Your search keyword '"Ketner, Gary"' showing total 12 results

1. Viable Adenovirus Vaccine Prototypes: High-Level Production of a Papillomavirus Capsid Antigen from the Major Late Transcriptional Unit

Author

Berg, Michael, DiFatta, Julie, Hoiczyk, Egbert, Schlegel, Richard, Ketner, Gary, and Griffin, Diane E.

Published

2005

2. Efficient Manipulation of the Human Adenovirus Genome as an Infectious Yeast Artificial Chromosome Clone

Author

Ketner, Gary, Spencer, Forrest, Tugendreich, Stuart, Connelly, Carla, and Hieter, Philip

Published

1994

3. Capsid display of a conserved human papillomavirus L2 peptide in the adenovirus 5 hexon protein: a candidate prophylactic hpv vaccine approach.

Author

Wai-Hong Wu, Alkutkar, Tanwee, Karanam, Balasubramanyan, Roden, Richard B. S., Ketner, Gary, and Ibeanu, Okechukwu A.

Subjects

HUMAN papillomavirus vaccines, VIRAL vaccines, EPITOPES, CAPSIDS, VIRAL proteins, VIRUS-like particles, ADENOVIRUSES, AMINO acids

Abstract

Background: Infection by any one of 15 high risk human papillomavirus (hrHPV) types causes most invasive cervical cancers. Their oncogenic genome is encapsidated by L1 (major) and L2 (minor) coat proteins. Current HPV prophylactic vaccines are composed of L1 virus-like particles (VLP) that elicit type restricted immunity. An N-terminal region of L2 protein identified by neutralizing monoclonal antibodies comprises a protective epitope conserved among HPV types, but it is weakly immunogenic compared to L1 VLP. The major antigenic capsid protein of adenovirus type 5 (Ad5) is hexon which contains 9 hypervariable regions (HVRs) that form the immunodominant neutralizing epitopes. Insertion of weakly antigenic foreign B cell epitopes into these HVRs has shown promise in eliciting robust neutralizing antibody responses. Thus here we sought to generate a broadly protective prophylactic HPV vaccine candidate by inserting a conserved protective L2 epitope into the Ad5 hexon protein for VLP-like display. Methods: Four recombinant adenoviruses were generated without significant compromise of viral replication by introduction of HPV16 amino acids L2 12-41 into Ad5 hexon, either by insertion into, or substitution of, either hexon HVR1 or HVR5. Results: Vaccination of mice three times with each of these L2-recombinant adenoviruses induced similarly robust adenovirus-specific serum antibody but weak titers against L2. These L2-specific responses were enhanced by vaccination in the presence of alum and monophoryl lipid A adjuvant. Sera obtained after the third immunization exhibited low neutralizing antibody titers against HPV16 and HPV73. L2-recombinant adenovirus vaccination without adjuvant provided partial protection of mice against HPV16 challenge to either the vagina or skin. In contrast, vaccination with each L2-recombinant adenovirus formulated in adjuvant provided robust protection against vaginal challenge with HPV16, but not against HPV56. Conclusion: We conclude that introduction of HPV16 L2 12-41 epitope into Ad5 hexon HVR1 or HVR5 is a feasible method of generating a protective HPV vaccine, but further optimization is required to strengthen the L2-specific response and broaden protection to the more diverse hrHPV. [ABSTRACT FROM AUTHOR]

Published

2015

4. Adenovirus E4orf6 assembles with Cullin5-ElonginB-ElonginC E3 ubiquitin ligase through an HIV/SIV Vif-like BC-box to regulate p53.

Author

Kun Luo, Ehrlich, Elana, Zuoxiang Xiao, Wenyan Zhang, Ketner, Gary, and Xiao-Fang Yu

Subjects

VIRAL proteins, ADENOVIRUSES, GENETIC regulation, P53 antioncogene, UBIQUITIN, LIGASES, GENE silencing

Abstract

The adenovirus protein E4orf6 targets p53 for polyubiquitination and proteasomal degradation and is known to form a complex with the Cul5-ElonginB-ElonginC E3 ubiquitin ligase. However, whether Cul5 is directly responsible for the E4orf6-mediated degradation of p53 remains unclear. By using a dominant-negative mutant of CUl5 and silencing Cul5 expression through RNA interference, we have now demonstrated that E4orf6-mediated p53 degradation requires CUl5. Furthermore, we have identified a lenti-viral Vif-like BC-box motif in E4orf6 that is highly conserved among adenoviruses from multiple species. More importantly, we have shown that this Vif-like BC-box is essential for the recruitment of Cul5-ElonginB-ElonginC E3 ubiquitin ligase by E4orf6 and is also required for E4orf6-mediated p53 degradation. E4orf6 selectively recruited Cul5 despite the lack of either a Cul5-box, which is used by cellular substrate receptors to recruit Cul5, or a newly identified HCCH zinc-binding motif, which is used by primate lentiviral Vif to recruit Cul5. Therefore, adenovirus E4orf6 molecules represent a novel family of viral BC-box proteins the cellular ancestor of which is as yet unknown. [ABSTRACT FROM AUTHOR]

Published

2007

5. Both BC-Box Motifs of Adenovirus Protein E4orf6 Are Required To Efficiently Assemble an E3 Ligase Complex That Degrades p53.

Author

Blanchette, Paola, Chi Ying Cheng, Qin Yan, Ketner, Gary, Ornelles, David A., Dobner, Thomas, Conaway, Ronald C., Conaway, Joan Weliky, and Branton, Philip E.

Subjects

VIRAL proteins, ADENOVIRUSES, P53 protein, TUMOR suppressor proteins, UBIQUITIN, CYTOLOGICAL research, MOLECULAR biology

Abstract

Small DNA tumor viruses typically encode proteins that either inactivate or degrade p53. Human adenoviruses encode products, including E4orf6 and E1B55K, that do both. Each independently binds to p53 and inhibits its ability to activate gene expression; however, in combination they induce p53 degradation by the ubiquitin pathway. We have shown previously that p53 degradation relies on interactions of E4orf6 with the cellular proteins Cu15, Rbx1, and elongins B and C to form an E3 ligase similar to the SCF and VBC complexes. Here we show that, like other elongin BC-interacting proteins, including elongin A, von Hippel-Lindau protein, and Muf1, the interaction of E4orf6 is mediated by the BC-box motif; however, E4orf6 uniquely utilizes two BC-box motifs for degradation of p53 and another target, Mre11. In addition, our data suggest that the interaction of E1B55K with E4orf6 depends on the ability of E4orf6 to form the E3 ligase complex and that such complex formation may be required for all E4orf6-E1B55K functions. [ABSTRACT FROM AUTHOR]

Published

2004

6. The adenovirus E4 11k protein binds and relocalizes the cytoplasmic P-body component Ddx6 to aggresomes

Author

Greer, Amy E., Hearing, Patrick, and Ketner, Gary

Subjects

*ADENOVIRUSES, *CELL nuclei, *VIRAL proteins, *HOST-virus relationships, *GENE expression, *VIRAL genetics, *MESSENGER RNA

Abstract

Abstract: The adenovirus E4 11k protein, product of E4 ORF3, is required in infection for processes including normal accumulation of viral late mRNAs. 11k restructures both the nucleus and cytoplasm of infected cells by relocalizing specific host cell target proteins, most strikingly components of nuclear PML oncogenic domains. It is likely that in many cases relocalization inactivates target proteins to produce 11k''s effects, although the mechanism and targets for stimulation of late mRNA accumulation is unknown. We have identified a new set of proteins relocalized by 11k: at least five protein components of cytoplasmic mRNA processing bodies (p-bodies) are found in 11k-induced cytoplasmic aggresomes, sites where proteins are inactivated or destroyed. One of these p-body proteins, RNA helicase Ddx6, binds 11k, suggesting a mechanism for relocalization. Because p-bodies are sites for mRNA degradation, their modification by 11k may provide an explanation for the role of 11k in viral late mRNA accumulation. [Copyright &y& Elsevier]

Published

2011

7. The α2 helix in the DNA ligase IV BRCT-1 domain is required for targeted degradation of ligase IV during adenovirus infection

Author

Gilson, Timra, Greer, Amy E., Vindigni, Alessandro, Ketner, Gary, and Hanakahi, Leslyn A.

Subjects

*DNA ligases, *ADENOVIRUSES, *PROTEINS, *UBIQUITIN ligases, *GENES, *NUCLEIC acids

Abstract

Abstract: In adenovirus E4 mutant infections, viral DNAs form concatemers through a process that requires host Non-homologous End Joining (NHEJ) proteins including DNA Ligase IV (LigIV). Adenovirus proteins E4 34k and E1b 55k form the substrate-selection component of an E3 ubiquitin ligase and prevent concatenation by targeting LigIV for proteasomal degradation. The mechanisms and sites involved in targeting this and other E3 ligase substrates generally are poorly-understood. Through genetic analysis, we identified the α2 helix of one LigIV BRCT domain (BRCT-1) as essential for adenovirus-mediated degradation. Replacement of the BRCT domain of DNA ligase III (LigIII), which is resistant to degradation, with LigIV BRCT-1 does not promote degradation. A humanized mouse LigIV that possesses a BRCT-1 α2 helix identical to the human protein, like its parent, is also resistant to adenovirus-mediated degradation. Thus, both the BRCT-1 α2 helix and an element outside BRCT-1 are required for adenovirus-mediated degradation of LigIV. [Copyright &y& Elsevier]

Published

2012

8. Adenovirus particles that display the Plasmodium falciparum circumsporozoite protein NANP repeat induce sporozoite-neutralizing antibodies in mice

Author

Palma, Christopher, Overstreet, Michael G., Guedon, Jean-Marc, Hoiczyk, Egbert, Ward, Cameron, Karen, Kasey A., Zavala, Fidel, and Ketner, Gary

Subjects

*ADENOVIRUSES, *PLASMODIUM falciparum, *IMMUNOGLOBULINS, *PEPTIDES, *VIRAL proteins, *IMMUNITY, *RECOMBINANT viruses, *VIRAL replication, *LABORATORY mice

Abstract

Abstract: Adenovirus particles can be engineered to display exogenous peptides on their surfaces by modification of viral capsid proteins, and particles that display pathogen-derived peptides can induce protective immunity. We constructed viable recombinant adenoviruses that display B-cell epitopes from the Plasmodium falciparum circumsporozoite protein (PfCSP) in the major adenovirus capsid protein, hexon. Recombinants induced high-titer antibodies against CSP when injected intraperitoneally into mice. Serum obtained from immunized mice recognized both recombinant PfCSP protein and P. falciparum sporozoites, and neutralized P. falciparum sporozoites in vitro. Replicating adenovirus vaccines have provided economical protection against adenovirus disease for over three decades. The recombinants described here may provide a path to an affordable malaria vaccine in the developing world. [Copyright &y& Elsevier]

Published

2011

9. E1B 55k-independent dissociation of the DNA ligase IV/XRCC4 complex by E4 34k during adenovirus infection

Author

Jayaram, Sumithra, Gilson, Timra, Ehrlich, Elana S., Yu, Xiao-Fang, Ketner, Gary, and Hanakahi, Les

Subjects

*DNA ligases, *ADENOVIRUS diseases, *VIRAL proteins, *MULTIENZYME complexes, *ADENOVIRUSES, *DISSOCIATION (Chemistry)

Abstract

Abstract: The ligase IV/XRCC4 complex plays a central role in DNA double-strand break repair by non-homologous end joining (NHEJ). During adenovirus infection, NHEJ is inhibited by viral proteins E4 34k and E1B 55k, which redirect the Cul5/Rbx1/Elongin BC ubiquitin E3 ligase to polyubiquitinate and promote degradation of ligase IV. In cells infected with E1B 55k-deficient adenovirus, ligase IV could not be found in XRCC4-containing complexes and was observed in a novel ligase IV/E4 34k/Cul5/Elongin BC complex. These observations suggest that dissociation of the ligase IV/XRCC4 complex occurs at an early stage in E4 34k-mediated degradation of ligase IV and indicate a role for E4 34k in dissociation of the ligase IV/XRCCC4 complex. Expression of E4 34k alone was not sufficient to dissociate the ligase IV/XRCC4 complex, which indicates a requirement for an additional, as yet unidentified, factor in E1B 55k-independent dissociation of the ligase IV/XRCC4 complex. [Copyright &y& Elsevier]

Published

2008

10. Androgen Receptor Attenuation of Ad5 Replication: Implications for the Development of Conditionally Replication Competent Adenoviruses.

Author

Höti, Naseruddin, Ying Li, Chien-Lun Chen, Chowdhury, Wasim H., Johns, David C., Qinghua Xia, Kabul, Arup, Jer-Tsong Hsieh, Berg, Michael, Ketner, Gary, Lupold, Shawn E., and Rodriguez, Ronald

Subjects

*GENE therapy, *VIRAL replication, *PROSTATE cancer, *ANDROGENS, *ADENOVIRUSES

Abstract

Conditionally replication competent adenoviruses (CRAds) represent one of the most intensely studied gene therapy strategies for a variety of malignancies, including prostate cancer. These viruses can be generated by placing a tissue or cancer-specific promoter upstream of one or more of the viral genes required for replication (e.g., E1A, E1B). We report here that E1A inhibits androgen receptor (AR) target gene induction and, correspondingly, activated AR inhibits adenoviral replication. This mutual inhibition appears to be an indirect effect, possibly through competition for shared transcriptional co-activators. The net effect is that the oncolytic effect of prostate-specific CRAds is attenuated by these interactions. Fusion of the E1A to AR ameliorates this inhibition, while enhancing specificity. These findings have significant implications in the development of prostate-specific CRAd therapies.Molecular Therapy (2007) 15 8, 1495–1503. doi:10.1038/sj.mt.6300223 [ABSTRACT FROM AUTHOR]

Published

2007

11. The E4orf6/E1B55K E3 Ubiquitin Ligase Complexes of Human Adenoviruses Exhibit Heterogeneity in Composition and Substrate Specificity.

Author

Chi Ying Cheng, Gilson, Timra, Dallaire, Frédéric, Ketner, Gary, Branton, Philip E., and Blanchette, Paola

Subjects

*VIRAL replication, *ADENOVIRUSES, *DNA ligases, *UBIQUITIN, *GENETIC transformation, *GENE transfection, *SEROTYPES

Abstract

Although human adenovirus type 5 (Ad5) has been widely studied, relatively little work has been done with other human adenovirus serotypes. The Ad5 E4orf6 and E1B55K proteins form Cul5-based E3 ubiquitin ligase complexes to degrade p53, Mre11, DNA ligase IV, integrin α3, and almost certainly other targets, presumably to optimize the cellular environment for viral replication and perhaps to facilitate persistence or latency. As this complex is essential for the efficient replication of Ad5, we undertook a systematic analysis of the structure and function of corresponding E4orf6/E1B55K complexes from other serotypes to determine the importance of this E3 ligase throughout adenovirus evolution. E4orf6 and E1B55K coding sequences from serotypes representing all subgroups were cloned, and each pair was expressed and analyzed for their capacity to assemble the Cullin-based ligase complex and to degrade substrates following plasmid DNA transfection. The results indicated that all formed Cullin-based E3 ligase complexes but that heterogeneity in both structure and function existed. Whereas Cul5 was present in the complexes of some serotypes, others recruited primarily Cul2, and the Ad16 complex clearly bound both Cul2 and Cul5. There was also heterogeneity in substrate specificity. Whereas all serotypes tested appeared to degrade DNA ligase IV, complexes from some serotypes failed to degrade Mre11, p53, or integrin α3. Thus, a major evolutionary pressure for formation of the adenovirus ligase complex may lie in the degradation of DNA ligase IV; however, it seems possible that the degradation of as-yet-unidentified critical targets or, perhaps even more likely, appropriate combinations of substrates plays a central role for these adenoviruses. [ABSTRACT FROM AUTHOR]

Published

2011

12. Adenovirus E4 34k and E1b 55k Oncoproteins Target Host DNA Ligase IV for Proteasomal Degradation.

Author

Baker, Amy, Rohleder, Kent J., Hanakahi, Les A., and Ketner, Gary

Subjects

*ADENOVIRUSES, *DNA viruses, *PROTEINS, *DNA ligases, *LIGASES

Abstract

Cells infected by adenovirus E4 mutants accumulate end-to-end concatemers of the viral genome that are assembled from unit-length viral DNAs by nonhomologous end joining (NHEJ). Genome concatenation can be prevented by expression either of E4 11k (product of E4orf3) or of the complex of E4 34k (product of E4orf6) and E1b 55k. Both E4 11k and the E4 34k/E1b 55k complex prevent concatenation at least in part by inactivation of the host protein Mre11: E4 11k sequesters Mre11 in aggresomes, while the E4 34k/E1b 55k complex participates in a virus-specific E3 ubiquitin ligase that mediates ubiquitination and proteasomal degradation. The E4 34k/E1b 55k complex, but not E4 11k, also inhibits NHEJ activity on internal breaks in the viral genome and on V(D)J recombination substrate plasmids, suggesting that it may interfere with NHEJ independently of its effect on Mre11. We show here that DNA ligase IV, which performs the joining step of NHEJ, is degraded as a consequence of adenovirus infection. Degradation is dependent upon E4 34k and E1b 55k, functional proteasomes, and the activity of cellular cullin 5, a component of the adenoviral ubiquitin ligase. DNA ligase IV also interacts physically with E1b 55k. The data demonstrate that DNA ligase IV, like Mre11, is a substrate for the adenovirus-specific E3 ubiquitin ligase; identify an additional viral approach to prevention of genome concatenation; and provide a mechanism for the general inhibition of NHEJ by adenoviruses. [ABSTRACT FROM AUTHOR]

Published

2007