Artikel
Lizenziert
Nicht lizenziert
Erfordert eine Authentifizierung
Construction of an encapsulated ESAT-6-based anti-TB DNA vaccine and evaluation of its immunogenic properties
-
Olesya Nosareva
Veröffentlicht/Copyright:
27. März 2008
Abstract
Experimental preparations based on a DNA vaccine encoding the ESAT-6 antigen of Mycobacterium tuberculosis have been obtained (KpONE6) and studied for immunogenic effects in the murine model. The core of the preparation contains DNA of the recombinant plasmid pONE6 encapsulated within a spermidine-polyglucin conjugate, thereby protecting the DNA vaccine from degradation. KpONE6 induces a proliferative T-cell immune response in mice upon intramuscular immunization.
Received: 2007-9-27
Accepted: 2008-2-4
Published Online: 2008-03-27
Published in Print: 2008-05-01
©2008 by Walter de Gruyter Berlin New York
Sie haben derzeit keinen Zugang zu diesem Inhalt.
Sie haben derzeit keinen Zugang zu diesem Inhalt.
Artikel in diesem Heft
- Guest Editorial
- Novel paradigms in vaccine development: from small pox eradication to therapeutic vaccines
- Highlight: 3rd Semmering Conference 2007
- Adaptive immune responses to hepatitis C virus: from viral immunobiology to a vaccine
- Dendritic cell subtypes as primary targets of vaccines: the emerging role and cross-talk of pattern recognition receptors
- Novel strategies to identify biomarkers in tuberculosis
- Not to wake a sleeping giant: new insights into host-pathogen interactions identify new targets for vaccination against latent Mycobacterium tuberculosis infection
- Lipopolysaccharide: a tool and target in enterobacterial vaccine development
- The coming of age of virus-like particle vaccines
- Maintenance of serological memory
- Adjuvant activity of type I interferons
- Japanese encephalitis vaccines – needs, flaws and achievements
- Analysis of the human cytomegalovirus pp65-directed T-cell response in healthy HLA-A2-positive individuals
- Non-regulatory CD8+CD45RO+CD25+ T-lymphocytes may compensate for the loss of antigen-inexperienced CD8+CD45RA+ T-cells in old age
- Pre-clinical development of cell culture (Vero)-derived H5N1 pandemic vaccines
- Construction of an encapsulated ESAT-6-based anti-TB DNA vaccine and evaluation of its immunogenic properties
- Review
- RNA switches regulate initiation of translation in bacteria
- Protein Structure and Function
- Inhibition of bacterial oxidases by formamide and analogs
- Modeling of variant copies of subunit D1 in the structure of photosystem II from Thermosynechococcus elongatus
Schlagwörter für diesen Artikel
DNA vaccine;
ESAT-6;
Mycobacterium tuberculosis;
polysaccharide-spermidine matrix
Artikel in diesem Heft
- Guest Editorial
- Novel paradigms in vaccine development: from small pox eradication to therapeutic vaccines
- Highlight: 3rd Semmering Conference 2007
- Adaptive immune responses to hepatitis C virus: from viral immunobiology to a vaccine
- Dendritic cell subtypes as primary targets of vaccines: the emerging role and cross-talk of pattern recognition receptors
- Novel strategies to identify biomarkers in tuberculosis
- Not to wake a sleeping giant: new insights into host-pathogen interactions identify new targets for vaccination against latent Mycobacterium tuberculosis infection
- Lipopolysaccharide: a tool and target in enterobacterial vaccine development
- The coming of age of virus-like particle vaccines
- Maintenance of serological memory
- Adjuvant activity of type I interferons
- Japanese encephalitis vaccines – needs, flaws and achievements
- Analysis of the human cytomegalovirus pp65-directed T-cell response in healthy HLA-A2-positive individuals
- Non-regulatory CD8+CD45RO+CD25+ T-lymphocytes may compensate for the loss of antigen-inexperienced CD8+CD45RA+ T-cells in old age
- Pre-clinical development of cell culture (Vero)-derived H5N1 pandemic vaccines
- Construction of an encapsulated ESAT-6-based anti-TB DNA vaccine and evaluation of its immunogenic properties
- Review
- RNA switches regulate initiation of translation in bacteria
- Protein Structure and Function
- Inhibition of bacterial oxidases by formamide and analogs
- Modeling of variant copies of subunit D1 in the structure of photosystem II from Thermosynechococcus elongatus
