Abstract

The investigator writes that most applications of gene therapy will depend on prolonged expression and readministration of the transgene. Although design of viral vectors with extensive deletions of the genome has resulted in prolonged expression, this approach does not completely abrogate the immune response. It is their contention that a combined strategy that includes tolerization to the vectors, as well as low immunogenicity vectors, will be absolutely necessary for successful long-term gene therapy in humans. He proposes a tolerization strategy that will be applicable clinically and is supported by preliminary data indicating prolonged expression of the transgene and the absence of an immune response. The investigators have shown that antigen presenting cells expressing adenovirus/Fas ligand (Ad/Fas L) and antigen induces systemic tolerance to the Ad antigens without toxicity. Here, they will use APCs that express Fas ligand and have been infected with low-immunogenicity adenovirus-LacZ and other transgenes to induce systemic tolerance to the gene therapy.
In Aim 1, the investigators will determine if the mouse CD11b promoter can specifically up-regulate Fas L in APCs infected with adenovirus with extensive DNA deletions. Expression of Fas L specifically in macrophages using the CD11b promoter has been demonstrated after transient transfection and in transgenic mice.
In Aim II, they will determine if ex-vivo infected APC with adenovirus with extensive DNA deletions can be used to induce T-cell tolerance to adenovirus vector and transgene antigens. APCs will be infected ex-vivo and analyzed for tolerance induction in vivo. The tolerance to transgenes of low and high immunogenicity will be determined.
In Aim III, they will determine if survival of normal APCs will be prolonged using the Fas apoptoss inhibitor CrmA gene and a soluble TNF-receptor to enhance APC and adenovirus survival and tolerization after infection with adenovirus.
In Aim I V, the investigators will develop adenovirus with modified tropism to target Fas L expression to antigen presenting cells for in vivo tolerance induction. This will be accomplished by enhanced targeting to APC using the mannose receptor and by pre-infusion of Ad fiber knob protein to inhibit endogenous tropism of Ad/Fas L to the liver. These experiments should accomplish the objective of devising adenovirus-transgene tolerance methods that are safe and efficiently deliver Fas L to APCs, either by in vivo transfer with relatively high targeting to APCs or in vitro transfer into cells and then transfer of cells that express Fas L. Infection of APCs ex-vivo with Ad/FasL has now been demonstrated to be safe and feasible, and does not induce toxicity upon transfer of these macrophages in vivo. Dr. Mountz and his colleagues believe that the studies will provide a feasible and safe method to enable prolonged and repeated administration of gene therapy that will be required for successful treatment of human diseases.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI042900-03
Application #
6341708
Study Section
Medical Biochemistry Study Section (MEDB)
Program Officer
Beisel, Christopher E
Project Start
1999-01-01
Project End
2003-12-31
Budget Start
2001-01-01
Budget End
2001-12-31
Support Year
3
Fiscal Year
2001
Total Cost
$207,657
Indirect Cost

  Institution

Name
University of Alabama Birmingham
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
004514360
City
Birmingham
State
AL
Country
United States
Zip Code
35294

  Publications

Chen, Jian; Wang, John; Li, Jun et al. (2008) Enhancement of cytotoxic T-lymphocyte response in aged mice by a novel treatment with recombinant AdIL-12 and wild-type adenovirus in rapid succession. Mol Ther 16:1500-6
Chen, Jian; Wu, Qi; Yang, Pingar et al. (2006) Determination of specific CD4 and CD8 T cell epitopes after AAV2- and AAV8-hF.IX gene therapy. Mol Ther 13:260-9
Musani, Solomon K; Zhang, Huang-Ge; Hsu, Hui-Chen et al. (2006) Principal component analysis of quantitative trait loci for immune response to adenovirus in mice. Hereditas 143:189-97
Chen, Jian; Hsu, Hui-Chen; Zajac, Allan J et al. (2006) In vivo analysis of adenovirus-specific cytotoxic T lymphocyte response in mice deficient in CD28, fas ligand, and perforin. Hum Gene Ther 17:669-82
Chen, J; Zajac, A J; McPherson, S A et al. (2005) Primary adenovirus-specific cytotoxic T lymphocyte response occurs after viral clearance and liver enzyme elevation. Gene Ther 12:1079-88
Zhang, Huang-Ge; High, Katherine A; Wu, Qi et al. (2005) Genetic analysis of the antibody response to AAV2 and factor IX. Mol Ther 11:866-74
Xu, X; Zhang, H-G; Liu, Z-Y et al. (2004) Defective clearance of adenovirus in IRF-1 mice associated with defects in NK and T cells but not macrophages. Scand J Immunol 60:89-99
Zhang, H-G; Hsu, H-C; Yang, P-A et al. (2004) Identification of multiple genetic loci that regulate adenovirus gene therapy. Gene Ther 11:4-14
Zhang, Huang-Ge; Wang, Jianhua; Yang, Xinwen et al. (2004) Regulation of apoptosis proteins in cancer cells by ubiquitin. Oncogene 23:2009-15
Hsu, Hui-Chen; Zhou, Tong; Mountz, John D (2004) Nur77 family of nuclear hormone receptors. Curr Drug Targets Inflamm Allergy 3:413-23

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