The incidence of hepatitis a virus in selected water sources and associated risk of infection in South Africa

Venter, Johanna Margaretha Elizabeth

13 August 2008

Hepatitis A virus (HAV) is a non-enveloped, positively charged single stranded RNA hepatotropic agent from the family Picornaviridae, and the sole member of the genus Hepatovirus. There is only one HAV serotype but there are seven genotypes. Hepatitis A (HA) infection is usually self-limiting and the severity of the illness is age dependant. In children, infection with HAV is usually asymptomatic, while most adults and immunocompromised patients develop moderate to severe clinical disease. HA is endemic in South Africa (SA) with 100% of children from the lower socio-economic population acquiring immunity before the age of 10. With the current trends in urbanisation, a change in the epidemic vulnerability of the SA population can be expected. HAV is predominantly transmitted by the faecal-oral route and contaminated food and water are important sources of infection. However, the contribution of waterborne HAV to the burden of HA disease in SA is unknown. The aims of this investigation were to assess techniques for the recovery, isolation and detection of HAV from water sources. Thereafter these techniques were applied to estimate the potential risk of infection posed to communities using the water sources for recreational and domestic purposes. This would elucidate whether or not water plays a role in the spread of HAV infection in SA. An effective and sensitive concentration method is fundamental to the successful detection of HAV in water sources. Three primary recovery and two secondary concentration techniques were investigated in this study. An in-house modified glass wool technique, using 15g of glass wool and with the addition of three metal gauze grids at 5g intervals, proved to be the most sufficient and cost effective technique for the primary recovery of HAV from water sources. The packing density of the glass wool and positioning of the grids proved to be essential for efficient HAV recovery. A polyethylene glycol/sodium chloride secondary concentration technique proved to be more cost effective than commercial centrifugal devices. Combinations of cell cultures, propagation conditions, RNA extraction protocols and detection techniques were assessed for the isolation and detection of HAV. A combination of FRhK-4R cell culture propagation and reverse transcription-polymerase chain reaction-oligonucleotide probe assay was demonstrated to be the simple, most efficient technique for the detection of HAV. The nucleotide sequences of HAV strains from water sources and clinical specimens were compared to ascertain whether the strains from water were a potential source of infection. Although the majority of clinical strains clustered seperately from the water strains, one strain from an asymptomatic patient was identical to a number of strains from water. This suggests that HAV in the environment is a potential source of infection in SA. To assess the potential risk of infection constituted by HAV to persons using surface dam and river water for domestic and recreational purposes, a deterministic exponential risk assessment model which works with mean values and conservative assumptions was applied. Results indicated a minimal risk of infection to the higher socio-economic, non-immune population using the water for recreational purposes, if 100 ml of water was ingested per day. No risk was identified for the lower socio-economic, predominantly immune, population who uses the same water sources for domestic and drinking purposes. This study represents the first comprehensive data on risk of infection constituted by waterborne HAV in SA. / Dissertation (MSc)--University of Pretoria, 2008. / Medical Virology / unrestricted

Molecular characterisation

Recovery

Detection techniques

Water

Hav

Hepatitis a virus

Risk assessment

UCTD

Estimating the cost-effectiveness of screening for hepatitis C virus infection in Japan / 日本におけるC型肝炎ウイルス検診の費用対効果の推定

Nagai, Kota

23 March 2021

京都大学 / 新制・課程博士 / 博士(社会健康医学) / 甲第23120号 / 社医博第116号 / 新制||社医||11(附属図書館) / 京都大学大学院医学研究科社会健康医学系専攻 / (主査)教授 今中 雄一, 教授 中山 健夫, 教授 佐藤 俊哉 / 学位規則第4条第1項該当 / Doctor of Public Health / Kyoto University / DFAM

cost-effectiveness

direct-acting antiviral

hepatitis C virus

Japan

screening

493

Activity-Based Protein Profiling Reveals Changes to the Regulation of Enzymatic Activity by the Hepatitis C Virus

Desrochers, Geneviève Ferraro

05 February 2021

Biological systems, their physical structure and their functions, are built, maintained, and controlled by the activity of enzymes. Understanding how enzymes contribute to the regulation of various pathways and processes allows us to gain a deeper understanding of the entirety of the biological system. As changes in enzyme activity are often essential for the pathogenesis of multiple and varied diseases, identifying these changes represents a crucial step to both understanding the disease and preventing its progression within the individual. Enzymes’ functional output can be controlled by numerous different mechanisms, including control of transcription and translation, subcellular localisation, co-factor interactions, or chemical modification to specific amino acids. Activity-based protein profiling allows the potential for activity of target enzymes to be measured, thereby gaining a more accurate representation of the functional state of the biological system. In this work, profiling differential enzyme activity allows the discovery of previously unknown links between metabolic regulatory enzymes and infection by the hepatitis C virus (HCV). The novel probe wortmannin-yne is described and is shown to be able to report on the activity multiple kinases, including MAPK1, whose activity is dysregulated during HCV replication. Novel probes designed to target a smaller selection of kinases, phosphatidylinositol kinases, are reported and are shown to be capable of measuring HCV-induced changes to not only kinase activity but also regulatory protein-protein interactions with the phosphoinositide kinases. Lastly, the role of microRNA-27b in the HCV-induced dysregulation of lipid metabolic enzymes is examined. Three novel targets of microRNA-27b are identified, and their dysregulation is shown to have an effect on the life cycle of HCV. Altogether, this work has developed new tools for the study of metabolic enzymes and identified new avenues of investigation into the dysregulation of lipid metabolism.

Host-virus interactions

Activity-based protein profiling

Hepatitis C virus

Kinases

microRNA

miR-27b

Analyse du transport intracytoplasmique de la capside du virus de l’hépatite B : analyse des interactions entre les capsides du VHB et les chaînes du complexe de la dynéine / Analysis of interactions between HBV capsids and the chains of the dynein motor complex

Osseman, Quentin

17 December 2014

Le virus de l’hépatite B (VHB) utilise la machinerie transcriptionnelle nucléaire pour sa réplication. Le génome viral est transporté de la périphérie cellulaire à l’enveloppe nucléaire. Généralement, ce transport intracytoplasmique rétrograde est facilité par le réseau de Mt via l’utilisation du complexe moteur de la dynéine. Nous avons montré que le transport des capsides du VHB dépend des Mt, ce qui permet l’adressage des capsides aux complexes du pore nucléaire (NPC) ; lequel est requis pour l’étape de libération du génome de la capside dans le noyau.Dans cette étude, nous avons utilisé des capsides provenant de virus récupérés dans du surnageant de HepG2.2.15, qui contiennent le génome mature partiellement double brin (capsides matures), et des capsides exprimées chez E.coli. Ces dernières sont utilisées telles quelles, capsides E.coli contenant de l’ARN, ou bien sont utilisées pour préparer des capsides vides. Après microinjection dans des ovocytes de Xenopus laevis, nous avons observé que les capsides vides et les capsides matures sont transloquées aux NPC avec une cinétique similaire. Les capsides contenant de l’ARN ne sont pas identifiées aux NPCs ce qui implique que le transport des deux autres types de capsides est actif. Cela a été confirmé par la pré-injection d’anticorps anti tubuline qui neutralisent le transport assuré par les Mt.L’attachement spécifique des capsides matures et vides aux Mt a été confirmé en utilisant des Mt polymérisés in vitro, nous avons montré que cette interaction nécessitait des protéines cytosoliques. En utilisant des expériences de coïmmunoprécipitation et de cosédimentation nous avons identifié une chaîne légère de la dynéine (DynLL1 membre de la famille Lc8) comme partenaire des capsides. Dans les expériences de microinjection, la comicroinjection d’un excès de DynLL1 avec les capsides inhibe leur transport vers les NPCs, indiquant que DynLL1 est impliquée dans le transport actif des capsides.DynLL2 qui n’interagit pas avec les capsides diffère de DynLL1 de seulement six acides aminés. Par mutagénèse dirigée de DynLL1, nous avons montré l’implication de deux acides aminés dans l’interaction directe avec les capsides. Ces deux acides aminés sont présents à la surface du dimère de DynLL1 et absents dans le sillon résultant de la dimérisation de DynLL1, sillon impliqué dans l’interaction avec la DynIC. Nous avons partiellement reconstitué le complexe DynIC, DynLL1 et capsides vides qui doit en partie refléter la situation in vivo. / Hepatitis B virus (HBV) needs the nuclear transcription machinery for replication. The virus thus depends on the transport of its genome from the cell periphery to the nuclear envelope. In general this retrograde intracytoplasmic trafficking is facilitated along Mt (MT) using motor protein complexes of the dynein family. As we showed earlier HBV capsid transport also depends upon intact MT in order to allow their arrival at the nuclear pores, which in turn is required for genome liberation from the capsid.In the analysis we used virus-derived HBV capsids obtained from the supernatant of HepG2.2.15, which contain the mature partially double-stranded DNA genome (mature capsids) and capsids expressed in E. coli. The latter were applied in two forms: as unspecific E. coli RNA- containing capsids and as empty capsids. Upon microinjection into Xenopus laevis oocytes we observed that mature and empty capsids were translocated to the nuclear pores with a similar kinetic. RNA-containing capsids failed to arrive at the pores implying that transport of the two other capsid types was active. Active translocation was confirmed by pre-injecting anti tubulin antibodies which interfere with MT-mediated translocation.In vitro reconstitution assays confirmed the specific attachment of mature and empty capsids to MTs and showed the need of further cytosolic proteins. Using pull-down and co-sedimentation experiments we identified one dynein light chain (DYNLL1, member of the Lc8 family) as interaction partner of the capsids. Injecting an excess of recombinant DYNLL1 with empty capsids into Xenopus laevis oocytes inhibited capsid transport to the nuclear pores indicating that DYNLL1 was only functional interaction partner implied in active transport.DNYLL2 did not interact with the capsids although differing from DYNLL1 by just six amino acids. Site directed mutagenesis of DYNLL1 revealed that two amino acids were critical for a direct interaction with the capsids. Both localized at the exterior of the DYNLL1 dimer and not in the groove of DYNLL1, which interacts with the dynein intermediate chain. Accordingly we could reconstitute a complex consisting of empty capsids, DYNLL1 and dynein intermediate chain as it should be in the in vivo situation.

Virus de l’hépatite B

Capsides

Microtubule

Dynéine

Transport cytoplasmique

Hepatitis B virus

Capsids

Microtubule

Dynein

Cytoplasmic transport

Role kapsidového proteinu virové hepatitidy B v hostitelském ubikvitin-proteazomovém systému / The role of Hepatitis B virus capsid protein in the host ubiquitin proteasome pathway

Eliáš, Vratislav

January 2018

Hepatitis B virus (HBV) is a Hepadnaviridae virus infecting mammals. Its infection can result in an acute or chronic infection. Chronic infection can result in hepatocellular carcinoma and liver cirrhosis, potentially leading to death of the patient. HBV is a small 42 nm virus with a genome length of 3.2 kb encoding seven viral proteins. HBV Core protein (HBc) is a capsid forming protein which is pleiotropic in function. We have identified two ubiquitin ligases which could interact with this protein: F-box only protein 3 (FBXO3; E3 ubiquitin ligase) and Ubiquitin conjugating enzyme E2 O (UBE2O; E2/E3 ubiquitin ligase). By employing multiple methods we have confirmed these interactions. Co- immunoprecipitation and further western blot analysis unveiled multiple new insights into the ligases′ impact on HBc: FBXO3-mediated HBc polyubiquitination stimulation and UBE2O-mediated HBc monoubiquitination promotion. FBXO3's and UBE2O's role in HBV life cycle was investigated as well. By silencing the expression of FBXO3 and UBE2O respectively, we have observed changes in HBV replication levels: FBXO3 serves as an inhibitor of HBV replication, while UBE2O stimulates the course of HBV life cycle. Further investigation of these newly-discovered understandings may lead to a whole new HBV - host interplay...

Molecular characterization of full genome hepatitis b virus sequences from an urban hospital cohort in Pretoria, South Africa

Le Clercq, Louis Stephanus

January 2014

Hepatitis B Virus (HBV) is a DNA virus and belongs to the genus Orthohepadnavirus of the Hepadnaviridae family which represents one of two animal viruses with a DNA genome which replicates by reverse transcription of a viral RNA intermediate. Nucleotide variation led to further sub-classification into 8 genotypes (A to H). The reverse transcription step within its life cycle is prone to the introduction of errors and recombination when dually infected. This leads to a viral quasispecies which forms during the course of infection with many minor population variants; such variants can however only be detected by means of ultra-deep sequencing. A recent study in the Department of Medical Virology (UP) by Mayaphi et al. identified a number of the specimens that partitioned away from the typical subgenotype A1 clades with high bootstrap values and longer branch lengths. Thus, the main objective of the current study was to characterize the full genome of all variants for the outliers observed in the aforementioned study, inclusive of potential recombination, dual infection and minor populations. Twenty samples were selected from a previous cohort for purposes of the present study. The viral DNA was extracted and amplified by PCR according to the methods described by Günther et al. with modified primer sets. Nineteen of the samples were successfully amplified and 15 of these were sequenced. Specimens were sequenced by NGS on the Illumina MiSeq™ sequencer and sequence data used to reconstruct the viral quasispecies of each specimen. Further analyses of the reconstructed variants included molecular characterization as well as phylogenetic analysis and screening for recombination and drug resistance mutations. Full genome coverage was obtained for twelve of the fifteen samples and full genome variants reconstructed, generating nearly 40 full genomes. Phylogenetic analysis showed that the majority of the samples are of genotype A, more specifically of subgenotype A1, differing by less than 4% from known sequences. The phylogenetic analysis revealed a similar clade of outliers, where four samples clustered together with significant bootstrap support (75%) and a fifth sample partitioned separate from, yet close to, this clade, away from the typical African A1 clade. This clade was assigned to genogroup III. Three samples were of the Asian A1 clade (genogroup I) with remaining specimens grouping within genotype D and E. The variants showed low diversity within each specimen with some differing at but a few positions across the genome while even the most diverse quasispecies differed by less than a percentage (32 positions). Several unique and atypical positional variations were observed amongst study samples of which some were present in but one of the variants for that sample. Twenty-six lead to shared amino acid changes. Some observed changes, such as A1762T/G1764A and G1896A, could explain the serological patterns such as HBeAg negativity while others, such as C2002T, were previously implicated in disease progression and severity. Sample N199 presented a longer branch length and revealed short regions within the genome that display evidence of recombination between HBV/A1 and HBV/A2. The results illustrate the utility of NGS technology in characterizing viral variants. / Dissertation (MSc)--University of Pretoria, 2014. / lk2014 / Medical Virology / MSc / Unrestricted

Hepatitis B virus (HBV)

Genotypes

Variants

Quasispecies

Next generation sequencing (NGS)

UCTD

Interferon-α-Enhanced CD100/Plexin-B1/B2 Interactions Promote Natural Killer Cell Functions in Patients With Chronic Hepatitis C Virus Infection

He, Yu, Guo, Yonghong, Fan, Chao, Lei, Yingfeng, Zhou, Yun, Zhang, Mingjie, Ye, Chuantao, Ji, Guangxi, Ma, Li, Lian, Jianqi, Moorman, Jonathan P., Yao, Zhi Q., Wang, Jiuping, Hao, Chunqiu, Zhang, Ying, Jia, Zhansheng

03 November 2017

Background: CD100, also known as Sema4D, is an immune semaphorin constitutively expressed on natural killer (NK) cells and T cells. As an immune activation molecule, CD100 has important immunoregulatory effects on NK functions by enhancing the interactions between NK cells and target cells. The aim of this study was to investigate whether hepatitis C virus (HCV) infection affects CD100 expression, and whether interferon-α treatment enhances NK killing activity to facilitate HCV clearance via CD100. Methods: Expression of CD100 on NK cells was evaluated by flow cytometry in patients with chronic HCV infection, with or without pegylated interferon-α-based therapy. NK cell cytotoxicity and interferon (IFN)-γ production were measured by flow cytometry upon culturing the NK cells with K562 and Huh7.5 or HCV JFH-1-infected Huh7.5 cells. Results: The frequency of CD100+ NK cells in HCV-infected individuals was slightly suppressed compared to healthy subjects. IFN-α treatment could significantly upregulate CD100 expression, which was confirmed by in vitro studies using peripheral blood mononuclear cells cocultured with HCV-expressing Huh7.5 cells or IFN-α. Importantly, the expression of CD100 on NK cells from HCV patients was inversely associated with the HCV-RNA levels in the early phase of IFN-α therapy, and the IFN-α upregulated CD100 led to an enhanced NK killing activity through ligations with its receptors plexin-B1/B2 on target cells. Conclusion: These results implied a novel mechanism by which IFN-α enhanced CD100/Plexin-B1/B2 interaction plays an important role in promoting NK functions in patients with chronic hepatitis C.

CD100

hepatitis C virus

interferon-α

natural killer cells

plexin-B1/B2

Internal Medicine

Development of a Dendritic Cell Vaccine Encoding Multiple Cytotoxic T Lymphocyte Epitopes Targeting Hepatitis C Virus

Zhou, Yun, Zhao, Futao, Chen, Lin, Ma, Li, Wang, Yu, He, Yu, Ma, Zhiyuan, Liu, Haili, Guo, Yonghong, Zhang, Ying, Yao, Zhi Qiang, Hao, Chunqiu, Jia, Zhansheng

01 October 2013

The aim of the present study was to develop a dendritic cell (DC) vaccine encoding hepatitis C virus (HCV) multiple cytotoxic T lymphocyte (CTL) epitopes that can stimulate T cell responses in vitro, and can be used for immunization in vivo. DCs were infected with recombinant replication-defective adenoviruses (Ads) expressing 2 HCV sequences fused with green fluorescent protein (GFP) and FLAG tags. One sequence (sequence 1) contained the HCV CTL epitopes, NS4B 1793-1801 and P7 774-782, as well as the HCV Th epitope, NS3 1248-1261. A second sequence (sequence 2) was the positive epitope control which contained HCV core 35-44, core 132-140 and NS3 1248-1261. The efficiency of infection was detected by flow cytometry and the expression of HCV epitopes in the DCs was confirmed by RT-PCR and western blot analysis. Ad infection significantly enhanced DC maturation and interleukin (IL)-12p70 production, resulting in T cell proliferation and increased interferon-γ secretion. The CTLs stimulated by Ad-infected DCs specifically killed Huh7.5 human hepatoma cells. The recombinant Ad-expressing multiple CTL HCV epitopes effectively infected the DCs in vitro and promoted T cell antiviral immune responses, thereby laying the foundation for the development of anti-HCV DC vaccines.

adenovirus

cytotoxic T lymphocyte epitope

dendritic cell

hepatitis C virus

vaccine

Internal Medicine

Development of a Dendritic Cell Vaccine Encoding Multiple Cytotoxic T Lymphocyte Epitopes Targeting Hepatitis C Virus

Zhou, Yun, Zhao, Futao, Chen, Lin, Ma, Li, Wang, Yu, He, Yu, Ma, Zhiyuan, Liu, Haili, Guo, Yonghong, Zhang, Ying, Yao, Zhi Qiang, Hao, Chunqiu, Jia, Zhansheng

01 October 2013

The aim of the present study was to develop a dendritic cell (DC) vaccine encoding hepatitis C virus (HCV) multiple cytotoxic T lymphocyte (CTL) epitopes that can stimulate T cell responses in vitro, and can be used for immunization in vivo. DCs were infected with recombinant replication-defective adenoviruses (Ads) expressing 2 HCV sequences fused with green fluorescent protein (GFP) and FLAG tags. One sequence (sequence 1) contained the HCV CTL epitopes, NS4B 1793-1801 and P7 774-782, as well as the HCV Th epitope, NS3 1248-1261. A second sequence (sequence 2) was the positive epitope control which contained HCV core 35-44, core 132-140 and NS3 1248-1261. The efficiency of infection was detected by flow cytometry and the expression of HCV epitopes in the DCs was confirmed by RT-PCR and western blot analysis. Ad infection significantly enhanced DC maturation and interleukin (IL)-12p70 production, resulting in T cell proliferation and increased interferon-γ secretion. The CTLs stimulated by Ad-infected DCs specifically killed Huh7.5 human hepatoma cells. The recombinant Ad-expressing multiple CTL HCV epitopes effectively infected the DCs in vitro and promoted T cell antiviral immune responses, thereby laying the foundation for the development of anti-HCV DC vaccines.

adenovirus

cytotoxic T lymphocyte epitope

dendritic cell

hepatitis C virus

vaccine

Internal Medicine

Role of A20 in Interferon-α-Mediated Functional Restoration of Myeloid Dendritic Cells in Patients With Chronic Hepatitis C

Ma, Li, Zhou, Yun, Zhang, Ying, Li, Yuan, Guo, Yonghong, He, Yu, Wang, Jiuping, Lian, Jianqi, Hao, Chunqiu, Moorman, Jonathan P., Yao, Zhi Q., Zhou, Yongxing, Jia, Zhansheng

01 January 2014

Hepatitis C virus (HCV) infection is a global health problem characterized by a high rate of chronic infection, which may in part be due to a defect in myeloid dendritic cells (mDCs). This defect appears to be remedied by treatment with interferon-α (IFN-α) -based antiviral therapies; however, the molecular mechanisms underlying mDC dysfunction in HCV infection and restoration by IFN-α treatment are unclear. The ubiquitin-editing protein A20 plays a crucial role in controlling the maturation, cytokine production and immunostimulatory function of mDCs. We propose that the expression of A20 correlates with the function of mDCs during HCV infection and IFN-α therapy. In this study, we observed that A20 expression in mDCs isolated from chronically HCV-infected subjects was significantly higher than healthy subjects or subjects achieving sustained virological responses (SVR) following antiviral treatment. Notably, A20 expression in mDCs from HCV patients during IFN-α treatment was significantly lower than for untreated patients, SVR patients, or healthy subjects. Besides, A20 expression in mDCs stimulated by polyI:C differed between HCV patients and healthy subjects, and this difference could be abrogated by the treatment with IFN-α in vitro. Additionally, A20 expression by polyI:C-activated mDCs, with or without IFN-α treatment, negatively correlated with the expression of HLA-DR, CD86 and CCR7, and the secretion of interleukin-12 (IL-12), but positively associated with the production of IL-10. Importantly, silencing A20 expression using small interfering RNAs increased the production of IL-12 in mDCs of chronically HCV-infected individuals. These findings suggest that A20 plays a crucial role in negative regulation of innate immune responses during chronic viral infection.

A20

chronic infection

hepatitis C virus

interferon-α

myeloid dendritic cells

Internal Medicine