Your search keyword '"Wyatt, Linda S."' showing total 41 results

1. Spontaneous and Targeted Mutations in the Decapping Enzyme Enhance Replication of Modified Vaccinia Virus Ankara (MVA) in Monkey Cells.

Author

Erez, Noam, Wyatt, Linda S., Americo, Jeffrey L., Wei Xiao, and Moss, Bernard

Subjects

*VACCINIA, *MONKEYS, *VIRAL proteins, *RECOMBINANT viruses, *ENZYMES, *DELETION mutation

Abstract

Modified vaccinia virus Ankara (MVA) was derived by repeated passaging in chick fibroblasts, during which deletions and mutations rendered the virus unable to replicate in most mammalian cells. Marker rescue experiments demonstrated that the host range defect could be overcome by replacing DNA that had been deleted from near the left end of the genome. One virus isolate, however, recovered the ability to replicate in monkey BS-C-1 cells but not human cells without added DNA, suggesting that it arose from a spontaneous mutation. Here, we showed that variants with enhanced ability to replicate in BS-C-1 cells could be isolated by blind passaging of MVA and that in each there was a point mutation leading to an amino acid substitution in the D10 decapping enzyme. The sufficiency of these single mutations to enhance host range was confirmed by constructing recombinant viruses. The D10 mutations occurred at N- or C-terminal locations distal to the active site, suggesting an indirect effect on decapping or on another previously unknown role of D10. Although increased amounts of viral mRNA and proteins were found in BS-C-1 cells infected with the mutants compared to those with parental MVA, the increases were much less than the 1- to 2-log-higher virus yields. Nevertheless, a contributing role for diminished decapping in overcoming the host range defect was consistent with increased replication and viral protein synthesis in BS-C-1 cells infected with an MVA engineered to have active-site mutations that abrogate decapping activity entirely. Optimal decapping may vary depending on the biological context. [ABSTRACT FROM AUTHOR]

Published

2021

2. Zinc-finger antiviral protein (ZAP) is a restriction factor for replication of modified vaccinia virus Ankara (MVA) in human cells.

Author

Peng, Chen, Wyatt, Linda S., Glushakow-Smith, Shira G., Lal-Nag, Madhu, Weisberg, Andrea S., and Moss, Bernard

Subjects

*ZINC-finger proteins, *VACCINIA, *DNA virus diseases, *VIRAL proteins, *VACCINE safety, *CHICKEN embryos, *SMALLPOX vaccines

Abstract

Modified vaccinia virus Ankara (MVA) is an approved smallpox vaccine and a promising vaccine vector for other pathogens as well as for cancer therapeutics with more than 200 current or completed clinical trials. MVA was derived by passaging the parental Ankara vaccine virus hundreds of times in chick embryo fibroblasts during which it lost the ability to replicate in human and most other mammalian cells. Although this replication deficiency is an important safety feature, the genetic basis of the host restriction is not understood. Here, an unbiased human genome-wide RNAi screen in human A549 cells revealed that the zinc-finger antiviral protein (ZAP), previously shown to inhibit certain RNA viruses, is a host restriction factor for MVA, a DNA virus. Additional studies demonstrated enhanced MVA replication in several human cell lines following knockdown of ZAP. Furthermore, CRISPR-Cas9 knockout of ZAP in human A549 cells increased MVA replication and spread by more than one log but had no effect on a non-attenuated strain of vaccinia virus. The intact viral C16 protein, which had been disrupted in MVA, antagonized ZAP by binding and sequestering the protein in cytoplasmic punctate structures. Studies aimed at exploring the mechanism by which ZAP restricts MVA replication in the absence of C16 showed that knockout of ZAP had no discernible effect on viral DNA or individual mRNA or protein species as determined by droplet digital polymerase chain reaction, deep RNA sequencing and mass spectrometry, respectively. Instead, inactivation of ZAP reduced the number of aberrant, dense, spherical particles that typically form in MVA-infected human cells, suggesting that ZAP has a novel role in interfering with a late step in the assembly of infectious MVA virions in the absence of the C16 protein. Author summary: The attenuated vaccine vector known as modified vaccinia virus Ankara (MVA) was derived by extensively passaging the parental strain of vaccinia virus Ankara in chick embryo fibroblasts and is unable to replicate in most mammalian cells. The MVA host range restriction is exceptional in that synthesis of the abundant viral proteins appears unaffected but morphogenesis of virus particles is abortive. Despite the importance of the host range restriction for vaccine safety, the basis for this antiviral effect has remained an enigma. Here we demonstrate that the zinc finger antiviral protein (ZAP), previously shown to be an inhibitor of RNA viruses, is a specific host restriction factor for replication of MVA in human cells. Moreover, the intact vaccinia virus C16 protein, which was disrupted during the attenuation of MVA, sequesters ZAP in cytoplasmic punctae and effectively counteracts the inhibitory effects of ZAP. [ABSTRACT FROM AUTHOR]

Published

2020

3. Novel Modified Vaccinia Virus Ankara Vector Expressing Antiapoptotic Gene B13R Delays Apoptosis and Enhances Humoral Responses.

Author

Chea, Lynette S., Wyatt, Linda S., Gangadhara, Sailaja, Moss, Bernard, and Amara, Rama R.

Subjects

*VACCINIA, *APOPTOSIS, *HUMORAL immunity, *ANTIBODY formation, *POXVIRUSES

Abstract

Modified vaccinia virus Ankara (MVA), an attenuated poxvirus, has been developed as a potential vaccine vector for use against cancer and multiple infectious diseases, including human immunodeficiency virus (HIV). MVA is highly immunogenic and elicits strong cellular and humoral responses in preclinical models and humans. However, there is potential to further enhance the immunogenicity of MVA, as MVA-infected cells undergo rapid apoptosis, leading to faster clearance of recombinant antigens and potentially blunting a greater response. Here, we generated MVA-B13R by replacing the fragmented 181R/182R genes of MVA with a functional anti-apoptotic gene, B13R, and confirmed its anti-apoptotic function against chemically induced apoptosis in vitro. In addition, MVA-B13R showed a significant delay in induction of apoptosis in muscle cells derived from mice and humans, as well as in plasmacytoid dendritic cells (pDCs) and CD141+ DCs from rhesus macaques, compared to the induction of apoptosis in MVA-infected cells. MVA-B13R expressing simian immunodeficiency virus (SIV) Gag and Pol and HIV envelope (SHIV) (MVA-B13R/SHIV) produced higher levels of envelope in the supernatants than MVA/SHIV-infected DF-1 cells in vitro. Immunization of BALB/c mice showed induction of higher levels of envelope-specific antibody-secreting cells and memory B cells, higher IgG antibody titers, and better persistence of antibody titers with MVA-B13R/SHIV than with MVA/SHIV. Gene set enrichment analysis of draining lymph node cells from day 1 after immunization showed negative enrichment for interferon responses in MVA-B13R/SHIV-immunized mice compared to the responses in MVA/SHIV-immunized mice. Taken together, these results demonstrate that restoring B13R functionality in MVA significantly delays MVAinduced apoptosis in muscle and antigen-presenting cells in vitro and augments vaccine-induced humoral immunity in mice. [ABSTRACT FROM AUTHOR]

Published

2019

4. High Doses of GM-CSF Inhibit Antibody Responses in Rectal Secretions and Diminish Modified Vaccinia Ankara/Simian Immunodeficiency Virus Vaccine Protection in TRIM5α-Restrictive Macaques.

Author

Kannanganat, Sunil, Wyatt, Linda S., Gangadhara, Sailaja, Chamcha, Venkatesarlu, Chea, Lynette S., Kozlowski, Pamela A., LaBranche, Celia C., Chennareddi, Lakshmi, Lawson, Benton, Reddy, Pradeep B. J., Styles, Tiffany M., Vanderford, Thomas H., Montefiori, David C., Moss, Bernard, Robinson, Harriet L., and Amara, Rama Rao

Subjects

*SIMIAN immunodeficiency virus diseases, *GRANULOCYTE-macrophage colony-stimulating factor, *DENDRITIC cells, *T cell differentiation, *MYELOID leukemia, *LEUKEMIA treatment, *THERAPEUTICS

Abstract

We tested, in rhesus macaques, the effects of a 500-fold range of an admixed recombinant modified vaccinia Ankara (MVA) expressing rhesus GM-CSF (MVA/GM-CSF) on the immunogenicity and protection elicited by an MVA/SIV macaque 239 vaccine. High doses of MVA/GM-CSF did not affect the levels of systemic envelope (Env)-specific Ab, but it did decrease the expression of the gut-homing receptor α4β7 on plasmacytoid dendritic cells (p < 0.01) and the magnitudes of Env-specific IgA (p = 0.01) and IgG (p < 0.05) in rectal secretions. The protective effect of the vaccine was evaluated using 12 weekly rectal challenges in rhesus macaques subgrouped by tripartite motif-containing protein 5α (TRIM5α) genotypes that are restrictive or permissive for infection by the challenge virus SIVsmE660. Eight of nine TRIM5α-restrictive animals receiving no or the lowest dose (1 × 105 PFU) of MVA/GM-CSF resisted all 12 challenges. In the comparable TRIM5α-permissive group, only 1 of 12 animals resisted all 12 challenges. In the TRIM5α-restrictive animals, but not in the TRIM5α-permissive animals, the number of challenges to infection directly correlated with the magnitudes of Env-specific rectal IgG (r = +0.6) and IgA (r = +0.6), the avidity of Env-specific serum IgG (r = +0.5), and Ab dependent cell-mediated virus inhibition (r = +0.6). Titers of neutralizing Ab did not correlate with protection. We conclude that 1) protection elicited by MVA/SIVmac239 is strongly dependent on the presence of TRIM5α restriction, 2) nonneutralizing Ab responses contribute to protection against SIVsmE660 in TRIM5α-restrictive animals, and 3) high doses of codelivered MVA/GM-CSF inhibit mucosal Ab responses and the protection elicited by MVA expressing noninfectious SIV macaque 239 virus-like particles. [ABSTRACT FROM AUTHOR]

Published

2016

5. The D10 Decapping Enzyme of Vaccinia Virus Contributes to Decay of Cellular and Viral mRNAs and to Virulence in Mice.

Author

Shin-Wu Liu, Wyatt, Linda S., Orandle, Marlene S., Minai, Mahnaz, and Moss, Bernard

Subjects

*RNA viruses, *VACCINIA, *MESSENGER RNA, *MICROBIAL virulence, *LABORATORY mice, *GENE expression in viruses

Abstract

Posttranscriptional mechanisms are important for regulation of cellular and viral gene expression. The presence of the 5= cap structurem7G(5=)ppp(5=)Nm is a general feature of mRNAs that provides protection from exoribonuclease digestion and enhances translation. Vaccinia virus and other poxviruses encode enzymes for both cap synthesis and decapping. Decapping is mediated by two related enzymes, D9 and D10, which are synthesized before and after viral DNA replication, respectively. The timing of D10 synthesis correlates better with the shutdown of host gene expression, and deletion of this gene has been shown to cause persistence of host and viral mRNAs in infected cells. Here, we constructed specific mutant viruses in which translation of D10 was prevented by stop codons or activity of D10 was abrogated by catalytic site mutations, without other genomic alterations. Both mutants formed plaques of normal size and replicated to similar extents as the parental virus in monkey epithelial cells and mouse embryonic fibroblasts. The synthesis of viral proteins was slightly delayed, and cellular and viral mRNAs persisted longer in cells infected with the mutants compared to either the parental virus or clonal revertant. Despite the mild effects in vitro, both mutants were more attenuated than the revertants in intranasal and intraperitoneal mouse models, and less infectious virus was recovered from organs. In addition, there was less lung histopathology following intranasal infection with mutant viruses. These data suggest that the D10 decapping enzyme may help restrict antiviral responses by accelerating host mRNA degradation during poxvirus infection. [ABSTRACT FROM AUTHOR]

Published

2014

6. Attenuation and immunogenicity of host-range extended modified vaccinia virus Ankara recombinants.

Author

Melamed, Sharon, Wyatt, Linda S., Kastenmayer, Robin J., and Moss, Bernard

Subjects

*IMMUNOGENETICS, *VACCINIA, *LABORATORY mice, *VACCINE manufacturing, *ATTENUATION (Physics)

Abstract

Highlights: [•] Modified vaccinia virus Ankara (MVA) is severely host-range restricted. [•] Recombinant host-range extended MVAs can replicate in Vero and other mammalian cells. [•] Host-range extended MVAs remain severely attenuated in mouse models. [•] Immunogenicity of host-range extended MVAs is similar to MVA. [•] Extended host range may be beneficial for vaccine production. [ABSTRACT FROM AUTHOR]

Published

2013

7. The neutralizing antibody response to the vaccinia virus A28 protein is specifically enhanced by its association with the H2 protein

Author

Shinoda, Kaori, Wyatt, Linda S., and Moss, Bernard

Subjects

*VACCINIA, *POXVIRUSES, *IMMUNIZATION, *MEMBRANE proteins, *PROTEIN-protein interactions, *VIRAL antibodies, *VIRAL proteins

Abstract

Abstract: The vaccinia virus (VACV) entry–fusion complex (EFC) is composed of at least nine membrane proteins. Immunization of mice with individual EFC genes induced corresponding protein-binding antibody but failed to protect against VACV intranasal challenge and only DNA encoding A28 elicited low neutralizing antibody. Because the A28 and H2 proteins interact, we determined the effect of immunizing with both genes simultaneously. This procedure greatly enhanced the amount of antibody that bound intact virions, neutralized infectivity, and provided partial protection against respiratory challenge. Neither injection of A28 and H2 plasmids at different sites or mixing A28 and H2 sera enhanced neutralizing antibody. The neutralizing antibody could be completely removed by binding to the A28 protein alone and the epitope was located in the C-terminal segment. These data suggest that the interaction of H2 with A28 stabilizes the immunogenic form of A28, mimicking an exposed region of the entry–fusion complex on infectious virions. [ABSTRACT FROM AUTHOR]

Published

2010

8. Elucidating and Minimizing the Loss by Recombinant Vaccinia Virus of Human Immunodeficiency Virus Gene Expression Resulting from Spontaneous Mutations and Positive Selection.

Author

Wyatt, Linda S., Earl, Patricia L., Wei Xiao, Americo, Jeffrey L., Cotter, Catherine A., Vogt, Jennifer, and Moss, Bernard

Subjects

*GENETIC mutation, *IMMUNODEFICIENCY, *IMMUNOSUPPRESSION, *VIRUS diseases in cattle, *POXVIRUS diseases, *VACCINIA

Abstract

While characterizing modified vaccinia virus recombinants (rMVAs) containing human immunodeficiency virus env and gag-pol genes, we detected nonexpressing mutants by immunostaining individual plaques. In many cases, the numbers of mutants increased during successive passages, indicating strong selection pressure. This phenomenon provided an opportunity to investigate the formation of spontaneous mutations in vaccinia virus, which encodes its own cytoplasmic replication system, and a challenge to reduce the occurrence of mutations for vaccine production. Analysis of virus from individual plaques indicated that loss of expression was due to frameshift mutations, mostly by addition or deletion of a single nucleotide in runs of four to six Gs or Cs, and large deletions that included MVA DNA flanking the recombinant gene. Interruption of the runs of Gs and Cs by silent codon alterations and moving the recombinant gene to a site between essential, highly conserved MVA genes eliminated or reduced frameshifts and viable deletion mutants, respectively. The rapidity at which nonexpressing mutants accumulated depended on the individual env and gag-pol genes and their suppressive effects on virus replication. Both the extracellular and transmembrane domains contributed to the selection of nonexpressing Env mutants. Stability of an unstable Env was improved by swapping external or transmembrane domains with a more stable Env. Most dramatically, removal of the transmembrane and cytoplasmic domains stabilized even the most highly unstable Env. Understanding the causes of instability and taking preemptive actions will facilitate the development of rMVA and other poxviruses as human and veterinary recombinant vaccines. [ABSTRACT FROM AUTHOR]

Published

2009

9. Engineering the vaccinia virus L1 protein for increased neutralizing antibody response after DNA immunization.

Author

Shinoda, Kaori, Wyatt, Linda S., Irvine, Kari R., and Moss, Bernard

Subjects

*VACCINIA, *DNA vaccines, *IMMUNOGENETICS, *GLYCOSYLATION, *FLOW cytometry

Abstract

Background: The licensed smallpox vaccine, comprised of infectious vaccinia virus, has associated adverse effects, particularly for immunocompromised individuals. Therefore, safer DNA and protein vaccines are being investigated. The L1 protein, a component of the mature virion membrane that is conserved in all sequenced poxviruses, is required for vaccinia virus entry into host cells and is a target for neutralizing antibody. When expressed by vaccinia virus, the unglycosylated, myristoylated L1 protein attaches to the viral membrane via a C-terminal transmembrane anchor without traversing the secretory pathway. The purpose of the present study was to investigate modifications of the gene expressing the L1 protein that would increase immunogenicity in mice when delivered by a gene gun. Results: The L1 gene was codon modified for optimal expression in mammalian cells and potential N-glycosylation sites removed. Addition of a signal sequence to the N-terminus of L1 increased cell surface expression as shown by confocal microscopy and flow cytometry of transfected cells. Removal of the transmembrane domain led to secretion of L1 into the medium. Induction of binding and neutralizing antibodies in mice was enhanced by gene gun delivery of L1 containing the signal sequence with or without the transmembrane domain. Each L1 construct partially protected mice against weight loss caused by intranasal administration of vaccinia virus. Conclusion: Modifications of the vaccinia virus L1 gene including codon optimization and addition of a signal sequence with or without deletion of the transmembrane domain can enhance the neutralizing antibody response of a DNA vaccine. [ABSTRACT FROM AUTHOR]

Published

2009

10. A conserved poxvirus NlpC/P60 superfamily protein contributes to vaccinia virus virulence in mice but not to replication in cell culture

Author

Senkevich, Tatiana G., Wyatt, Linda S., Weisberg, Andrea S., Koonin, Eugene V., and Moss, Bernard

Subjects

*VIRAL vaccines, *DNA viruses, *CULTURES (Biology), *POXVIRUS diseases, *POXVIRUSES

Abstract

Abstract: Of the vaccinia virus genes that are conserved in all sequenced poxviruses, each one except for VACWR084 (G6R) has been at least partially characterized. The poxvirus protein encoded by G6R belongs to the NlpC/P60 superfamily, which consists of proteins with a papain-like fold and known or predicted protease, amidase or acyltransferase activity. The G6 protein was synthesized late in infection and localized to the interior of virions, primarily between the membrane and core. Unlike other conserved poxvirus genes, G6R was not required for virus propagation and spread in a variety of cells. Nevertheless, G6R null mutants caused less severe disease in mice than the parent or revertant virus. Moreover, mutation of the predicted catalytic cysteine led to the same level of attenuation as a null mutant, suggesting that the G6 protein has enzymatic activity that is important in vivo. Conservation of G6R amongst poxviruses and the disparity between its role in vitro and in vivo imply that the protein is involved in an aspect of the virus–host interaction that is common to vertebrates and insects. [Copyright &y& Elsevier]

Published

2008

11. Enhanced cell surface expression, immunogenicity and genetic stability resulting from a spontaneous truncation of HIV Env expressed by a recombinant MVA

Author

Wyatt, Linda S., Belyakov, Igor M., Earl, Patricia L., Berzofsky, Jay A., and Moss, Bernard

Subjects

*HIV, *HTLV, *HEALTH of gay men, *HIGHLY active antiretroviral therapy

Abstract

Abstract: During propagation of modified vaccinia virus Ankara (MVA) encoding HIV 89.6 Env, a few viral foci stained very prominently. Virus cloned from such foci replicated to higher titers than the parent and displayed enhanced genetic stability on passage. Sequence analysis showed a single nucleotide deletion in the 89.6 env gene of the mutant that caused a frame shift and truncation of 115 amino acids from the cytoplasmic domain. The truncated Env was more highly expressed on the cell surface, induced higher antibody responses than the full-length Env, reacted with HIV neutralizing monoclonal antibodies and mediated CD4/co-receptor-dependent fusion. Intramuscular (IM), intradermal (ID) needleless, and intrarectal (IR) catheter inoculations gave comparable serum IgG responses. However, intraoral (IO) needleless injector route gave the highest IgA in lung washings and IR gave the highest IgA and IgG responses in fecal extracts. Induction of CTL responses in the spleens of individual mice as assayed by intracellular cytokine staining was similar with both the full-length and truncated Env constructs. Induction of acute and memory CTL in the spleens of mice immunized with the truncated Env construct by ID, IO, and IR routes was comparable and higher than by the IM route, but only the IR route induced CTL in the gut-associated lymphoid tissue. Thus, truncation of Env enhanced genetic stability as well as serum and mucosal antibody responses, suggesting the desirability of a similar modification in MVA-based candidate HIV vaccines. [Copyright &y& Elsevier]

Published

2008

12. Correlation of immunogenicities and in vitro expression levels of recombinant modified vaccinia virus Ankara HIV vaccines

Author

Wyatt, Linda S., Earl, Patricia L., Vogt, Jennifer, Eller, Leigh Anne, Chandran, Dev, Liu, Jinyan, Robinson, Harriet L., and Moss, Bernard

Subjects

*VACCINATION, *VIRUS diseases in cattle, *PREVENTIVE medicine, *AIDS vaccines

Abstract

Summary: The purpose of the present study was to correlate the in vitro level of HIV Env expression by recombinant modified vaccinia virus Ankara (rMVA) with immunogenicity in mice. A 5-fold difference in Env synthesis was achieved at the translational level by the presence or absence of an out-of-frame initiation codon upstream of the env gene. This perturbation had no effect on the size or processing of Env. In contrast to the variation in Env synthesis, the rMVAs produced similar amounts of HIV Gag, which were expressed from identical cassettes. Mice immunized with the higher Env expressing rMVAs had about 15-fold higher titers of Env antibodies and several fold higher frequencies of Env-specific CD8+ and CD4+ T cells than mice immunized with the low expresser. The greater immune response achieved by high expression was maintained over a 100-fold dose range. Importantly, enhanced Env immune responses did not come at the expense of lower Gag T cell responses. These data suggest that for high immunogenicity, rMVAs should be engineered to produce the most recombinant protein that can be achieved without compromising the growth and stability of the rMVA. [Copyright &y& Elsevier]

Published

2008

13. Studies on in vitro expression and in vivo immunogenicity of a recombinant MVA HIV vaccine

Author

Liu, Jinyan, Wyatt, Linda S., Amara, Rama Rao, Moss, Bernard, and Robinson, Harriet L.

Subjects

*AIDS vaccines, *VACCINATION, *PREVENTIVE medicine, *T cells

Abstract

Abstract: Here we conduct dose–response studies for in vitro expression and in vivo immunogenicity for a recombinant modified vaccinia Ankara (MVA) vaccine that expresses HIV Gag, Pol, and Env proteins. The dose–response studies for in vitro expression used fluorescent-activated cell sorting to score Gag- and Env-expressing cells and showed good increases for antigen expression with increasing MVA dose. In these studies, a 1000-fold increase in the dose of MVA resulted in a 300-fold increase in the frequency of antigen-expressing cells. In contrast, dose–response studies for in vivo immunogenicity showed <10-fold increases in elicited T cells and Ab for 100–1000-fold increases in the dose of inoculated MVA. These studies used intracellular cytokine assays to enumerate responding CD8 and CD4 T cells and an ELISA to score anti-Env Ab. The shallow dose–response curves for immunogenicity were observed post priming as well as post boosting of an MVA or a DNA prime. [Copyright &y& Elsevier]

Published

2006

14. Vaccination of infant macaques with a recombinant modified vaccinia virus Ankara expressing the respiratory syncytial virus F and G genes does not predispose for immunopathology

Author

de Waal, Leon, Wyatt, Linda S., Yüksel, Selma, van Amerongen, Geert, Moss, Bernard, Niesters, Hubert G.M., Osterhaus, Albert D.M.E., and de Swart, Rik L.

Subjects

*VACCINATION, *MACAQUES, *IMMUNOPATHOLOGY, *GENES

Abstract

We have evaluated the safety and immunogenicity of a recombinant modified vaccinia virus Ankara (MVA) vector expressing the respiratory syncytial virus (RSV) fusion (F) and attachment (G) proteins in infant macaques. Animals were vaccinated twice and 4 months later challenged with RSV. Although vaccination did not predispose for immunopathology upon challenge, we were also unable to demonstrate protection. Since vaccination had resulted in priming for secondary immune responses upon challenge, we suggest that vaccination efficacy will have to be improved by using MVA in a prime-boost strategy. [Copyright &y& Elsevier]

Published

2004

15. Overcoming Immunity to a Viral Vaccine by DNA Priming before Vector Boosting.

Author

Zhi-yong Yang, Wyatt, Linda S., Wing-pui Kong, Moodie, Zoe, Moss, Bernard, and Nabel, Gary J.

Subjects

*ADENOVIRUSES, *EBOLA virus disease, *HIV

Abstract

Replication-defective adenovirus (ADV) and poxvirus vectors have shown potential as vaccines for pathogens such as Ebola or human immunodeficiency virus in nonhuman primates, but prior immunity to the viral vector in humans may limit their clinical efficacy. To overcome this limitation, the effect of prior viral exposure on immune responses to Ebola virus glycoprotein (GP), shown previously to protect against lethal hemorrhagic fever in animals, was studied. Prior exposure to ADV substantially reduced the cellular and humoral immune responses to GP expressed by ADV, while exposure to vaccinia inhibited vaccine-induced cellular but not humoral responses to GP expressed by vaccinia. This inhibition was largely overcome by priming with a DNA expression vector before boosting with the viral vector. Though heterologous viral vectors for priming and boosting can also overcome this effect, the paucity of such clinical viral vectors may limit their use. In summary, it is possible to counteract prior viral immunity by priming with a nonviral, DNA vaccine. [ABSTRACT FROM AUTHOR]

Published

2003

16. Comparison of Vaccine Strategies Using Recombinant env–gag–pol MVA with or without an Oligomeric Env Protein Boost in the SHIV Rhesus Macaque Model

Author

Earl, Patricia L., Wyatt, Linda S., Montefiori, David C., Bilska, Miroslawa, Woodward, Ruth, Markham, Phillip D., Malley, James D., Vogel, Thorsten U., Allen, Todd M., Watkins, David I., Miller, Nancy, and Moss, Bernard

Subjects

*IMMUNIZATION, *RHESUS monkeys, *DISEASES

Abstract

Rhesus macaques were immunized with a replication-deficient vaccinia virus (MVA) expressing human immunodeficiency virus type 1 89.6 envelope (env) and SIV gagpol (MVA/SHIV89.6) with or without a protein boost consisting of soluble 89.6 env (gp140). Immunization with MVA/SHIV89.6 alone elicited binding antibodies in all animals and neutralizing antibodies in 5 of 15 animals. Both types of antibodies were enhanced by protein boosting. In addition, CD8 cells exhibiting CM9 tetramer binding were detected in the subset of animals that were Mamu-A*01 positive. Animals were challenged intravenously with either SHIV-89.6 (Study 1) or the more pathogenic derivative SHIV-89.6P (Study 2). In Study 1, all control and vaccinated animals except one became infected. However, the levels of viremia were as follows: controls > rMVA alone > rMVA + protein. The differences were statistically significant between immunized and control groups but not between the two immunized groups. In Study 2, all animals became infected; however, the vaccinated group exhibited a 5-fold reduction in peak viremia and a 10-fold reduction in the postacute phase viremia in comparison to the controls. All of the controls required euthanasia by 10 months after challenge. A relationship between vaccine-induced antibody titers and reduction in virus burden was observed in both studies. Thus, immunization with MVA/SHIV89.6 alone or with a protein boost stimulated both arms of the immune system and resulted in significant control of viremia and delayed progression to disease after challenge with SHIV-89.6P. [Copyright &y& Elsevier]

Published

2002

17. Antibody Profiling by Proteome Microarray Reveals the Immunogenicity of the Attenuated Smallpox Vaccine Modified Vaccinia Virus Ankara Is Comparable to That of Dryvax.

Author

Davies, D. Huw, Wyatt, Linda S., Newman, Frances K., Earl, Patricia L., Sookhee Chun, Hernandez, Jenny E., Molina, Douglas M., Hirst, Siddiqua, Moss, Bernard, Frey, Sharon E., and Felgner, Philip L.

Subjects

*VACCINIA, *SMALLPOX vaccines, *FIBROBLASTS, *GENETIC mutation, *LABORATORY rabbits

Abstract

Modified vaccinia virus Ankara (MVA) is a highly attenuated vaccinia virus that is under consideration as an alternative to the conventional smallpox vaccine Dryvax. MVA was attenuated by extensive passage of vaccinia virus Ankara in chicken embryo fibroblasts. Several immunomodulatory genes and genes that influence host range are deleted or mutated, and replication is aborted in the late stage of infection in most nonavian cells. The effect of these mutations on immunogenicity is not well understood. Since the structural genes appear to be intact in MVA, it is hypothesized that critical targets for antibody neutralization have been retained. To test this, we probed microarrays of the Western Reserve (WR) proteome with sera from humans and macaques after MVA and Dryvax vaccination. As most protein sequences of MVA are 97 to 99% identical to those of other vaccinia virus strains, extensive binding cross-reactivity is expected, except for those deleted or truncated. Despite different hosts and immunization regimens, the MVA and Dryvax antibody profiles were broadly similar, with antibodies against membrane and core proteins being the best conserved. The responses to nonstructural proteins were less well conserved, although these are not expected to influence virus neutralization. The broadest antibody response was obtained for hyperimmune rabbits with WR, which is pathogenic in rabbits. These data indicate that, despite the mutations and deletions in MVA, its overall immunogenicity is broadly comparable to that of Dryvax, particularly at the level of antibodies to membrane proteins. The work supports other information suggesting that MVA may be a useful alternative to Dryvax. [ABSTRACT FROM AUTHOR]

Published

2008

18. Rapid protection in a monkeypox model by a single injection of a replication-deficient vaccinia virus.

Author

Earl, Patricia L., Americo, Jeffrey L., Wyatt, Linda S., Espenshade, Ondraya, Bassler, Jocelyn, Gong, Kathy, Shuling Lin, Peters, Elizabeth, Rhodes Jr., Lowrey, Spano, Yvette Edghill, Silvera, Peter M., and Moss, Bernard

Subjects

*MONKEYPOX virus, *VACCINATION, *IMMUNITY, *POXVIRUS diseases, *BIOSECURITY, *IMMUNOGLOBULINS

Abstract

The success of the World Health Organization smallpox eradication program three decades ago resulted in termination of routine vaccination and consequent decline in population immunity. Despite concerns regarding the reintroduction of smallpox, there is little enthusiasm fox large-scale redeployment of licensed live vaccinia virus vaccines because of medical contraindications and anticipated serious side effects. Therefore, highly attenuated strains such as modified vaccinia virus Ankara (MVA) are under evaluation in humans and animal models. Previous studies showed that priming and boosting with MVA provided protection for >2 years in a monkeypox virus challenge model. If variola virus were used as a biological weapon, however, the ability of a vaccine to quickly induce immunity would be essential. Here, we demonstrate more rapid immune responses after a single vaccination with MVA compared to the licensed Dryvax vaccine. To determine the kinetics of protection of the two vaccines, macaques were challenged intravenously with monkeypox virus at 4, 6, 10, and 30 days after immunization. At 6 or more days after vaccination with MVA or Dryvax, the monkeys were clinically protected (except for 1 of 16 animals vaccinated with MVA), although viral loads and number of skin lesions were generally higher in the MVA vaccinated group. With only 4 days between immunization and intravenous challenge, however, MVA still protected whereas Dryvax failed. Protection correlated with the more rapid immune response to MVA compared to Dryvax, which may be related to the higher dose of MVA that can be tolerated safely. [ABSTRACT FROM AUTHOR]

Published

2008

19. Recombinant modified vaccinia virus Ankara provides durable protection against disease caused by an immunodeficiency virus as well as long-term immunity to an orthopoxvirus in a non-human primate

Author

Earl, Patricia L., Americo, Jeffrey L., Wyatt, Linda S., Anne Eller, Leigh, Montefiori, David C., Byrum, Russ, Piatak, Michael, Lifson, Jeffrey D., Rao Amara, Rama, Robinson, Harriet L., Huggins, John W., and Moss, Bernard

Subjects

*VIRUS diseases in cattle, *RHESUS monkeys, *IMMUNODEFICIENCY, *SMALLPOX vaccines

Abstract

Abstract: Recombinant and non-recombinant modified vaccinia virus Ankara (MVA) strains are currently in clinical trials as human immunodeficiency virus-1 (HIV) and attenuated smallpox vaccines, respectively. Here we tested the ability of a recombinant MVA delivered by alternative needle-free routes (intramuscular, intradermal, or into the palatine tonsil) to protect against immunodeficiency and orthopoxvirus diseases in a non-human primate model. Rhesus macaques were immunized twice 1 month apart with MVA expressing 5 genes from a pathogenic simian human immunodeficiency virus (SHIV)/89.6P and challenged intrarectally 9 months later with the pathogenic SHIV/89.6P and intravenously 2.7 years later with monkeypox virus. Irrespective of the route of vaccine delivery, binding and neutralizing antibodies and CD8 responses to SHIV and orthopoxvirus proteins were induced and the monkeys were successively protected against the diseases caused by the challenge viruses in unimmunized controls as determined by viral loads and clinical signs. These non-human primate studies support the clinical testing of recombinant MVA as an HIV vaccine and further demonstrate that MVA can provide long-term poxvirus immunity, essential for use as an alternative smallpox vaccine. [Copyright &y& Elsevier]

Published

2007

20. Immunogenicity of a highly attenuated MVA smallpox vaccine and protection against monkeypox.

Author

Earl, Patricia L., Americo, Jeffrey L., Wyatt, Linda S., Eller, Leigh Anne, Whitbeck, J. Charles, Cohen, Gary H., Eisenberg, Roselyn J., Hartmann, Christopher J., Jackson, David L., Kulesh, David A., Martinez, Mark J., Miller, David M., Mucker, Eric M., Shamblin, Joshua D., Zwiers, Susan H., Huggins, John W., Jahrling, Peter B., and Moss, Bernard

Subjects

*SMALLPOX vaccines, *MONKEYPOX, *IMMUNIZATION, *HEALTH of medical personnel, *PUBLIC health, *PREVENTION

Abstract

The potential use of smallpox as a biological weapon has led to the production and stockpiling of smallpox vaccine and the immunization of some healthcare workers. Another public health goal is the licensing of a safer vaccine that could benefit the millions of people advised not to take the current one because they or their contacts have increased susceptibility to severe vaccine side effects. As vaccines can no longer be tested for their ability to prevent smallpox, licensing will necessarily include comparative immunogenicity and protection studies in non-human primates. Here we compare the highly attenuated modified vaccinia virus Ankara (MVA) with the licensed Dryvax vaccine in a monkey model. After two doses of MVA or one dose of MVA followed by Dryvax, antibody binding and neutralizing titres and T-cell responses were equivalent or higher than those induced by Dryvax alone. After challenge with monkeypox virus, unimmunized animals developed more than 500 pustular skin lesions and became gravely ill or died, whereas vaccinated animals were healthy and asymptomatic, except for a small number of transient skin lesions in animals immunized only with MVA. [ABSTRACT FROM AUTHOR]

Published

2004

21. SPI-1 is a missing host-range factor required for replication of the attenuated modified vaccinia Ankara (MVA) vaccine vector in human cells.

Author

Liu, Ruikang, Mendez-Rios, Jorge D., Peng, Chen, Xiao, Wei, Weisberg, Andrea S., Wyatt, Linda S., and Moss, Bernard

Subjects

*VACCINIA, *VACCINES, *PROTEASE inhibitors, *NUCLEOTIDE sequencing, *POXVIRUS diseases, *ELECTRON microscopy

Abstract

Modified vaccinia virus Ankara (MVA) is the leading poxvirus vector for development of vaccines against diverse infectious diseases. This distinction is based on high expression of proteins and good immunogenicity despite an inability to assemble infectious progeny in human cells, which together promote efficacy and safety. Nevertheless, the basis for the host-range restriction is unknown despite past systematic attempts to identify the relevant missing viral gene(s). The search for host-range factors is exacerbated by the large number of deletions, truncations and mutations that occurred during the long passage history of MVA in chicken embryo fibroblasts. By whole genome sequencing of a panel of recombinant host-range extended (HRE) MVAs generated by marker rescue with 40 kbp segments of vaccinia virus DNA, we identified serine protease inhibitor 1 (SPI-1) as one of several candidate host-range factors present in those viruses that gained the ability to replicate in human cells. Electron microscopy revealed that the interruption of morphogenesis in human cells infected with MVA occurred at a similar stage as that of a vaccinia virus strain WR SPI-1 deletion mutant. Moreover, the introduction of the SPI-1 gene into the MVA genome led to more than a 2-log enhancement of virus spread in human diploid MRC-5 cells, whereas deletion of the gene diminished the spread of HRE viruses by similar extents. Furthermore, MRC-5 cells stably expressing SPI-1 also enhanced replication of MVA. A role for additional host range genes was suggested by the restoration of MVA replication to a lower level relative to HRE viruses, particularly in other human cell lines. Although multiple sequence alignments revealed genetic changes in addition to SPI-1 common to the HRE MVAs, no evidence for their host-range function was found by analysis thus far. Our finding that SPI-1 is host range factor for MVA should simplify use of high throughput RNAi or CRISPR/Cas single gene methods to identify additional viral and human restriction elements. [ABSTRACT FROM AUTHOR]

Published

2019

22. RNA polymerase mutations selected during experimental evolution enhance replication of a hybrid vaccinia virus with an intermediate transcription factor subunit replaced by the myxoma virus ortholog.

Author

Stuart, Carey A., Zhivkoplias, Erik K., Senkevich, Tatiana G., Wyatt, Linda S., and Moss, Bernard

Subjects

*RNA polymerase genetics, *VACCINIA, *MYXOMA virus, *TRANSCRIPTION factors, *NUCLEOTIDE sequencing

Abstract

High-throughput DNA sequencing enables the study of experimental evolution in near real time. Until now, mutants with deletions of non-essential host range genes were used in experimental evolution of vaccinia virus (VACV). Here, we guided the selection of adaptive mutations that enhanced the fitness of a hybrid virus in which an essential gene had been replaced with an ortholog from another poxvirus genus. Poxviruses encode a complete system for transcription including RNA polymerase and stage-specific transcription factors. The abilities of orthologous intermediate transcription factors from other poxviruses to substitute for those of VACV, determined by transfection assays, corresponded with the degree of amino acid identity. VACV in which the A8 or A23 intermediate transcription factor subunit gene was replaced by the myxoma (MYX) virus ortholog exhibited decreased replication. During three parallel serial passages of the hybrid virus with the MYXA8 gene, plaque sizes and virus yields increased. DNA sequencing of virus populations at passage 10 revealed high frequencies of five different single nucleotide mutations in the two largest RNA polymerase subunits RPO147 and RPO132, and two different Kozak consensus sequence mutations predicted to increase translation of the MYXA8 mRNA. Surprisingly, there were no mutations within either intermediate transcription factor subunit. Based on homology with yeast RNA polymerase, the VACV mutations were predicted to be buried within the internal structure of the enzyme. By directly introducing single nucleotide substitutions into the genome of the original hybrid virus, both RNA polymerase and translation-enhancing mutations were demonstrated to increase virus replication independently. [ABSTRACT FROM AUTHOR]

Published

2018

23. DNA Vaccine–Induced Long-Lasting Cytotoxic T Cells Targeting Conserved Elements of Human Immunodeficiency Virus Gag Are Boosted Upon DNA or Recombinant Modified Vaccinia Ankara Vaccination.

Author

Hu, Xintao, Valentin, Antonio, Cai, Yanhui, Dayton, Frances, Rosati, Margherita, Ramírez-Salazar, Eric G., Kulkarni, Viraj, Broderick, Kate E., Sardesai, Niranjan Y., Wyatt, Linda S., Earl, Patricia L., Moss, Bernard, Mullins, James I., Pavlakis, George N., and Felber, Barbara K.

Subjects

*DNA vaccines, *DRUG side effects, *CYTOTOXIC T cells, *HIV infections, *VACCINATION, *HLA histocompatibility antigens

Abstract

DNA-based vaccines able to induce efficient cytotoxic T-cell responses targeting conserved elements (CE) of human immunodeficiency virus type 1 (HIV-1) Gag have been developed. These CE were selected by stringent conservation, the ability to induce T-cell responses with broad human leukocyte antigen coverage, and the association between recognition of CE epitopes and viral control in HIV-infected individuals. Based on homology to HIV, a simian immunodeficiency virus p27gag CE DNA vaccine has also been developed. This study reports on the durability of the CE-specific T-cell responses induced by HIV and simian immunodeficiency virus CE DNA-based prime/boost vaccine regimens in rhesus macaques, and shows that the initially primed CE-specific T-cell responses were efficiently boosted by a single CE DNA vaccination after the long rest period (up to 2 years). In another cohort of animals, the study shows that a single inoculation with non-replicating recombinant Modified Vaccinia Ankara (rMVA62B) also potently boosted CE-specific responses after around 1.5 years of rest. Both CE DNA and rMVA62B booster vaccinations increased the magnitude and cytotoxicity of the CE-specific responses while maintaining the breadth of CE recognition. Env produced by rMVA62B did not negatively interfere with the recall of the Gag CE responses. rMVA62B could be beneficial to further boosting the immune response to Gag in humans. Vaccine regimens that employ CE DNA as a priming immunogen hold promise for application in HIV prevention and therapy. [ABSTRACT FROM AUTHOR]

Published

2018

24. Identification of Poxvirus Genome Uncoating and DNA Replication Factors with Mutually Redundant Roles.

Author

Baoming Liu, Panda, Debasis, Mendez-Rios, Jorge D., Ganesan, Sundar, Wyatt, Linda S., and Moss, Bernard

Subjects

*POXVIRUS diseases, *VIRAL genomes, *DNA replication, *VIRAL envelopes, *GENE expression, *DELETION mutation

Abstract

Genome uncoating is essential for replication of most viruses. For poxviruses, the process is divided into two stages: removal of the envelope, allowing early gene expression, and breaching of the core wall, allowing DNA release, replication, and late gene expression. Subsequent studies showed that the host proteasome and the viral D5 protein, which has an essential role in DNA replication, are required for vaccinia virus (VACV) genome uncoating. In a search for additional VACV uncoating proteins, we noted a report that described a defect in DNA replication and late expression when the gene encoding a 68-kDa ankyrin repeat/F-box protein (68k-ank), associated with the cellular SCF (Skp1, cullin1, F-box-containing complex) ubiquitin ligase complex, was deleted from the attenuated modified vaccinia virus Ankara (MVA). Here we showed that the 68k-ank deletion mutant exhibited diminished genome uncoating, formation of DNA prereplication sites, and degradation of viral cores as well as an additional, independent defect in DNA synthesis. Deletion of the 68k-ank homolog of VACV strain WR, however, was without effect, suggesting the existence of compensating genes. By inserting VACV genes into an MVA 68k-ank deletion mutant, we discovered that M2, a member of the poxvirus immune evasion (PIE) domain superfamily and a regulator of NF- ĸB, and C5, a member of the BTB/Kelch superfamily associated with cullin-3-based ligase complexes, independently rescued the 68k-ank deletion phenotype. Thus, poxvirus uncoating and DNA replication are intertwined processes involving at least three viral proteins with mutually redundant functions in addition to D5. IMPORTANCE Poxviruses comprise a family of large DNA viruses that infect vertebrates and invertebrates and cause diseases of medical and zoological importance. Poxviruses, unlike most other DNA viruses, replicate in the cytoplasm, and their large genomes usually encode 200 or more proteins with diverse functions. About 90 genes may be essential for chordopoxvirus replication based either on their conservation or individual gene deletion studies. However, this number may underestimate the true number of essential functions because of redundancy. Here we show that any one of three seemingly unrelated and individually nonessential proteins is required for the incompletely understood processes of genome uncoating and DNA replication, an example of synthetic lethality. Thus, poxviruses appear to have a complex genetic interaction network that has not been fully appreciated and which will require multifactor deletion screens to assess. [ABSTRACT FROM AUTHOR]

Published

2018

25. A Trimeric HIV-1 Envelope gp120 Immunogen Induces Potent and Broad Anti-V1V2 Loop Antibodies against HIV-1 in Rabbits and Rhesus Macaques.

Author

Jones, Andrew T., Chamcha, Venkateswarlu, Kesavardhana, Sannula, Xiaoying Shen, Beaumont, David, Das, Raksha, Wyatt, Linda S., LaBranche, Celia C., Stanfield-Oakley, Sherry, Ferrari, Guido, Montefiori, David C., Moss, Bernard, Tomaras, Georgia D., Varadarajan, Raghavan, and Amara, Rama Rao

Subjects

*HIV infections -- Immunological aspects, *VIRAL antibodies, *RHESUS monkeys, *VIRUS diseases in rabbits, *HIV-1 glycoprotein 120

Abstract

Trimeric HIV-1 envelope (Env) immunogens are attractive due to their ability to display quaternary epitopes targeted by broadly neutralizing antibodies (bNAbs) while obscuring unfavorable epitopes. Results from the RV144 trial highlighted the importance of vaccine-induced HIV-1 Env V1V2-directed antibodies, with key regions of the V2 loop as targets for vaccine-mediated protection. We recently reported that a trimeric JRFL-gp120 immunogen, generated by inserting an N-terminal trimerization domain in the V1 loop region of a cyclically permuted gp120 (cycP-gp120), induces neutralizing activity against multiple tier-2 HIV-1 isolates in guinea pigs in a DNA prime/protein boost approach. Here, we tested the immunogenicity of cycPgp120 in a protein prime/boost approach in rabbits and as a booster immunization to DNA/modified vaccinia Ankara (MVA)-vaccinated rabbits and rhesus macaques. In rabbits, two cycP-gp120 protein immunizations induced 100-fold higher titers of high-avidity gp120-specific IgG than two gp120 immunizations, with four total gp120 immunizations being required to induce comparable titers. cycP-gp120 also induced markedly enhanced neutralizing activity against tier-1A and -1B HIV-1 isolates, substantially higher binding and breadth to gp70-V1V2 scaffolds derived from a multiclade panel of global HIV-1 isolates, and antibodies targeting key regions of the V2-loop region associated with reduced risk of infection in RV144. Similarly, boosting MVA- or DNA/MVA-primed rabbits or rhesus macaques with cycP-gp120 showed a robust expansion of gp70-V1V2-specific IgG, neutralization breadth to tier-1B HIV-1 isolates, and antibody-dependent cellular cytotoxicity activity. These results demonstrate that cycP-gp120 serves as a robust HIV Env immunogen that induces broad anti-V1V2 antibodies and promotes neutralization breadth against HIV-1. IMPORTANCE Recent focus in HIV-1 vaccine development has been the design of trimeric HIV-1 Env immunogens that closely resemble native HIV-1 Env, with a major goal being the induction of bNAbs. While the generation of bNAbs is considered a gold standard in vaccine-induced antibody responses, results from the RV144 trial showed that nonneutralizing antibodies directed toward the V1V2 loop of HIV-1 gp120, specifically the V2 loop region, were associated with decreased risk of infection, demonstrating the need for the development of Env immunogens that induce a broad anti-V1V2 antibody response. In this study, we show that a novel trimeric gp120 protein, cycP-gp120, generates high titers of high-avidity and broadly cross-reactive anti-V1V2 antibodies, a result not found in animals immunized with monomeric gp120. These results reveal the potential of cycP-gp120 as a vaccine candidate to induce antibodies associated with reduced risk of HIV-1 infection in humans. [ABSTRACT FROM AUTHOR]

Published

2018

26. HIV-1 gp120 and Modified Vaccinia Virus Ankara (MVA) gp140 Boost Immunogens Increase Immunogenicity of a DNA/MVA HIV-1 Vaccine.

Author

Xiaoying Shen, Basu, Rahul, Sawant, Sheetal, Beaumont, David, Sue Fen Kwa, LaBranche, Celia, Seaton, Kelly E., Yates, Nicole L., Montefiori, David C., Ferrari, Guido, Wyatt, Linda S., Moss, Bernard, Munir Alam, S., Haynes, Barton F., Tomaras, Georgia D., and Robinson, Harriet L.

Subjects

*HIV, *ANTIVIRAL agents, *CELL-mediated cytotoxicity, *EPITOPES, *VACCINATION, *T cells

Abstract

An important goal of human immunodeficiency virus (HIV) vaccine design is identification of strategies that elicit effective antiviral humoral immunity. One novel approach comprises priming with DNA and boosting with modified vaccinia virus Ankara (MVA) expressing HIV-1 Env on virus-like particles. In this study, we evaluated whether the addition of a gp120 protein in alum or MVA-expressed secreted gp140 (MVAgp140) could improve immunogenicity of a DNA prime-MVA boost vaccine. Five rhesus macaques per group received two DNA primes at weeks 0 and 8 followed by three MVA boosts (with or without additional protein or MVAgp140) at weeks 18, 26, and 40. Both boost immunogens enhanced the breadth of HIV-1 gp120 and V1V2 responses, antibody-dependent cellular cytotoxicity (ADCC), and low-titer tier 1B and tier 2 neutralizing antibody responses. However, there were differences in antibody kinetics, linear epitope specificity, and CD4 T cell responses between the groups. The gp120 protein boost elicited earlier and higher peak responses, whereas the MVAgp140 boost resulted in improved antibody durability and comparable peak responses after the final immunization. Linear V3 specific IgG responses were particularly enhanced by the gp120 boost, whereas the MVAgp140 boost also enhanced responses to linear C5 and C2.2 epitopes. Interestingly, gp120, but not the MVAgp140 boost, increased peak CD4+ T cell responses. Thus, both gp120 and MVAgp140 can augment potential protection of a DNA/MVA vaccine by enhancing gp120 and V1/V2 antibody responses, whereas potential protection by gp120, but not MVAgp140 boosts, may be further impacted by increased CD4+ T cell responses. IMPORTANCE Prior immune correlate analyses with humans and nonhuman primates revealed the importance of antibody responses in preventing HIV-1 infection. A DNA prime-modified vaccinia virus Ankara (MVA) boost vaccine has proven to be potent in eliciting antibody responses. Here we explore the ability of boosts with recombinant gp120 protein or MVA-expressed gp140 to enhance antibody responses elicited by the GOVX-B11 DNA prime-MVA boost vaccine. We found that both types of immunogen boosts enhanced potentially protective antibody responses, whereas the gp120 protein boosts also increased CD4+ T cell responses. Our data provide important information for HIV vaccine designs that aim for effective and balanced humoral and T cell responses. [ABSTRACT FROM AUTHOR]

Published

2017

27. Comparative Analysis of the Magnitude, Quality, Phenotype, and Protective Capacity of Simian Immunodeficiency Virus Gag-Specific CD8+ T Cells following Human-, Simian-, and Chimpanzee-Derived Recombinant Adenoviral Vector Immunization.

Author

Quinn, Kylie M., Da Costa, Andreia, Ayako Yamamoto, Berry, Dana, Lindsay, Ross W. B., Darrah, Patricia A., Lingshu Wang, Cheng Cheng, Wing-Pui Kong, Gall, Jason G. D., Nicosia, Alfredo, Folgori, Antonella, Colloca, Stefano, Cortese, Riccardo, Gostick, Emma, Price, David A., Gomez, Carmen E., Esteban, Mariano, Wyatt, Linda S., and Moss, Bernard

Subjects

*SIMIAN immunodeficiency virus diseases, *COMPARATIVE studies, *T cells, *ADENOVIRUS diseases, *VIRUS disease transmission, *PREVENTION, *VACCINATION

Abstract

Recombinant adenoviral vectors (rAds) are the most potent recombinant vaccines for eliciting CD8+ T cell-mediated immunity in humans; however, prior exposure from natural adenoviral infection can decrease such responses. In this study we show low seroreactivity in humans against simian- (sAd11, sAd16) or chimpanzee-derived (chAd3, chAd63) compared with human-derived (rAd5, rAd28, rAd35) vectors across multiple geographic regions. We then compared the magnitude, quality, phenotype, and protective capacity of CD8+ T cell responses in mice vaccinated with rAds encoding SIV Gag. Using a dose range (1 × 107-109 particle units), we defined a hierarchy among rAd vectors based on the magnitude and protective capacity of CD8+ T cell responses, from most to least, as: rAd5 and chAd3, rAd28 and sAd11, chAd63, sAd16, and rAd35. Selection of rAd vector or dose could modulate the proportion and/or frequency of IFN-γ+TNF-α+IL-2+ and KLRG1+CD127-CD8+ T cells, but strikingly ~30-80% of memory CD8+ T cells coexpressed CD127 and KLRG1. To further optimize CD8+ T cell responses, we assessed rAds as part of prime-boost regimens. Mice primed with rAds and boosted with NYVAC generated Gag-specific responses that approached ~60% of total CD8+ T cells at peak. Alternatively, priming with DNA or rAd28 and boosting with rAd5 or chAd3 induced robust and equivalent CD8+ T cell responses compared with prime or boost alone. Collectively, these data provide the immunologic basis for using specific rAd vectors alone or as part of prime-boost regimens to induce CD8+ T cells for rapid effector function or robust long-term memory, respectively. [ABSTRACT FROM AUTHOR]

Published

2013

28. Phase 1 Safety and Immunogenicity Testing of DNA and Recombinant Modified Vaccinia Ankara Vaccines Expressing HIV-1 Virus-like Particles.

Author

Goepfert, Paul A., Elizaga, Marnie L., Sato, Alicia, Qin, Li, Cardinali, Massimo, Hay, Christine M., Hural, John, DeRosa, Stephen C., DeFawe, Olivier D., Tomaras, Georgia D., Montefiori, David C., Xu, Yongxian, Lai, Lilin, Kalams, Spyros A., Baden, Lindsey R., Frey, Sharon E., Blattner, William A., Wyatt, Linda S., Moss, Bernard, and Robinson, Harriet L.

Subjects

*RECOMBINANT DNA, *VACCINIA, *HIV, *PLACEBOS, *T cells, *VIRUS diseases in cattle, *CD4 antigen, *CD8 antigen

Abstract

Background. Recombinant DNA and modified vaccinia virus Ankara (rMVA) vaccines represent a promising approach to an HIV/AIDS vaccine. This Phase 1 clinical trial compared the safety and immunogenicity of a rMVA vaccine administered with and without DNA vaccine primingMethods. GeoVax pGA2/JS7 DNA (D) and MVA/HIV62 (M) vaccines encode noninfectious virus-like particles. Intramuscular needle injections were used to deliver placebo, 2 doses of DNA followed by 2 doses of rMVA (DDMM), one dose of DNA followed by 2 doses of rMVA (DMM), or 3 doses of rMVA (MMM) to HIV-seronegative participants.Results. Local and systemic symptoms were mild or moderate. Immune response rates for CD4 + and CD8 + T cells were highest in the DDMM group and lowest in the MMM group (77% vs 43% CD4 + and 42% vs 17% CD8 +). In contrast, response rates for Env binding and neutralizing Ab were highest in the MMM group. The DMM group had intermediate response rates. A 1/10th-dose DDMM regimen induced similar T cell but reduced Ab response rates compared with the full-dose DDMM.Conclusions. MVA62 was well tolerated and elicited different patterns of T cell and Ab responses when administered alone or in combination with the JS7 DNA vaccine. [ABSTRACT FROM PUBLISHER]

Published

2011

29. Phase 1 Safety and Immunogenicity Testing of DNA and Recombinant Modified Vaccinia Ankara Vaccines Expressing HIV-1 Virus-like Particles.

Author

Goepfert, Paul A., Elizaga, Marnie L., Sato, Alicia, Qin, Li, Cardinali, Massimo, Hay, Christine M., Hural, John, DeRosa, Stephen C., DeFawe, Olivier D., Tomaras, Georgia D., Montefiori, David C., Xu, Yongxian, Lai, Lilin, Kalams, Spyros A., Baden, Lindsey R., Frey, Sharon E., Blattner, William A., Wyatt, Linda S., Moss, Bernard, and Robinson, Harriet L.

Abstract

Background. Recombinant DNA and modified vaccinia virus Ankara (rMVA) vaccines represent a promising approach to an HIV/AIDS vaccine. This Phase 1 clinical trial compared the safety and immunogenicity of a rMVA vaccine administered with and without DNA vaccine primingMethods. GeoVax pGA2/JS7 DNA (D) and MVA/HIV62 (M) vaccines encode noninfectious virus-like particles. Intramuscular needle injections were used to deliver placebo, 2 doses of DNA followed by 2 doses of rMVA (DDMM), one dose of DNA followed by 2 doses of rMVA (DMM), or 3 doses of rMVA (MMM) to HIV-seronegative participants.Results. Local and systemic symptoms were mild or moderate. Immune response rates for CD4 + and CD8 + T cells were highest in the DDMM group and lowest in the MMM group (77% vs 43% CD4 + and 42% vs 17% CD8 +). In contrast, response rates for Env binding and neutralizing Ab were highest in the MMM group. The DMM group had intermediate response rates. A 1/10th-dose DDMM regimen induced similar T cell but reduced Ab response rates compared with the full-dose DDMM.Conclusions. MVA62 was well tolerated and elicited different patterns of T cell and Ab responses when administered alone or in combination with the JS7 DNA vaccine. [ABSTRACT FROM PUBLISHER]

Published

2011

30. Preclinical Studies of Human Immunodeficiency Virus/AIDS Vaccines: Inverse Correlation between Avidity of Anti-Env Antibodies and Peak Postchallenge Viremia.

Author

Jun Zhao, Lilin Lai, Amara, Rama Rao, Montefiori, David C., Villinger, Francois, Chennareddi, Lakshmi, Wyatt, Linda S., Moss, Bernard, and Robinson, Harriet L.

Subjects

*MEDICAL research, *IMMUNODEFICIENCY, *IMMUNOGLOBULINS, *DNA, *IMMUNOGENETICS, *GRANULOCYTES, *MACROPHAGES, *VACCINES

Abstract

A major challenge for human immunodeficiency virus (HIV)/AIDS vaccines is the elicitation of anti-Env antibodies (Ab) capable of neutralizing the diversity of isolates in the pandemic. Here, we show that high-avidity, but nonneutralizing, Abs can have an inverse correlation with peak postchallenge viremia for a heterologous challenge. Vaccine studies were conducted in rhesus macaques using DNA priming followed by modified vaccinia Ankara boosting with HIV type 1 (HIV-1) immunogens that express virus-like particles displaying CCR5-tropic clade B (strain ADA) or clade C (IN98012) Envs. Rhesus granulocyte-macrophage colony-stimulating factor was used as an adjuvant for enhancing the avidity of anti-Env Ab responses. Challenge was with simian/human immunodeficiency virus (SHIV)-162P3, a CCR5-tropic clade B chimera of SIV and HIV-1. Within the groups receiving the clade B vaccine, a strong inverse correlation was found between the avidity of anti-Env Abs and peak postchallenge viremia. This correlation required the use of native but not gp120 or gp140 forms of Env for avidity assays. The high-avidity Ab elicited by the ADA Env had excellent breadth for the Envs of incident clade B but not clade C isolates, whereas the high-avidity Ab elicited by the IN98012 Env had excellent breadth for incident clade C but not clade B isolates. High-avidity Ab elicited by a SHIV vaccine with a dual-tropic clade B Env (89.6) had limited breadth for incident isolates. Our results suggest that certain Envs can elicit nonneutralizing but high-avidity Ab with broad potential for blunting incident infections of the same clade. [ABSTRACT FROM AUTHOR]

Published

2009

31. GM-CSF DNA: An adjuvant for higher avidity IgG, rectal IgA, and increased protection against the acute phase of a SHIV-89.6P challenge by a DNA/MVA immunodeficiency virus vaccine

Author

Lai, Lilin, Vödrös, Dalma, Kozlowski, Pamela A., Montefiori, David C., Wilson, Robert L., Akerstrom, Vicki L., Chennareddi, Lakshmi, Yu, Tianwei, Kannanganat, Sunil, Ofielu, Lazarus, Villinger, Francois, Wyatt, Linda S., Moss, Bernard, Amara, Rama Rao, and Robinson, Harriet L.

Subjects

*VACCINATION, *DNA, *IMMUNODEFICIENCY, *VACCINIA

Abstract

Abstract: Single intradermal or intramuscular inoculations of GM-CSF DNA with the DNA prime for a simian–human immunodeficiency virus (SHIV)-89.6 vaccine, which consists of DNA priming followed by modified vaccinia Ankara (MVA) boosting, increased protection of both the blood and intestines against the acute phase of an intrarectal SHIV-89.6P challenge. GM-CSF appeared to contribute to protection by enhancing two antibody responses: the avidity maturation of anti-Env IgG in blood (p =<0.01) and the presence of long lasting anti-viral IgA in rectal secretions (p <0.01). The avidity of anti-Env IgG showed strong correlations with protection both pre and post challenge. Animals with the highest avidity anti-Env Ab had 1000-fold reductions in peak viremia over those with the lowest avidity anti-Env Ab. The enhanced IgA response was associated with the best protection, but did not achieve significance. [Copyright &y& Elsevier]

Published

2007

32. DNA/MVA HIV-1/AIDS vaccine elicits long-lived vaccinia virus-specific immunity and confers protection against a lethal monkeypox challenge

Author

Nigam, Pragati, Earl, Patricia L., Americo, Jeffrey L., Sharma, Sunita, Wyatt, Linda S., Edghill-Spano, Yvette, Chennareddi, Lakshmi S., Silvera, Peter, Moss, Bernard, Robinson, Harriet L., and Amara, Rama Rao

Subjects

*HIV, *AIDS prevention, *VIRUS diseases in cattle, *SMALLPOX

Abstract

Abstract: Modified vaccinia Ankara (MVA) is being tested in humans as an alternative to the current smallpox vaccine Dryvax. Here, we compare the magnitude and longevity of protective immune responses elicited by a DNA/MVA HIV-1 vaccine with those elicited by Dryvax using a monkeypox virus/macaque model. The DNA/MVA vaccine elicited similar levels of vaccinia virus (VV)-specific antibody and 5–10-fold lower levels of VV-specific cellular responses than Dryvax. This MVA-elicited cellular and humoral immunity was long-lived. A subset of the DNA/MVA- and Dryvax-vaccinated macaques were subjected to a lethal monkeypox virus challenge at 3 years after vaccination. All of the vaccinated monkeys survived, whereas the unvaccinated controls succumbed to monkeypox. The viral control correlated with early postchallenge levels of monkeypox-specific neutralizing antibody but not with VV-specific cellular immune response. Thus, our results demonstrate the elicitation of long lasting protective immunity for a lethal monkeypox challenge by a DNA/MVA HIV-1 vaccine. [Copyright &y& Elsevier]

Published

2007

33. Dose–response studies for the elicitation of CD8 T cells by a DNA vaccine, used alone or as the prime for a modified vaccinia Ankara boost

Author

Liu, Jinyan, Hellerstein, Michael, McDonnel, Michael, Amara, Rama Rao, Wyatt, Linda S., Moss, Bernard, and Robinson, Harriet L.

Subjects

*T cells, *DNA vaccines, *VACCINIA, *HIV

Abstract

Abstract: Here, we conduct dose–response studies in mice for the elicitation of CD8 T cells by a DNA vaccine that expresses HIV Gag. For DNA doses ranging from 1 to 100μg, the studies revealed greater than 10-fold increases in anti-Gag CD8 T cells following a DNA prime or a DNA prime and a constant modified vaccinia Ankara (MVA) boost. These results are in contrast to dose–response studies for MVA vectors expressing Gag, where only 2–3-fold increases in anti-Gag CD8 T cells were elicited by 100-fold increases in dose. [Copyright &y& Elsevier]

Published

2007

34. Studies on GM-CSF DNA as an adjuvant for neutralizing Ab elicited by a DNA/MVA immunodeficiency virus vaccine

Author

Robinson, Harriet L., Montefiori, David C., Villinger, Francois, Robinson, James E., Sharma, Sunita, Wyatt, Linda S., Earl, Patricia L., McClure, Harold M., Moss, Bernard, and Amara, Rama Rao

Subjects

*DNA, *NUCLEIC acids, *VACCINATION, *VIRUSES

Abstract

Abstract: Here, we use a vaccine consisting of DNA priming followed by MVA boosting in rhesus macaques to investigate the ability of GM-CSF DNA to serve as an adjuvant for the elicitation of neutralizing Ab against an HIV-1 Env. The trial used Gag, Pol, and Env sequences from SHIV-89.6 in the immunogens and a neutralization escape variant of SHIV-89.6, SHIV-89.6P, for challenge. Co-delivery of GM-CSF and vaccine DNAs enhanced the temporal appearance of neutralizing Ab and broadened the specificity of the neutralizing activity to include SHIV-89.6P. Two long-term SHIV-89.6 infections elicited neutralizing activity for SHIV-89.6 but not SHIV-89.6P. Studies on the avidity of the anti-Env antisera revealed that the GM-CSF-adjuvanted vaccine had elicited higher avidity Ab than the non-adjuvanted vaccine or the infection. The GM-CSF-adjuvanted group showed a trend towards better control of the challenge infection and had better control of re-emergent virus (P < 0.01) than the non-adjuvanted group. [Copyright &y& Elsevier]

Published

2006

35. Signature for Long-Term Vaccine-Mediated Control of a Simian and Human Immunodeficiency Virus 89.6P Challenge: Stable Low-Breadth and Low-Frequency T-Cell Response Capable of Coproducing Gamma Interferon and Interleukin-2.

Author

Sadagopal, Shanmugalakshmi, Amara, Rama Rao, Montefiori, David C., Wyatt, Linda S., Staprans, Silvija I., Kozyr, Natalia L., Mcclure, Harold M., Moss, Bernard, and Robinson, Harriet L.

Subjects

*HIV, *SIMIAN viruses, *VIRUS diseases, *MEDICAL virology

Abstract

In 2001, we reported 20 weeks of control of challenge with the virulent 89.6P chimera of simian and human immunodeficiency viruses (SHIV-89.6P) by a Gag-Pol-Env vaccine consisting of DNA priming and modified vaccinia virus Ankara boosting. Here we report that 22 out of 23 of these animals successfully controlled their viremia until their time of euthanasia at 200 weeks postchallenge. At euthanasia, all animals had low to undetectable viral loads and normal CD4 counts. During the long period of viral control, gamma interferon (IFN-γ)-producing antiviral T cells were present at unexpectedly low breadths and frequencies. Most animals recognized two CD8 and one CD4 epitope and had frequencies of IFN-γ-responding T cells from 0.01 to 0.3% of total CD8 or CD4 T cells. T-cell responses were remarkably stable over time and, unlike responses in most immunodeficiency virus infections, maintained good functional characteristics, as evidenced by coproduction of IFN-γand interleukin.2. Overall, high titers of binding and neutralizing antibody persisted throughout the postchallenge period. Encouragingly, long-term control was effective in macaques of diverse histocompatibility types. [ABSTRACT FROM AUTHOR]

Published

2005

36. Shared modes of protection against poxvirus infection by attenuated and conventional smallpox vaccine viruses.

Author

Belyakov, Igor M., Earl, Patricia, Dzutsev, Amiran, Kuznetsov, Vladimir A., Lemon, Michael, Wyatt, Linda S., Snyder, James T., Ahlers, Jeffrey D., Franchini, Genoveffa, Moss, Bernard, and Berzofsky, Jay A.

Subjects

*POXVIRUS diseases, *SMALLPOX vaccines, *VACCINATION

Abstract

The concern about bioterrorism with smallpox has raised the possibility of widespread vaccination, but the greater prevalence of immunocompromised individuals today requires a safer vaccine, and the mechanisms of protection are not well understood. Here we show that, at sufficient doses, the protection provided by both modified vaccinia Ankara and NYVAC replication-deficient vaccinia viruses, safe in immunocompromised animals, was equivalent to that of the licensed Wyeth vaccine strain against a pathogenic vaccinia virus intranasal challenge of mice. A similar variety and pattern of immune responses were involved in protection induced by modified vaccinia Ankara and Wyeth viruses. For both, antibody was essential to protect against disease, whereas neither effector CD4[sup +] nor CD8[sup +] T cells were necessary or sufficient. However, in the absence of antibody, T cells were necessary and sufficient for survival and recovery. Also, T cells played a greater role in control of sublethal infection in unimmunized animals. These properties, shared with the existing smallpox vaccine, provide a basis for further evaluation of these replication-deficient vaccinia viruses as safer vaccines against smallpox or against complications from vaccinia virus. [ABSTRACT FROM AUTHOR]

Published

2003

37. Control of a mucosal challenge and prevention of AIDS by a multiprotein DNA/MVA vaccine

Author

Amara, Rama Rao, Villinger, Francois, Altman, John D., Lydy, Shari L., O’Neil, Shawn P., Staprans, Silvija I., Montefiori, David C., Xu, Yan, Herndon, James G., Wyatt, Linda S., Candido, Maria Angelito, Kozyr, Natalia L., Earl, Patricia L., Smith, James M., Ma, Hak-Ling, Grimm, Bennett D., Hulsey, Michael L., McClure, Harold M., McNicholl, Janet M., and Moss, Bernard

Subjects

*IMMUNE response, *AIDS vaccines

Abstract

Heterologous prime/boost regimens have the potential for raising high levels of immune responses. Here, we report that DNA priming followed by a recombinant modified vaccinia Ankara (rMVA) booster has controlled a highly pathogenic immunodeficiency virus challenge in a Rhesus macaque model. Both the DNA and rMVA components of the vaccine expressed multiple immunodeficiency virus proteins. Two DNA inoculations at 0 and 8 weeks and a single rMVA booster at 24 weeks effectively controlled an intrarectal challenge administered 7 months after the booster. These highly promising findings provide hope that a relatively simple multiprotein DNA/MVA vaccine can help to control the AIDS epidemic. [Copyright &y& Elsevier]

Published

2002

38. Control of a Mucosal Challenge and Prevention of AIDS by a Multiprotein DNA/MVA Vaccine.

Author

Amara, Rama Rao, Villinger, Francois, Altman, John D., Lydy, Shari L., O'Neil, Shawn P., Staprans, Silvija I., Montefiori, David C., Yan Xu, Herndon, James G., Wyatt, Linda S., and Candido, Maria Angelito

Subjects

*AIDS vaccines, *DNA vaccines

Abstract

Examines the control of a mucosal challenge and prevention of acquired immune deficiency syndrome by a multiprotein deoxyribonucleic acid vaccine. Enhancement of cellular immunity by cytokine augmentation; Demonstration of T cell proliferative responses; Lymph node histomorphology at 12 weeks after vaccination.

Published

2001

39. Comparison of the Immunogenicity and Efficacy of a Replication-Defective Vaccinia Virus...

Author

Durbin, Anna P., Cho, Chris J., Elkins, William R., Wyatt, Linda S., Moss, Bernard, and Murphy, Brian R.

Subjects

*VACCINIA, *PARAINFLUENZA viruses, *RHESUS monkeys, *IMMUNOLOGY, *VACCINATION

Abstract

Compares the immunogenicity and efficacy of a replication-defective vaccinia virus expressing antigens of human parainfluenza virus type 3 (HPIV3) with those of a live attenuated HPIV3 vaccine candidate in Rhesus monkeys passively immunized with PIV3 antibodies. Serum and nasal wash antibody responses to immunization with PIV3 vaccines.

Published

1999

40. Recombinant modified vaccinia virus Ankara-simian immunodeficiency virus gag pol...

Author

Seth, Aruna, Ourmanov, Ilnour, Kuroda, Marcelo J., Schmitz, Jörn E., Carroll, Miles W., Wyatt, Linda S., Moss, Bernard, Forman, Meryl A., Hirsch, Vanessa M., and Letvin, Norman L.

Subjects

*AIDS, *RHESUS monkeys, *T cells, *DISEASES

Abstract

Presents information on a study conducted which showed that modified vaccinia virus Ankara (MVA) has the ability to elicit AIDS cytotoxic T lymphocytes (CTL)(Acquired Immune Deficiency Syndrome) in rhesus monkeys. Demonstration of the vaccine induction of a CTL response specific for a dominant SIVSM Gag epitope; Methodology used in the study; Details on the immunization of rhesis monkeys; Results of the study.

Published

1998

41. 140 Induction of Efficacious Immune Responses Using Heterologous Prime: Boost Regimens of Recombinant DNA and MVA Vectored HIV Vaccines and GM-CSF as the Adjuvant.

Author

Newman, Mark J, Robinson, Harriet L, Lai, Lilin, Chennareddi, Lakshmi, Kwa, Suefen, Villinger, Francois, Montefiori, David, Kozlowski, Pamela, Wyatt, Linda S, Earl, Patricia, Moss, Bernard, and Amara, Rama Rao

Published

2011