a novel method of cloning into the HBV was generated. In doing so, complicated procedures associated with cloning into the immunodominant loop of the HBV capsid have been alleviated. Ligands containing galactose were utilised on the surface of both the HBV capsid and liposomes to confer hepatotropism. The presence of the galactose moieties on the surface of the HBV capsid prevented indiscriminate cellular uptake in cultured cells, however did not improve hepatotropism. Galactose ligands on the surface of liposomes did improve transfection efficiency, however they required a short linker distance between liposome surface and galactose group. The inclusion of galactose in liposome formulations also provided a means to deliver siRNA to the liver of transgenic HBV mice. It is believed that with alterations to the ligand structure, it is possible to provide HBV capsids with hepatotropism in future experimentation. This study demonstrated that the exposed external surface of the HBV capsid is amenable to convenient conjugation, which potentially facilitates immune evasion and conferring of defined tropism.

Immunodominant Epitopes--genetics

Hepatitis B Virus--genetics

Hepatitis B Surface Antigens

Hepatitis B Virus--Immunology

Viral mutations and natural course of HBeAg negative chronic hepatitis B virus infection. / CUHK electronic theses & dissertations collection

January 2001

by Chan Lik-yuen, Henry. / Thesis (M.D.)--Chinese University of Hong Kong, 2001. / Includes bibliographical references (p. 192-217). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web.

Hepatitis B virus

Hepatitis B virus--Hong Kong

Hepatitis B Antigens

Hepatitis B Antigens--Hong Kong