Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0001486 (
Adenovirus
)
3,125
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Adenovirus
(Ad) vectors were initially developed for treatment of genetic diseases. Their usefulness for permanent gene replacement was limited by their high immunogenicity, which resulted in rapid elimination of transduced cells through induction of T and B cells to antigens of Ad and the transgene product. The very trait that excluded their use for sustained treatment of genetic diseases made them highly attractive as vaccine carriers. Recently though results showed that Ad vectors based on common human serotypes, such as serotype 5, may not be ideal as vaccine carriers. A recently conducted phase 2b trial, termed
STEP
trial, with an AdHu5-based vaccine expressing antigens of human immunodeficiency virus 1 (HIV-1) not only showed lack of efficacy in spite of the vaccine's immunogenicity, but also suggested an increased trend for HIV acquisition in individuals that had circulating AdHu5 neutralizing antibodies prior to vaccination. Alternative serotypes from humans or nonhuman primates (NHPs), to which most humans lack pre-existing immunity, have been vectored and may circumvent the problems encountered with the use of AdHu5 vectors in humans. In summary, although Ad vectors have seen their share of setbacks in recent years, they remain viable tools for prevention or treatment of a multitude of diseases.
...
PMID:New insights on adenovirus as vaccine vectors. 1951 19
The road to the discovery of a vaccine for HIV has been arduous and will continue to be difficult over the ensuing twenty years. Most vaccines are developed by inducing neutralizing antibodies against the target pathogen or by using attenuated strains of the particular pathogen to engender a variety of protective immune responses. Unfortunately, simple methods of generating anti-HIV antibodies have already failed in a phase III clinical trial. While attenuated SIV variants work well against homologous challenges in non-human primates, the potential for reversion to a more pathogenic virus and recombination with challenge viruses will preclude the use of attenuated HIV in the field. It has been exceedingly frustrating to vaccinate for HIV-specific neutralizing antibodies given the enormous diversity of the Envelope (Env) glycoprotein and its well-developed glycan shield. However, there are several antibodies that will neutralize many different strains of HIV and inducing these types of antibodies in vaccinees remains the goal of a vigorous effort to develop a vaccine for HIV based on neutralizing antibodies. Given the difficulty in generating broadly reactive neutralizing antibodies, the HIV vaccine field has turned its attention to inducing T cell responses against the virus using a variety of vectors. Unfortunately, the results from Merck's phase IIb
STEP
trial proved to be disappointing. Vaccinees received
Adenovirus
type 5 (Ad5) expressing Gag, Pol, and Nef of HIV. This vaccine regimen failed to either prevent infection or reduce the level of HIV replication after challenge. These results mirrored those in non-human primate testing of Ad5 using rigorous SIV challenge models. This review will focus on recent developments in HIV vaccine development. We will deal largely with attempts to develop a T cell-based vaccine using the non-human primate SIV challenge model.
...
PMID:Is an HIV vaccine possible? 2023 96
Adenovirus
(Ad) is still under extensive investigation as a vector for HIV vaccination; however, one possible explanation for the failure of Merck's
STEP
trial is the relatively weak immunogenicity of replication-defective Ad vectors. In this study, a novel strategy to enhance the immunogenicity of replication-defective Ad-based HIV vaccines was developed. First, a recombinant plasmid expressing adenoviral E1 protein (pVAX-E1) was constructed to complement the E1-deleted replication-defective Ad vectors in trans. Then, the immunogenicity of the vaccine regimen of Ad5-HIV gag plus pVAX-E1 plasmid was assessed in rhesus macaques. Compared with traditional administration of Ad-based vectors alone, the results showed that our strategy elicited a more sustained and robust HIV gag-specific cellular response and enhanced long-term proliferation of CD4(+) and CD8(+) T lymphocytes. This strategy represents a proof-of-concept that enhances the immunogenicity of replication-defective Ad-based vectors, and it exemplifies the useful implications for Ad-based HIV vaccines and other vaccines.
...
PMID:Short communication: enhancement of immunogenicity of replication-defective adenovirus-based human immunodeficiency virus vaccines in rhesus monkeys. 2108 37
