Peter W. Roelvink scite author profile

The human adenovirus serotype 5 (Ad5) is used widely for applications in human gene therapy. Cellular attachment of Ad5 is mediated by binding of the carboxyl-terminal knob of its fiber coat protein to the Coxsackie adenovirus receptor (CAR) protein. However, Ad5 binding to CAR hampers the development of adenovirus vectors capable of specifically targeting (diseased) tissues or organs. Through sequence analysis and mutagenesis, a conserved receptor-binding region was identified on the side of three divergent CAR-binding knobs. The feasibility of simultaneous CAR ablation and redirection of an adenovirus to a new receptor is demonstrated.

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Adenovirus targeted to heparan-containing receptors increases its gene delivery efficiency to multiple cell types

Wickham

et al. 1996

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Adenovirus (Ad) is used as a vector for gene delivery in therapies involving genetic disease, vascular disease, and cancer. The first step for efficient gene transfer is effective virus binding to the target cells. We have found that Ad-mediated gene delivery to multiple cell types is much less efficient compared to epithelial-derived cells. Low gene delivery to nonepithelial cell types was directly correlated to a deficiency of the cellular receptor which mediates Ad binding. To overcome this inefficiency we constructed a new virus, AdPK, that contains a heparin-binding domain that targets the virus to broadly expressed, heparan-containing cellular receptors. AdPK delivers genes to multiple cell types at markedly higher efficiencies than unmodified Ad. Viruses with enhanced attachment characteristics significantly improve gene transfer efficiency and may expand the tissues amenable to efficient Ad-mediated gene therapy.

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The Coxsackievirus-Adenovirus Receptor Protein Can Function as a Cellular Attachment Protein for Adenovirus Serotypes from Subgroups A, C, D, E, and F

Roelvink

Lizonova

Lee

et al. 1998

J Virol

542

191

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Attachment of an adenovirus (Ad) to a cell is mediated by the capsid fiber protein. To date, only the cellular fiber receptor for subgroup C serotypes 2 and 5, the so-called coxsackievirus-adenovirus receptor (CAR) protein, has been identified and cloned. Previous data suggested that the fiber of the subgroup D serotype Ad9 also recognizes CAR, since Ad9 and Ad2 fiber knobs cross-blocked each other’s cellular binding. Recombinant fiber knobs and3H-labeled Ad virions from serotypes representing all six subgroups (A to F) were used to determine whether the knobs cross-blocked the binding of virions from different subgroups. With the exception of subgroup B, all subgroup representatives cross-competed, suggesting that they use CAR as a cellular fiber receptor as well. This result was confirmed by showing that CAR, produced in a soluble recombinant form (sCAR), bound to nitrocellulose-immobilized virions from the different subgroups except subgroup B. Similar results were found for blotted fiber knob proteins. The subgroup F virus Ad41 has both short and long fibers, but only the long fiber bound sCAR. The sCAR protein blocked the attachment of all virus serotypes that bound CAR. Moreover, CHO cells expressing human CAR, in contrast to untransformed CHO cells, all specifically bound the sCAR-binding serotypes. We conclude therefore that Ad serotypes from subgroups A, C, D, E, and F all use CAR as a cellular fiber receptor.

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Reducing the Native Tropism of Adenovirus Vectors Requires Removal of both CAR and Integrin Interactions

Einfeld

Schroeder

Roelvink

et al. 2001

J Virol

197

151

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The development of tissue-selective virus-based vectors requires a better understanding of the role of receptors in gene transfer in vivo, both to rid the vectors of their native tropism and to introduce new specificity. CAR and ␣v integrins have been identified as the primary cell surface components that interact with adenovirus type 5 (Ad5)-based vectors during in vitro transduction. We have constructed a set of four vectors, which individually retain the wild-type cell interactions, lack CAR binding, lack ␣v integrin binding, or lack both CAR and ␣v integrin binding. These vectors have been used to examine the roles of CAR and ␣v integrin in determining the tropism of Ad vectors in a mouse model following intrajugular or intramuscular injection. CAR was found to play a significant role in liver transduction. The absence of CAR binding alone, however, had little effect on the low level of expression from Ad in other tissues. Binding of ␣v integrins appeared to have more influence than did binding of CAR in promoting the expression in these tissues and was also found to be important in liver transduction by Ad vectors. An effect of the penton base modification was a reduction in the number of vector genomes that could be detected in several tissues. In the liver, where CAR binding is important, combining defects in CAR and ␣v integrin binding was essential to effectively reduce the high level of expression from Ad vectors. While there may be differences in Ad vector tropism among species, our results indicate that both CAR and ␣v integrins can impact vector distribution in vivo. Disruption of both CAR and ␣v integrin interactions may be critical for effectively reducing native tropism and enhancing the efficacy of specific targeting ligands in redirecting Ad vectors to target tissues.

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CAR-dependent and CAR-independent pathways of adenovirus vector–mediated gene transfer and expression in human fibroblasts

Hidaka¹,

Milano²,

Leopold³

et al. 1999

J. Clin. Invest.

189

138

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Identification of Contact Residues and Definition of the CAR-Binding Site of Adenovirus Type 5 Fiber Protein

Kirby

Davison

Beavil

et al. 2000

J Virol

155

139

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Enhancin, the Granulosis Virus Protein That Facilitates Nucleopolyhedrovirus (NPV) Infections, Is a Metalloprotease

Lepore

Roelvink

Granados

1996

Journal of Invertebrate Pathology

136

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Protection against P. aeruginosa with an adenovirus vector containing an OprF epitope in the capsid

Worgall¹,

Krause²,

Rivara³

et al. 2005

J. Clin. Invest.

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Pseudomonas aeruginosa is an important opportunistic pathogen that can cause chronic and often life-threatening infections of the respiratory tract, particularly in individuals with cystic fibrosis (CF). Because infections with P. aeruginosa remain the major cause of the high morbidity and mortality of CF, a vaccine against P. aeruginosa would be very useful for preventing this disorder. The outer membrane protein F (OprF) of P. aeruginosa is a promising vaccine candidate and various B cell epitopes within OprF have been identified. Given that adenovirus (Ad) vectors have strong immunogenic potential and can function as adjuvants for genetic vaccines, the present study evaluates the immunogenic and protective properties of a novel replication-deficient Ad vector in which the Ad hexon protein was modified to include a 14-amino acid epitope of P. aeruginosa OprF (Epi8) in loop 1 of the hypervariable region 5 of the hexon (AdZ.Epi8). Immunization of C57BL/6 mice with AdZ.Epi8 resulted in detectable serum anti-P. aeruginosa and anti-OprF humoral responses. These responses were haplotype dependent, with higher serum anti-OprF titers in CBA mice than in BALB/c or C57BL/6 mice. AdZ.Epi8 induced Epi8-specific IFN-γ-positive CD4 and CD8 T cell responses and resulted in protection against a lethal pulmonary challenge with agar-encapsulated P. aeruginosa. Importantly, repeated administration of AdZ.Epi8 resulted in boosting of the anti-OprF humoral and anti-Epi8 cellular response, whereas no boosting effect was present in the response against the transgene β-galactosidase. These observations suggest that Ad vectors expressing pathogen epitopes in their capsid will protect against an extracellular pathogen and will allow boosting of the epitope-specific humoral response with repeated administration, a strategy that should prove useful in developing Ad vectors as vaccines where humoral immunity will be protective.

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Peter W. Roelvink

Identification of a Conserved Receptor-Binding Site on the Fiber Proteins of CAR-Recognizing Adenoviridae

Adenovirus targeted to heparan-containing receptors increases its gene delivery efficiency to multiple cell types

The Coxsackievirus-Adenovirus Receptor Protein Can Function as a Cellular Attachment Protein for Adenovirus Serotypes from Subgroups A, C, D, E, and F

Reducing the Native Tropism of Adenovirus Vectors Requires Removal of both CAR and Integrin Interactions

CAR-dependent and CAR-independent pathways of adenovirus vector–mediated gene transfer and expression in human fibroblasts

Identification of Contact Residues and Definition of the CAR-Binding Site of Adenovirus Type 5 Fiber Protein

Enhancin, the Granulosis Virus Protein That Facilitates Nucleopolyhedrovirus (NPV) Infections, Is a Metalloprotease

Protection against P. aeruginosa with an adenovirus vector containing an OprF epitope in the capsid

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