Targeting ofAdenovirus via Genetic Modification of the Viral Capsid Combined with aProteinBridge

Author:

Korokhov Nikolay1,Mikheeva Galina1,Krendelshchikov Alexander1,Belousova Natalya2,Simonenko Vera2,Krendelshchikova Valentina2,Pereboev Alexander2,Kotov Alexander3,Kotova Olga3,Triozzi Pierre L.4,Aldrich Wayne A.4,Douglas Joanne T.2,Lo Kin-Ming5,Banerjee Papia T.5,Gillies Stephen D.5,Curiel David T.2,Krasnykh Victor12

Affiliation:

1. VectorLogics, Inc.

2. Division of Human Gene Therapy, Departments of Medicine, Pathology, and Surgery, and Gene Therapy Center

3. Vector and Vaccine Production Facility at the Comprehensive Cancer Center

4. Division of Hematology-Oncology, University of Alabama at Birmingham, Alabama 35294

5. EMD Lexigen Research Center Corporation, Billerica, Massachusetts 01821

Abstract

ABSTRACT A potential barrier to the development of genetically targeted adenovirus (Ad) vectors for cell-specific delivery of gene therapeutics lies in the fact that several types of targeting protein ligands require posttranslational modifications, such as the formation of disulfide bonds, which are not available to Ad capsid proteins due to their nuclear localization during assembly of the virion. To overcome this problem, we developed a new targeting strategy, which combines genetic modifications of the Ad capsid with a protein bridge approach, resulting in a vector-ligand targeting complex. The components of the complex associate by virtue of genetic modifications to both the Ad capsid and the targeting ligand. One component of this mechanism of association, the Fc-binding domain of Staphylococcus aureus protein A, is genetically incorporated into the Ad fiber protein. The ligand is comprised of a targeting component fused with the Fc domain of immunoglobulin, which serves as a docking moiety to bind to these genetically modified fibers during the formation of the Ad-ligand complex. The modular design of the ligand solves the problem of structural and biosynthetic compatibility with the Ad and thus facilitates targeting of the vector to a variety of cellular receptors. Our study shows that targeting ligands incorporating the Fc domain and either an anti-CD40 single-chain antibody or CD40L form stable complexes with protein A-modified Ad vectors, resulting in significant augmentation of gene delivery to CD40-positive target cells. Since this gene transfer is independent of the expression of the native Ad5 receptor by the target cells, this strategy results in the derivation of truly targeted Ad vectors suitable for tissue-specific gene therapy.

Publisher

American Society for Microbiology

Subject

Virology,Insect Science,Immunology,Microbiology

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