Your search keyword '"Bukh, Jens"' showing total 21 results

1. Advantages of a single-cycle production assay to study cell culture-adaptive mutations of hepatitis C virus

Author

Russell, Rodney S., Meunier, Jean-Christophe, Takikawa, Shingo, Faulk, Kristina, Engle, Ronald E., Bukh, Jens, Purcell, Robert H., and Emerson, Suzanne U.

Subjects

Hepatitis C virus -- Physiological aspects, Hepatitis C virus -- Genetic aspects, Gene mutations -- Research, Science and technology

Abstract

The JFH1 strain of hepatitis C virus (HCV) is unique among HCV isolates, in that the wild-type virus can traverse the entire replication cycle in cultured cells. However, without adaptive mutations, only low levels of infectious virus are produced. In the present study, the effects of five mutations that were selected during serial passage in Huh-7.5 cells were studied. Recombinant genomes containing all five mutations produced 3-4 logs more infectious virions than did wild type. Neither a coding mutation in NS5A nor a silent mutation in E2 was adaptive, whereas coding mutations in E2, p7, and NS2 all increased virus production. A single-cycle replication assay in CD81-deficient cells was developed to study more precisely the effect of the adaptive mutations. The E2 mutation had minimal effect on the amount of infectious virus released but probably enhanced entry into cells. In contrast, both the p7 and NS2 mutations independently increased the amount of virus released. single-cycle growth | CD81-dependent

Published

2008

2. Development of JFH1-based cell culture systems for hepatitis C virus genotype 4a and evidence for cross-genotype neutralization

Author

Scheel, Troels K.H., Gottwein, Judith M., Jensen, Tanja B., Prentoe, Jannick C., Hoegh, Anne M., Alter, Harvey J., Eugen-Olsen, Jesper, and Bukh, Jens

Subjects

Hepatitis C virus -- Genetic aspects, Hepatitis C virus -- Control, Hepatitis C virus -- Distribution, Viral vaccines -- Genetic aspects, Life cycles (Biology) -- Genetic aspects, Company distribution practices, Science and technology

Abstract

Efficient in vitro systems to study the life cycle of hepatitis C virus (HCV) were recently developed for JFH1 (genotype 2a), which has unique replication capacity in Huh7 cells. We developed 4a/JFH1 intergenotypic recombinants containing the structural genes (Core, E1, and E2), p7, and all or part of NS2 of the 4a prototype strain ED43 that, after transfection of Huh7.5 cells with RNA transcripts, produced infectious viruses. Compared with the J6/JFH control virus, production of viruses was delayed. However, efficient spread of infection and high HCV RNA and infectivity titers were obtained in serial passages. Sequence analysis of recovered viruses and subsequent reverse genetic studies revealed a vital dependence on one or two NS2 mutations, depending on the 4a/2a junction. Infectivity of ED43/JFH1 viruses was CD81 dependent. The genotype 4 cell culture systems permit functional analyses as well as drug and vaccine research on an increasingly important genotype in the Middle East, Africa, and Europe. We also developed genotype 1a intergenotypic recombinants from H77C with vital mutations in NS3. Using H77C/JFH1 and ED43/JFH1 viruses, we demonstrated high homologous neutralizing antibody titers in 1a and 4a patient sera, respectively. Furthermore, availability of JFH1 viruses with envelope proteins of the six major HCV genotypes permitted cross-neutralization studies; 1a and 4a serum cross-neutralized 1a, 4a, 5a, and 6a but not 2a and 3a viruses. Thus, the JFH1 intergenotypic recombinants will be of importance for future studies of HCV neutralization and accelerate the development of passive and active immunoprophylaxis. Egypt | hepatitis C virus strain ED43 | in vitro infection | intergenotypic recombinant | vaccine

Published

2008

3. Functional analyses of GB virus B p13 protein: Development of a recombinant GB virus B hepatitis virus with a p7 protein

Author

Takikawa, Shingo, Engle, Ronald E., Emerson, Suzanne U., Purcell, Robert H., St. Claire, Marisa, and Bukh, Jens

Subjects

Hepatitis G virus -- Research, Science and technology

Abstract

GB virus B (GBV-B), which infects tamarins, is the virus most closely related to hepatitis C virus (HCV). HCV has a protein (p7) that is believed to form an ion channel. It is critical for viability. In vitro studies suggest that GBV-B has an analogous but larger protein (p13). We found that substitutions of the--1 and/or--3 residues of the putative cleavage sites (amino acid 613/614 and 732/733) abolished processing in vitro and rendered an infectious GBV-B clone nonviable in tamarins. Internal cleavage was predicted at two sites (amino acid 669/670 and 681/682), and in vitro analysis indicated processing at both sites, suggesting that p13 is processed into two components (p6 and p7). Mutants with substitution at amino acid 669 or 681 were viable in vivo, but the recovered viruses had changes at amino acid 669 and 681, respectively, which restored cleavage. A mutant lacking amino acid 614-681 (p6 plus part of p7) was nonviable. However, a mutant lacking amino acid 614-669 (p6) produced high titer viremia and acute resolving hepatitis; viruses recovered from both animals lacked the deleted sequence and had no other mutations. Thus, p6 was dispensable but p7 was essential for infectivity. The availability of a recombinant GBV-B virus containing a p7 protein with similarities to the HCV p7 will enhance the relevance of this model and will be of importance for identifying compounds that inhibit p7 function as additional therapeutic agents. animal model | chronicity | ion channel

Published

2006

4. Evidence for cross-genotype neutralization of hepatitis C virus pseudo-particles and enhancement of infectivity by apolipoprotein C1

Author

Meunier, Jean-Christophe, Engle, Ronald E., Faulk, Kristina, Zhao, Ming, Bartosch, Birke, Alter, Harvey, Emerson, Suzanne U., Cosset, Francois-Loic, Purcell, Robert H., and Bukh, Jens

Subjects

Apolipoproteins -- Research, Hepatitis C virus -- Research, Hepatitis C virus -- Genetic aspects, Science and technology

Abstract

The lack of a cell culture system to support hepatitis C virus (HCV) replication has hampered studies of this frequent cause of chronic liver disease. However, pseudotyped retroviral particles (pp) bearing the HCV envelope glycoproteins have provided a different approach to HCV studies. We used genotype 1a pp to detect neutralizing antibodies (NtAb) in eight chimpanzees and four humans infected with la strains, and developed pp of genotypes 2a, 3a, 4a, 5a, and 6a to study cross-reactivity. NtAb was detected in one of four chimpanzees and none of three humans with acute resolving infection, suggesting that NtAb is not required for HCV clearance. NtAb were detected at high titer in two of four chimpanzees and, in Patient H, all with persistent infection; responses paralleled humoral responses to envelope 1 and 2 proteins and, in some cases, correlate also with antibodies to the hypervariable region 1, previously thought to be the primary site of neutralization. NtAb raised during la infections could neutralize HCVpp of genotypes 4a, 5a, and 6a but had only limited reactivity against 2a and 3a. The detection of high-titer NtAb with cross-genotype reactivity has important implications for the development of active and passive immune-prophylaxis strategies against HCV. Finally, we found that HCVpp infectivity was enhanced by human or chimpanzee sera; apolipoprotein C1 alone or as a component of high-density lipoproteins caused this enhancement. Future studies of the in vivo role of apolipoprotein C1 might provide additional insights into the infection process of HCV. neutralizing antibodies | high-density lipoproteins

Published

2005

5. In vitro assay for neutralizing antibody to hepatitis C virus: evidence for broadly conserved neutralization epitopes

Author

Bartosch, Birke, Bukh, Jens, Meunier, Jean-Christophe, Granier, Christelle, Engle, Ronald E., Blackwelder, William C., Emerson, Suzanne U., Cosset, Francois-Loic, and Purcell, Robert H.

Subjects

Hepatitis C -- Care and treatment, Hepatitis C -- Research, Science and technology

Abstract

Our understanding of the humoral immune response to hepatitis C virus (HCV) is limited because the virus can be studied only in humans and chimpanzees and because previously described neutralization assays have not been robust or simple to perform. Nevertheless, epidemiologic and laboratory studies suggested that neutralizing Ab to HCV might be important in preventing infection. We have recently described a neutralization assay based on the neutralization of pseudotyped murine retrovirus constructs bearing HCV envelope glycoproteins on their surface. We have applied the assay to well characterized clinical samples from HCV-infected patients and chimpanzees, confirmed the existence of neutralizing Ab to HCV, and validated most previously reported neutralizations of the virus. We did not find neutralizing anti-HCV in resolving infections but did find relatively high titers (>1:320) of such Ab in chronic infections. Neutralizing Ab was directed not only to epitope(s) in the hypervariable region of the E2 envelope protein but also to one or more epitopes elsewhere in the envelope of the virus. Neutralizing Ab was broadly reactive and could neutralize pseudotype particles bearing the envelope glycoproteins of two different subgenotypes (1a and 1b). The ability to assay neutralizing anti-HCV should permit an assessment of the prospects for successful Ab-mediated passive and active immunoprophylaxis against hepatitis C.

Published

2003

6. The p7 polypeptide of hepatitis C virus is critical for infectivity and contains functionally important genotype-specific sequences

Author

Sakai, Akito, St. Claire, Marisa, Faulk, Kristina, Govindarajan, Sugantha, Emerson, Suzanne U., Purcell, Robert H., and Bukh, Jens

Subjects

Hepatitis C -- Research, Polypeptides -- Research, Science and technology

Abstract

The role of the hepatitis C virus (HCV) p7 protein in the virus life cycle is not known. Previous in vitro data indicated that this 63-aa polypeptide is located in the endoplasmic reticulum and has two transmembrane domains (TMDs) connected by a cytoplasmic loop; the amino-and carboxyl-terminal tails are oriented toward the endoplasmic reticulum lumen. Furthermore, recent in vitro studies suggested that HCV p7 could function as a virus-encoded ion channel. It might therefore be a relevant target for future drug development. We studied the role of HCV p7 in vivo. Because HCV does not replicate efficiently in cell culture, we mutagenized p7 of an infectious genotype la cDNA clone and tested RNA transcripts of each mutant for infectivity in chimpanzees by intrahepatic transfection. Appropriate processing of mutant polypeptides was confirmed by studies in transfected mammalian cells. Mutants with deletions of all or part of p7 and a mutant with substitutions of two conserved residues in the cytoplasmic loop were not viable. Thus, p7 is essential for infectivity of HCV. A chimera in which the p7 of the 1a clone was replaced with p7 from an infectious genotype 2a clone also was not viable. This finding suggests a genotype-specific interaction between p7 and other genomic regions. To define which portions of p7 played the most significant role for this interaction, we tested three chimeras with the 1a backbone in which only specific domains of p7 had the 2a sequence. A p7 chimera with 2a tails and TMDs and the 1a cytoplasmic loop was not viable. A mutant with 2a tails and cytoplasmic loop and 1a TMDs also was not viable. However, a p7 chimera with 2a TMDs and cytoplasmic loop and 1a tails was viable. The transfected chimpanzee became viremic at week 2, and recovered viruses had the chimeric sequence. These data indicate that the amino- and/or carboxyl-terminal intraluminal tails of p7 contain sequences with genotype-specific function.

Published

2003

7. Genomic analysis of the host response to hepatitis C virus infection

Author

Su, Andrew I., Pezacki, John P., Wodicka, Lisa, Brideau, Amy D., Supekova, Lubica, Thimme, Robert, Wieland, Stefan, Bukh, Jens, Purcell, Robert H., Schultz, Peter G., and Chisari, Francis V.

Subjects

Molecular biology -- Research, Cytochemistry -- Research, Hepatitis C -- Development and progression, Virus diseases -- Genetic aspects, Virus diseases -- Development and progression, Chimpanzees -- Usage, Host-virus relationships -- Genetic aspects, Genetic transcription -- Research, Liver -- Physiological aspects, Science and technology

Abstract

We have examined the progression of hepatitis C virus (HCV) infections by gene expression analysis of liver biopsies in acutely infected chimpanzees that developed persistent infection, transient viral clearance, or sustained clearance. Both common responses and outcome-specific changes in expression were observed. All chimpanzees showed gene expression patterns consistent with an IFN-[alpha] response that correlated with the magnitude and duration of infection. Transient and sustained viral clearance were uniquely associated with induction of IFN-[gamma]-induced genes and other genes involved in antigen processing and presentation and the adaptive immune response. During the early stages of infection, host genes involved in lipid metabolism were also differentially regulated. We also show that drugs that affect these biosynthetic pathways can regulate HCV replication in HCV replicon systems. Our results reveal genome-wide transcriptional changes that reflect the establishment, spread, and control of infection, and they reveal potentially unique antiviral programs associated with clearance of HCV infection.

Published

2002

8. Viral and immunological determinants of hepatitis C virus clearance, persistence, and disease

Author

Thimme, Robert, Bukh, Jens, Spangenberg, Hans Christian, Wieland, Stefan, Pemberton, Janell, Steiger, Carola, Govindarajan, Sugantha, Purcell, Robert H., and Chisari, Francis V.

Subjects

Viremia -- Development and progression, Hepatitis C -- Development and progression, T cells -- Physiological aspects, Liver -- Physiological aspects, Chimpanzees -- Usage, Hepatitis C virus -- Physiological aspects, Science and technology

Abstract

To define the early events that determine the outcome of acute hepatitis C virus (HCV) infection, we compared the course of viremia with the peripheral and intrahepatic T cell response and intrahepatic cytokine profile in six acutely infected chimpanzees. Three different outcomes were observed after peak viral titers were reached: sustained viral clearance, transient viral clearance followed by chronic infection, and chronic infection that persisted at initial peak titers. The results indicate that HCV spread outpaces the T cell response and that HCV rapidly induces but is not controlled by IFN-[alpha]/[beta]; that viral clearance follows the entry and accumulation of HCV-specific IFN-[gamma]-producing T cells in the liver; and that it may not require the destruction of infected cells.

Published

2002

9. Mutations that permit efficient replication of hepatitis C virus RNA in Huh-7 cells prevent productive replication in chimpanzees

Author

Bukh, Jens, Pietschmann, Thomas, Lohmann, Volker, Krieger, Nicole, Faulk, Kristina, Engle, Ronald E., Govindarajan, Sugantha, Shapiro, Max, St. Claire, Marisa, and Bartenschlager, Ralf

Subjects

Chimpanzees -- Genetic aspects, Chimpanzees -- Physiological aspects, Hepatitis C virus -- Genetic aspects, RNA -- Physiological aspects, Science and technology

Abstract

The development of a subgenomic replicon derived from the hepatitis C virus (HCV) strain Con1 enabled the study of viral RNA replication in Huh-7 cells. The level of replication of replicons, as well as full-length Con1 genomes, increased significantly by a combination of two adaptive mutations in NS3 (E1202G and T1280I) and a single mutation in NS5A (S2197P). However, these cell culture-adaptive mutations influenced in vivo infectivity. After intrahepatic transfection of chimpanzees, the wild-type Con1 genome was infectious and produced viral titers similar to those produced by other infectious HCV clones. Repeated independent transfections with RNA transcripts of a Con1 genome containing the three adaptive mutations failed to achieve active HCV infection. Furthermore, although a chimpanzee transfected with RNA transcripts of a Con1 genome with only the NSSA mutation became infected, this mutation was detected only in virus genomes recovered from serum at day 4; viruses recovered at day 7 had a reversion back to the original Con1 sequence. Our study demonstrates that mutations that are adaptive for replication of HCV in cell culture may be highly attenuating in vivo.

Published

2002

10. In vivo analysis of the 3' untranslated region of the hepatitis C virus after in vitro mutagenesis of an infectious cDNA clone

Author

Yanagi, Masayuki, St. Claire, Marisa, Emerson, Suzanne U., Purcell, Robert H., and Bukh, Jens

Subjects

Hepatitis C virus -- Analysis, Mutagenesis -- Research, Circular DNA -- Research, Cloning -- Research, Science and technology

Abstract

Large sections of the 3[prime] untranslated region (UTR) of hepatitis C virus (HCV) were deleted from an infectious cDNA clone, and the RNA transcripts from seven deletion mutants were tested sequentially for infectivity in a chimpanzee. Mutants lacking all or part of the 3[prime] terminal conserved region or the poly(U-UC) region were unable to infect the chimpanzee, indicating that both regions are critical for infectivity in vivo. However, the third region, the variable region, was able to tolerate a deletion that destroyed the two putative stem-loop structures within this region. Mutant VR-24 containing a deletion of the proximal 24 nt of the variable region of the 3[prime] UTR was viable in the chimpanzee and seemed to replicate as well as the undeleted parent virus. The chimpanzee became viremic 1 week after inoculation with mutant VR-24, and the HCV genome titer increased over time during the early acute infection. Therefore, the poly(U-UC) region and the conserved region, but not the variable region, of the 3[prime] UTR seem to be critical for in vivo infectivity of HCV.

Published

1999

11. Challenge pools of hepatitis C virus genotypes 1-6 prototype strains: replication fitness and pathogenicity in chimpanzees and human liver-chimeric mouse models

Author

Bukh, Jens, Meuleman, Philip, Tellier, Raymond, Engle, Ronald E., Feinstone, Stephen M., Eder, Gerald, Satterfield, William C., Govindarajan, Sugantha, Krawczynski, Krzysztof, Miller, Roger H., Leroux-Roels, Geert, and Purcell, Robert H.

Subjects

Hepatitis C -- Development and progression, Hepatitis C -- Genetic aspects, Hepatitis C -- Research, Hepatitis C -- Models, Hepatitis C virus -- Genetic aspects, Hepatitis C virus -- Research, Immune response -- Genetic aspects, Immune response -- Models, Immune response -- Research, Health

Published

2010

12. Highly efficient JFH1-based cell-culture system for hepatitis C virus genotype 5a: failure of homologous neutralizing-antibody treatment to control infection

Author

Jensen, Tanja B., Gottwein, Judith M., Scheel, Troels K.H., Hoegh, Anne M., Eugen-Olsen, Jesper, and Bukh, Jens

Subjects

Hepatitis C virus -- Genetic aspects, Hepatitis C virus -- Identification and classification, Hepatitis C virus -- Research, Cell culture -- Methods, Cell culture -- Research, Monoclonal antibodies -- Dosage and administration, Monoclonal antibodies -- Research, Health

Published

2008

13. How Escherichia coli can bias the results of molecular cloning: preferential selection of defective genomes of hepatitis C virus during the cloning procedure

Author

Forns, Xavier, Bukh, Jens, Purcell, Robert H., and Emerson, Suzanne U.

Subjects

Escherichia coli -- Analysis, Cloning -- Analysis, Genomes -- Analysis, Hepatitis C virus -- Genetic aspects, Science and technology

Abstract

Cloned PCR products containing hepatitis C virus (HCV) genomic fragments have been used for analyses of HCV genomic heterogeneity and protein expression. These studies assume that the clones derived are representative of the entire virus population and that subsets are not inadvertently selected. The aim of the present study was to express HCV structural proteins. However, we found that there was a strong cloning selection for defective genomes and that most clones generated initially were incapable of expressing the HCV proteins. The HCV structural region (C-E1-E2-p7) was directly amplified by long reverse transcription-PCR from the plasma of an HCV-infected patient or from a control plasmid containing a viable full-length cDNA of HCV derived from the same patient but cloned in a different vector. The PCR products were cloned into a mammalian expression vector, amplified in Escherichia coli, and tested for their ability to produce HCV structural proteins. Twenty randomly picked clones derived from the HCV-infected patient all contained nucleotide mutations leading to absence or truncation of the expected HCV products. Of 25 clones derived from the control plasmid, only 8% were fully functional for polyprotein synthesis. The insertion of extra nucleotides in the region just upstream of the start codon of the HCV insert led to a statistically significant increase in the number of fully functional clones derived from the patient (42%) and from the control plasmid (72-92%). Nonrandom selection of clones during the cloning procedure has enormous implications for the study of viral heterogeneity, because it can produce a false spectrum of genomic diversity. It can also be an impediment to the construction of infectious viral clones.

Published

1997

14. Transcripts from a single full-length cDNA clone of hepatitis C virus are infectious when directly transfected into the liver of a chimpanzee

Author

Yanagi, Masayuki, Purcell, Robert H., Emerson, Suzanne U., and Bukh, Jens

Subjects

Hepatitis C virus -- Genetic aspects, Cloning -- Analysis, Transfection -- Analysis, Chimpanzees -- Genetic aspects, Genetic transcription -- Analysis, Science and technology

Abstract

We have succeeded in constructing a stable full-length cDNA clone of strain H77 (genotype 1a) of hepatitis C virus (HCV). We devised a cassette vector with fixed 5[prime] and 3[prime] termini and constructed multiple full-length cDNA clones of H77 in a single step by cloning of the entire ORF, which was amplified by long reverse transcriptase-PCR, directly into this vector. The infectivity of two complete full-length cDNA clones was tested by the direct intrahepatic injection of a chimpanzee with RNA transcripts. However, we found no evidence for HCV replication. Sequence analysis of these and 16 additional full-length clones revealed that seven clones were defective for polyprotein synthesis, and the remaining nine clones had 6-28 amino acid mutations in the predicted polyprotein compared with the consensus sequence of H77. Next, we constructed a consensus chimera from four of the full-length cDNA clones with just two ligation steps. Injection of RNA transcripts from this consensus clone into the liver of a chimpanzee resulted in viral replication. The sequence of the virus recovered from the chimpanzee was identical to that of the injected RNA transcripts. This stable infectious molecular clone should be an important tool for developing a better understanding of the molecular biology and pathogenesis of HCV.

Published

1997

15. At least 12 genotypes of hepatitis C virus predicted by sequence analysis of the putative E1 gene of isolates collected worldwide

Author

Bukh, Jens, Purcell, Robert H., and Miller, Roger H.

Subjects

Hepatitis C virus -- Analysis, Nucleotide sequence -- Observations, Science and technology

Abstract

The complete nucleotide sequence of the putative envelope 1 (E1) gene in 5' hepatitis C virus (HCV) isolates has been established, and a minimum of 12 different genotypes classifications could be formed. The amino acid and nucleotide sequence identities of HCV isolates of different genotypes were in the range 49.0-82.8% and 53.5-78.6%, while those of H and V isolates of the same genotype were in the range 89.1-98.4% and 88.0- 99.1%. Four HCV genotypes were found only in Africa and included most of the HCV isolates on that continent.

Published

1993

16. Hepatitis C virus RNA in southern African Blacks with hepatocellular carcinoma

Author

Bukh, Jens, Miller, Roger H., Kew, Michael C., and Purcell, Robert H.

Subjects

Hepatitis C virus -- Research, Liver cancer -- Development and progression, Blacks -- Diseases, Science and technology

Abstract

The sera of 128 south African Blacks with biopsy-verified hepatocellular carcinoma (HCC) were analyzed for the presence of hepatitic C virus (HCV) RNA to determine the role of HCV in thedevelopment of HCC. HCV RNA was detected in 20.3% of the affected individuals. The HCV RNA-positive individuals had a higher mean age. The results suggest that HCV plays a minor but significant role in the development of HCC.

Published

1993

17. Sequence analysis of the 5' noncoding region of hepatitis C virus

Author

Bukh, Jens, Purcell, Robert H., and Miller, Roger H.

Subjects

Hepatitis C -- Research, Viral genetics -- Research, Nucleotide sequence -- Research, Science and technology

Abstract

A study on 114 subjects positive for Hepatitis C virus (HCV) was done to detect the presence of HCV RNA. The study determined the sequence of the 5' NC region of the HCV genome of 44 of the HCV isolates. Sixteen percent of the 282 nucleotide positions analyzed showed nucleotide variations which were primarilylocated in three domains of significant heterogeneity. These results imply thatthe 5' NC region of the HCV genome possesses heterogeneity among different HCV isolates.

Published

1992

18. Importance of primer selection for the detection of hepatitis C virus RNA with the polymerase chain reaction assay

Author

Bukh, Jens, Purcell, Robert H., and Miller, Roger H.

Subjects

Hepatitis C virus -- Research, RNA viruses -- Research, Polymerase chain reaction -- Research, Hepatitis C -- Diagnosis, Science and technology

Abstract

A cDNA polymerase chain reaction (PCR) assay for screening of hepatitis c virus (HCV) was developed using primers from conserved regions of the HCV genome. Four primer sets were compared for their efficiency in detecting HCV RNA nested in cDNA PCR assay on sera from different anti-HCV antibody positive individuals in various parts of the world. The primer sets from two highly conserved regions within the 5' noncoding region was found to be the most effective detector of HCV RNA. The results suggested the potential use of primer sets for the detection of HCV RNA in infected persons.

Published

1992

19. A virus discovery method incorporating DNase treatment and its application to the identification of two bovine parvovirus species

Author

Allander, Tobias, Emerson, Suzanne U., Engle, Ronald E., Purcell, Robert H., and Bukh, Jens

Subjects

Genetic research -- Analysis, Serum -- Physiological aspects, Viruses -- Genetic aspects, Science and technology

Abstract

Identification of previously unrecognized viral agents in serum or plasma samples is of great medical interest but remains a major challenge, primarily because of abundant host DNA. The current methods, library screening or representational difference analysis (RDA), are very laborious and require selected sample sets. We have developed a simple and reproducible method for discovering viruses in single serum samples that is based on DNase treatment of the serum followed by restriction enzyme digestion and sequence-independent single primer amplification (SISPA) of the fragments, and have evaluated its performance on known viruses. Both DNA viruses and RNA viruses at a concentration of [approximately equals] [10.sup.6] genome equivalents per mi were reproducibly identified in 50 [micro] 1 of serum. While evaluating the method, two previously unknown parvoviruses were discovered in the bovine sera used as diluent. The near complete genome sequence of each virus was determined; their classification as two species (provisionally named bovine parvoviruses 2 and 3) was confirmed by phylogenetic analysis. Both viruses were found to be frequent contaminants of commercial bovine serum. DNase treatment of serum samples may prove to be a very useful tool for virus discovery. The DNase-SISPA method is suitable for screening of a large number of samples and also enables rapid sequence determination of high-titer viruses.

Published

2001

20. Hepatitis C virus lacking the hypervariable region 1 of the second envelope protein is infectious and causes acute resolving or persistent infection in chimpanzees

Author

Forns, Xavier, Thimme, Robert, Govindarajan, Sugantha, Emerson, Suzanne U., Purcell, Robert H., Chisari, Francis V., and Bukh, Jens

Subjects

Hepatitis C virus -- Research, Liver diseases -- Research, RNA -- Research, Science and technology

Abstract

Persistent infection with hepatitis C virus (HCV) is among the leading causes of chronic liver disease. Previous studies suggested that genetic variation in hypervariable region 1 (HVR1) of the second envelope protein, possibly in response to host immune pressure, influences the outcome of HCV infection. In the present study, a chimpanzee transfected intrahepatically with RNA transcripts of an infectious HCV clone (pCV-H77C) from which HVR1 was deleted became infected; the [Delta]HVR1 virus was subsequently transmitted to a second chimpanzee. Infection with [Delta]HVR1 virus resulted in persistent infection in the former chimpanzee and in acute resolving infection in the latter chimpanzee. Both chimpanzees developed hepatitis. The [Delta]HVR1 virus initially replicated to low titers, but virus titer increased significantly after mutations appeared in the viral genome. Thus, wild-type HCV without HVR1 was apparently attenuated, suggesting a functional role of HVR1. However, our data indicate that HVR1 is not essential for the viability of HCV, the resolution of infection, or the progression to chronicity.

Published

2000

21. Corrections

Author

Tellier, Raymond, Bukh, Jens, and Emerson, Suzanne U.

Subjects

Hepatitis A virus -- Genetic aspects, Genomes -- Analysis, Viroids -- Analysis, Genetic transcription -- Regulation, Science and technology

Published

1997