Viral gene therapy
Clin. transl. oncol. (Print)
; 8(12): 858-867, dic. 2006. ilus, tab
Article
in English
| IBECS
| ID: ibc-126345
Responsible library:
ES1.1
Localization: BNCS
ABSTRACT
Cancer is a multigenic disorder involving mutations of both tumor suppressor genes and oncogenes. A large body of preclinical data, however, has suggested that cancer growth can be arrested or reversed by treatment with gene transfer vectors that carry a single growth inhibitory or pro-apoptotic gene or a gene that can recruit immune responses against the tumor. Many of these gene transfer vectors are modified viruses. The ability for the delivery of therapeutic genes, made them desirable for engineering virus vector systems. The viral vectors recently in laboratory and clinical use are based on RNA and DNA viruses processing very different genomic structures and host ranges. Particular viruses have been selected as gene delivery vehicles because of their capacities to carry foreign genes and their ability to efficiently deliver these genes associated with efficient gene expression. These are the major reasons why viral vectors derived from retroviruses, adenovirus, adeno-associated virus, herpesvirus and poxvirus are employed in more than 70% of clinical gene therapy trials worldwide. Because these vector systems have unique advantages and limitations, each has applications for which it is best suited. Retroviral vectors can permanently integrate into the genome of the infected cell, but require mitotic cell division for transduction. Adenoviral vectors can efficiently deliver genes to a wide variety of dividing and nondividing cell types, but immune elimination of infected cells often limits gene expression in vivo. Herpes simplex virus can deliver large amounts of exogenous DNA; however, cytotoxicity and maintenance of transgene expression remain as obstacles. AAV also infects many non-dividing and dividing cell types, but has a limited DNA capacity. This review discusses current and emerging virusbased genetic engineering strategies for the delivery of therapeutic molecules or several approaches for cancer treatment (AU)
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Collection:
National databases
/
Spain
Database:
IBECS
Main subject:
Genetic Therapy
/
Gene Transfer Techniques
/
Oncolytic Virotherapy
/
Genetic Vectors
/
Neoplasms
/
Antineoplastic Agents
Language:
English
Journal:
Clin. transl. oncol. (Print)
Year:
2006
Document type:
Article
Institution/Affiliation country:
Universidad Francisco de Vitoria/Spain