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1.
Lancet ; 394(10193): 148-158, 2019 07 13.
Article in English | MEDLINE | ID: mdl-31174831

ABSTRACT

BACKGROUND: Use of oral live-attenuated polio vaccines (OPV), and injected inactivated polio vaccines (IPV) has almost achieved global eradication of wild polio viruses. To address the goals of achieving and maintaining global eradication and minimising the risk of outbreaks of vaccine-derived polioviruses, we tested novel monovalent oral type-2 poliovirus (OPV2) vaccine candidates that are genetically more stable than existing OPVs, with a lower risk of reversion to neurovirulence. Our study represents the first in-human testing of these two novel OPV2 candidates. We aimed to evaluate the safety and immunogenicity of these vaccines, the presence and extent of faecal shedding, and the neurovirulence of shed virus. METHODS: In this double-blind, single-centre phase 1 trial, we isolated participants in a purpose-built containment facility at the University of Antwerp Hospital (Antwerp, Belgium), to minimise the risk of environmental release of the novel OPV2 candidates. Participants, who were recruited by local advertising, were adults (aged 18-50 years) in good health who had previously been vaccinated with IPV, and who would not have any contact with immunosuppressed or unvaccinated people for the duration of faecal shedding at the end of the study. The first participant randomly chose an envelope containing the name of a vaccine candidate, and this determined their allocation; the next 14 participants to be enrolled in the study were sequentially allocated to this group and received the same vaccine. The subsequent 15 participants enrolled after this group were allocated to receive the other vaccine. Participants and the study staff were masked to vaccine groups until the end of the study period. Participants each received a single dose of one vaccine candidate (candidate 1, S2/cre5/S15domV/rec1/hifi3; or candidate 2, S2/S15domV/CpG40), and they were monitored for adverse events, immune responses, and faecal shedding of the vaccine virus for 28 days. Shed virus isolates were tested for the genetic stability of attenuation. The primary outcomes were the incidence and type of serious and severe adverse events, the proportion of participants showing viral shedding in their stools, the time to cessation of viral shedding, the cell culture infective dose of shed virus in virus-positive stools, and a combined index of the prevalence, duration, and quantity of viral shedding in all participants. This study is registered with EudraCT, number 2017-000908-21 and ClinicalTrials.gov, number NCT03430349. FINDINGS: Between May 22 and Aug 22, 2017, 48 volunteers were screened, of whom 15 (31%) volunteers were excluded for reasons relating to the inclusion or exclusion criteria, three (6%) volunteers were not treated because of restrictions to the number of participants in each group, and 30 (63%) volunteers were sequentially allocated to groups (15 participants per group). Both novel OPV2 candidates were immunogenic and increased the median blood titre of serum neutralising antibodies; all participants were seroprotected after vaccination. Both candidates had acceptable tolerability, and no serious adverse events occurred during the study. However, severe events were reported in six (40%) participants receiving candidate 1 (eight events) and nine (60%) participants receiving candidate 2 (12 events); most of these events were increased blood creatinine phosphokinase but were not accompanied by clinical signs or symptoms. Vaccine virus was detected in the stools of 15 (100%) participants receiving vaccine candidate 1 and 13 (87%) participants receiving vaccine candidate 2. Vaccine poliovirus shedding stopped at a median of 23 days (IQR 15-36) after candidate 1 administration and 12 days (1-23) after candidate 2 administration. Total shedding, described by the estimated median shedding index (50% cell culture infective dose/g), was observed to be greater with candidate 1 than candidate 2 across all participants (2·8 [95% CI 1·8-3·5] vs 1·0 [0·7-1·6]). Reversion to neurovirulence, assessed as paralysis of transgenic mice, was low in isolates from those vaccinated with both candidates, and sequencing of shed virus indicated that there was no loss of attenuation in domain V of the 5'-untranslated region, the primary site of reversion in Sabin OPV. INTERPRETATION: We found that the novel OPV2 candidates were safe and immunogenic in IPV-immunised adults, and our data support the further development of these vaccines to potentially be used for maintaining global eradication of neurovirulent type-2 polioviruses. FUNDING: Bill & Melinda Gates Foundation.


Subject(s)
Immunogenicity, Vaccine , Poliovirus Vaccine, Oral/adverse effects , Poliovirus Vaccine, Oral/immunology , Poliovirus/immunology , Adult , Antibodies, Viral/blood , Double-Blind Method , Feces/virology , Female , Humans , Male , Middle Aged , Poliomyelitis/prevention & control , Poliovirus Vaccine, Oral/administration & dosage , RNA, Viral/analysis , Single-Blind Method , Vaccines, Attenuated/administration & dosage , Vaccines, Attenuated/adverse effects , Vaccines, Attenuated/immunology , Virulence/immunology , Virus Shedding/immunology , Young Adult
2.
Cell Host Microbe ; 27(5): 736-751.e8, 2020 05 13.
Article in English | MEDLINE | ID: mdl-32330425

ABSTRACT

The live-attenuated oral poliovirus vaccine (OPV or Sabin vaccine) replicates in gut-associated tissues, eliciting mucosa and systemic immunity. OPV protects from disease and limits poliovirus spread. Accordingly, vaccination with OPV is the primary strategy used to end the circulation of all polioviruses. However, the ability of OPV to regain replication fitness and establish new epidemics represents a significant risk of polio re-emergence should immunization cease. Here, we report the development of a poliovirus type 2 vaccine strain (nOPV2) that is genetically more stable and less likely to regain virulence than the original Sabin2 strain. We introduced modifications within at the 5' untranslated region of the Sabin2 genome to stabilize attenuation determinants, 2C coding region to prevent recombination, and 3D polymerase to limit viral adaptability. Prior work established that nOPV2 is immunogenic in preclinical and clinical studies, and thus may enable complete poliovirus eradication.


Subject(s)
Genetic Engineering/methods , Poliovirus Vaccine, Oral/genetics , Poliovirus Vaccine, Oral/immunology , Vaccines, Attenuated/genetics , Vaccines, Attenuated/immunology , Adult , Animals , Chlorocebus aethiops , Disease Models, Animal , Female , HeLa Cells , Humans , Immunogenicity, Vaccine , Male , Mice , Poliomyelitis/prevention & control , Poliovirus/genetics , Poliovirus Vaccine, Oral/administration & dosage , RNA, Viral/genetics , RNA-Dependent RNA Polymerase/genetics , Recombination, Genetic , Vaccination , Vero Cells , Virulence
3.
NPJ Vaccines ; 5(1): 26, 2020.
Article in English | MEDLINE | ID: mdl-32218998

ABSTRACT

Enormous progress has been made in global efforts to eradicate poliovirus, using live-attenuated Sabin oral poliovirus vaccine (OPV). However, as the incidence of disease due to wild poliovirus has declined, vaccine-derived poliovirus (VDPV) has emerged in areas of low-vaccine coverage. Coordinated global cessation of routine, type 2 Sabin OPV (OPV2) use has not resulted in fewer VDPV outbreaks, and continued OPV use in outbreak-response campaigns has seeded new emergences in low-coverage areas. The limitations of existing vaccines and current eradication challenges warranted development of more genetically stable OPV strains, most urgently for OPV2. Here, we report using codon deoptimization to further attenuate Sabin OPV2 by changing preferred codons across the capsid to non-preferred, synonymous codons. Additional modifications to the 5' untranslated region stabilized known virulence determinants. Testing of this codon-deoptimized new OPV2 candidate (nOPV2-CD) in cell and animal models demonstrated that nOPV2-CD is highly attenuated, grows sufficiently for vaccine manufacture, is antigenically indistinguishable from Sabin OPV2, induces neutralizing antibodies as effectively as Sabin OPV2, and unlike Sabin OPV2 is genetically stable and maintains an attenuation phenotype. In-human clinical trials of nOPV2-CD are ongoing, with potential for nOPV strains to serve as critical vaccine tools for achieving and maintaining polio eradication.

4.
Methods Mol Biol ; 511: 323-31, 2009.
Article in English | MEDLINE | ID: mdl-19347304

ABSTRACT

The lack of a robust small-animal model for hepatitis C virus (HCV) has hindered the discovery and development of novel drug treatments for HCV infections. We developed a reproducible and easily accessible xenograft mouse efficacy model in which HCV RNA replication is accurately monitored in vivo by real-time, noninvasive, whole-body imaging of gamma-irradiated SCID mice implanted with a mouse-adapted luciferase replicon-containing Huh-7 cell line. The model has been validated by demonstrating that both a small molecule NS3/4A protease inhibitor (BILN 2061) and human interferon- alpha (IFN-alpha) decreased HCV RNA replication and that treatment withdrawal resulted in a rebound in replication, which paralleled clinical outcomes in humans. The efficacy of protease inhibitor plus IFN-alpha demonstrated the application of the model for testing compounds in combination therapies. This robust mouse efficacy model provides a powerful tool for rapid evaluation of potential anti-HCV compounds in vivo.


Subject(s)
Disease Models, Animal , Hepacivirus/genetics , Hepatitis C , RNA, Viral/metabolism , Transplantation, Heterologous , Animals , Cell Line, Tumor , Female , Genes, Reporter , Hepatocytes/transplantation , Humans , Immunohistochemistry/methods , Mice , Mice, SCID , RNA, Viral/genetics , Reverse Transcriptase Polymerase Chain Reaction/methods
5.
Antimicrob Agents Chemother ; 50(10): 3260-8, 2006 Oct.
Article in English | MEDLINE | ID: mdl-17005803

ABSTRACT

The lack of a robust small-animal model for hepatitis C virus (HCV) has hindered the discovery and development of novel drug treatments for HCV infections. We developed a reproducible and easily accessible xenograft mouse efficacy model in which HCV RNA replication is accurately monitored in vivo by real-time, noninvasive whole-body imaging of gamma-irradiated SCID mice implanted with a mouse-adapted luciferase replicon-containing Huh-7 cell line (T7-11). The model was validated by demonstrating that both a small-molecule NS3/4A protease inhibitor (BILN 2061) and human alpha interferon (IFN-alpha) decreased HCV RNA replication and that treatment withdrawal resulted in a rebound in replication, which paralleled clinical outcomes in humans. We further showed that protease inhibitor and IFN-alpha combination therapy was more effective in reducing HCV RNA replication than treatment with each compound alone and supports testing in humans. This robust mouse efficacy model provides a powerful tool for rapid evaluation of potential anti-HCV compounds in vivo as part of aggressive drug discovery efforts.


Subject(s)
Antiviral Agents/pharmacology , Carbamates/pharmacology , Disease Models, Animal , Hepacivirus/drug effects , Interferon-alpha/pharmacology , Macrocyclic Compounds/pharmacology , Quinolines/pharmacology , Thiazoles/pharmacology , Virus Replication/drug effects , Animals , Antiviral Agents/administration & dosage , Antiviral Agents/therapeutic use , Carbamates/administration & dosage , Carbamates/therapeutic use , Cell Line, Tumor/transplantation , Drug Evaluation, Preclinical , Female , Hepatitis C/virology , Humans , Interferon-alpha/administration & dosage , Interferon-alpha/therapeutic use , Macrocyclic Compounds/administration & dosage , Macrocyclic Compounds/therapeutic use , Mice , Mice, Inbred BALB C , Mice, Nude , Mice, SCID , Quinolines/administration & dosage , Quinolines/therapeutic use , Thiazoles/administration & dosage , Thiazoles/therapeutic use
6.
Hepatology ; 43(6): 1346-53, 2006 Jun.
Article in English | MEDLINE | ID: mdl-16729319

ABSTRACT

Compounds with in vitro anti-hepatitis C virus (HCV) activity are often advanced directly into clinical trials with limited or no in vivo efficacy data. This limits prediction of clinical efficacy of compounds in the HCV drug pipeline, and may expose human subjects to unnecessary treatment effects. The scid-Alb-uPA mouse supports proliferation of transplanted human hepatocytes and subsequent HCV infection. Cohorts of genotype 1a HCV-infected mice were treated with interferon alpha-2b(IFN-alpha), BILN-2061 (anti-NS3 protease), or HCV371 (anti-NS5B polymerase). Mice treated with 1350 IU/g/day IFN-alpha intramuscularly for 10 to 28 days demonstrated reduced viral titers compared with controls in all five experiments (P < .05, t test); viral titers rebounded after treatment withdrawal. A more pronounced antiviral effect with IFN-alpha was seen in genotype 3a-infected mice. Pilot studies with BILN2061 confirmed exposure to 10X replicon EC50 at trough and reduced viral titer over 2 log at 4 days. In a second 7-day study, mean HCV RNA titers dropped 1.1 log in BILN2061-treated animals, 0.6 log in IFN-treated mice, and rose 0.2 log in controls (P = .013, ANOVA). Pre-existing mutants with partial resistance to BILN2061 were identified by sequencing both the human inoculum and sera from treated mice. The polymerase inhibitor HCV371 yielded a decline in HCV titers of 0.3 log relative to vehicle-treated controls (P = NS). Performance of all three antiviral regimens in the chimeric mouse model paralleled responses in humans. In conclusion, this system may help selection of lead compounds for advancement into human trials with an increased likelihood of clinical success while broadening the tools available for study of the biology of HCV infection.


Subject(s)
Antiviral Agents/pharmacology , Carbamates/pharmacology , Hepatitis C/drug therapy , Interferon-alpha/pharmacology , Macrocyclic Compounds/pharmacology , Quinolines/pharmacology , Thiazoles/pharmacology , Analysis of Variance , Animals , Base Sequence , Disease Models, Animal , Hepacivirus/drug effects , Hepatitis C/pathology , Hepatitis C Antibodies/analysis , Hepatitis C Antibodies/immunology , Humans , Interferon alpha-2 , Mice , Mice, SCID , Molecular Sequence Data , Oncogene Proteins, Fusion/genetics , Oncogene Proteins, Fusion/metabolism , Probability , RNA, Viral/analysis , Recombinant Proteins , Reverse Transcriptase Polymerase Chain Reaction , Sensitivity and Specificity , Treatment Outcome
7.
Hepatology ; 42(4): 962-73, 2005 Oct.
Article in English | MEDLINE | ID: mdl-16149085

ABSTRACT

International standardization and coordination of the nomenclature of variants of hepatitis C virus (HCV) is increasingly needed as more is discovered about the scale of HCV-related liver disease and important biological and antigenic differences that exist between variants. A group of scientists expert in the field of HCV genetic variability, and those involved in development of HCV sequence databases, the Hepatitis Virus Database (Japan), euHCVdb (France), and Los Alamos (United States), met to re-examine the status of HCV genotype nomenclature, resolve conflicting genotype or subtype names among described variants of HCV, and draw up revised criteria for the assignment of new genotypes as they are discovered in the future. A comprehensive listing of all currently classified variants of HCV incorporates a number of agreed genotype and subtype name re-assignments to create consistency in nomenclature. The paper also contains consensus proposals for the classification of new variants into genotypes and subtypes, which recognizes and incorporates new knowledge of HCV genetic diversity and epidemiology. A proposal was made that HCV variants be classified into 6 genotypes (representing the 6 genetic groups defined by phylogenetic analysis). Subtype name assignment will be either confirmed or provisional, depending on the availability of complete or partial nucleotide sequence data, or remain unassigned where fewer than 3 examples of a new subtype have been described. In conclusion, these proposals provide the framework by which the HCV databases store and provide access to data on HCV, which will internationally coordinate the assignment of new genotypes and subtypes in the future.


Subject(s)
Hepacivirus/classification , Hepacivirus/genetics , Hepatitis C, Chronic/virology , Terminology as Topic , Genotype , Humans
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