ErbB2 genetic cancer vaccine in nonhuman primates: relevance of single nucleotide polymorphisms.

Aberrant Her2/neu expression is associated with the development of epithelial-derived human carcinomas and for this reason it is considered a good target for immunologic intervention. To define methods to circumvent immunologic tolerance and to elicit immunity against the Her2/neu tumor-associated antigen in a suitable animal model, we have isolated the cDNA encoding the rhesus monkey homolog of human Her2/neu (RhErbB2) to construct DNA plasmids and adenoviral vectors for the development of a cancer vaccine against this protein. To further increase the immunogenic potency of these vectors, a synthetic codon-optimized RhErbB2 cDNA (RhErbB2OPT) was constructed and characterized.

Synergistic effect of gene-electro transfer and adjuvant cytokines in increasing the potency of hepatitis C virus genetic vaccination.

Background: Gene electro-transfer (GET) increases DNA uptake and expression by muscle cells following intramuscular plasmid injection. This technology has been used to increase the production of therapeutic proteins, such as cytokines and growth factors, and to improve immunization efficiency following the injection of antigen-encoding plasmids.

Methods: Hepatitis C virus (HCV) E2 and cytokine encoding plasmids were co-injected in the mouse quadriceps with or without GET and vaccination outcome was monitored by analysis of antigen-specific cellular-mediated or antibody-mediated immunity.

Differential screening of phage-ab libraries by oligonucleotide microarray technology.

A novel and efficient tagArray technology was developed that allows rapid identification of antibodies which bind to receptors with a specific expression profile, in the absence of biological information. This method is based on the cloning of a specific, short nucleotide sequence (tag) in the phagemid coding for each phage-displayed antibody fragment (phage-Ab) present in a library. In order to set up and validate the method we identified about 10,000 different phage-Abs binding to receptors expressed in their native form on the cell surface (10 k Membranome collection) and tagged each individual phage-Ab.

Modulation of the immune response induced by gene electrotransfer of a hepatitis C virus DNA vaccine in nonhuman primates.

Induction of multispecific, functional CD4+ and CD8+ T cells is the immunological hallmark of acute self-limiting hepatitis C virus (HCV) infection in humans. In the present study, we showed that gene electrotransfer (GET) of a novel candidate DNA vaccine encoding an optimized version of the nonstructural region of HCV (from NS3 to NS5B) induced substantially more potent, broad, and long-lasting CD4+ and CD8+ cellular immunity than naked DNA injection in mice and in rhesus macaques as measured by a combination of assays, including IFN-gamma ELISPOT, intracellular cytokine staining, and cytotoxic T cell assays. A protocol based on three injections of DNA with GET induced a substantially higher CD4+ T cell response than an adenovirus 6-based viral vector encoding the same Ag.

A T-cell HCV vaccine eliciting effective immunity against heterologous virus challenge in chimpanzees.

Three percent of the world's population is chronically infected with the hepatitis C virus (HCV) and at risk of developing liver cancer. Effective cellular immune responses are deemed essential for spontaneous resolution of acute hepatitis C and long-term protection. Here we describe a new T-cell HCV genetic vaccine capable of protecting chimpanzees from acute hepatitis induced by challenge with heterologous virus.

In vivo DNA gene electro-transfer: a systematic analysis of different electrical parameters.

Background: Intramuscular plasmid injection followed by electroporation is an efficient method for gene therapy or vaccination. Several protocols have been described that give good transduction levels with several reporter genes.

Methods: In this work we have explored the efficiency of gene delivery upon variation of the different electrical parameters such as pulse length frequency and voltage monitoring both on short- and long-term protein production.

Scavenger receptor class B type I and hepatitis C virus infection of primary tupaia hepatocytes.

Hepatitis C virus (HCV) is a major cause of chronic hepatitis worldwide. The study of early steps during HCV infection has been hampered by the lack of suitable in vitro or in vivo models. Primary Tupaia hepatocytes (PTH) have been shown to be susceptible to HCV infection in vitro and in vivo.

Gene electro-transfer of an improved erythropoietin plasmid in mice and non-human primates.

Background: Anemia due to impaired erythropoietin (EPO) production is associated with kidney failure. Recombinant proteins are commonly administered to alleviate the symptoms of this dysfunction, whereas gene therapy approaches envisaging the delivery of EPO genes have been tried in animal models in order to achieve stable and long-lasting EPO protein production. Naked DNA intramuscular injection is a safe approach for gene delivery; however, transduction levels show high inter-individual variability in rodents and very poor efficiency in non-human primates.