Technology ID
TAB-2820
Discrete Cross-Reactive Epitopes for Flavivirus Serological Diagnostics and Vaccines
E-Numbers
E-333-2013-0
Lead Inventor
Chang, Gwong-Jen (CDC)
Co-Inventors
Crill, Wayne (CDC)
Applications
Therapeutics
Research Materials
Occupational Safety and Health
Diagnostics
Consumer Products
Therapeutic Areas
Infectious Disease
Immunology
Development Stages
Pre-Clinical (in vitro)
Development Status
- In vitro data available
Research Products
Antibodies
Lead IC
CDC
ICs
CDC
CDC researchers have identified and characterized discrete flavivirus cross-reactive epitopes useful for improving serodiagnosis and vaccination of flaviviruses, such as dengue virus, yellow fever virus, Japanese encephalitis virus, West Nile virus and the tick-borne encephalitis viruses.
The flavivirus envelope glycoprotein is one of the primary antigens inducing protective immunity in a host. Human flavivirus infections stimulate virus species-specific as well as flavivirus-genus cross-reactive immune responses. These cross-reactive antibodies create a serious problem for serodiagnosis, especially for secondary flavivirus infections, due to the difficulty of differentiating primary from secondary cross-reactive serum antibodies. Additionally, the presence of subneutralizing levels of flavivirus cross-reactive serum antibodies in an individual may result in a dramatic increase in the severity of secondary flavivirus infections via antibody-dependent enhancement (ADE), as commonly seen with multi-serotype dengue virus infection.
To that end, the identification and characterization of amino acids incorporated into these flavivirus cross-reactive epitopes extends practical understanding of structure-function relationships important for flavivirus immunopathology. This CDC antigen-epitope technology provides important tools and insights for improving flavivirus serodiagnosis, researching the pathogenesis of ADE, and advancing the development of safe and effective flavivirus vaccines.
The flavivirus envelope glycoprotein is one of the primary antigens inducing protective immunity in a host. Human flavivirus infections stimulate virus species-specific as well as flavivirus-genus cross-reactive immune responses. These cross-reactive antibodies create a serious problem for serodiagnosis, especially for secondary flavivirus infections, due to the difficulty of differentiating primary from secondary cross-reactive serum antibodies. Additionally, the presence of subneutralizing levels of flavivirus cross-reactive serum antibodies in an individual may result in a dramatic increase in the severity of secondary flavivirus infections via antibody-dependent enhancement (ADE), as commonly seen with multi-serotype dengue virus infection.
To that end, the identification and characterization of amino acids incorporated into these flavivirus cross-reactive epitopes extends practical understanding of structure-function relationships important for flavivirus immunopathology. This CDC antigen-epitope technology provides important tools and insights for improving flavivirus serodiagnosis, researching the pathogenesis of ADE, and advancing the development of safe and effective flavivirus vaccines.
Commercial Applications
- Flavivirus vaccine development
- Improved serological diagnostics for flaviviruses such as dengue, yellow fever, Japanese encephalitis, West Nile and the tick-borne encephalitis viruses
- Research of flavivirus-related antibody-dependent enhancement (ADE) pathologies
Competitive Advantages
- Technology circumvents flavivirus serodiagnostic issues associated with cross-reactive antibody detection and non-specific flavivirus infection diagnoses
- May provide unique solutions for development of flavivirus-genus or species-specific vaccines
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