Technology Bundle ID: TAB-2821

MDCK-based Reporter System for Detection of Influenza Viruses, Antiviral Drug Screening, and Analysis of Neutralizing Antibodies

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Licensing Contact:
Primary Inventors: 
Ruben Donis (CDC)
Co-Inventors: 
Sandra Perez DeBretschneider (CDC), Zhu Guo (CDC)
Development Stage: 
Pre-Clinical (in vitro)
Development Status: 
  • In vitro data available
Institute or Center: 
CDC

CDC researchers have developed a Madin-Darby Canine Kidney (MDCK) reporter cell line that is exceptionally permissive for influenza virus replication and provides a highly specific, sensitive approach for the simultaneous detection and isolation of influenza viruses. Simplified antibody neutralization assays and high-throughput antiviral drug screening can also be easily and efficiently implemented using this reporter system.

Laboratories generally rely on embryonated chicken eggs or mammalian cell cultures for isolation and propagation of influenza viruses. This approach is hampered by the relatively long times required to obtain test results (5 to 7 days) and substantial requirements for specialized materials, equipment and specially trained technician labor.

This CDC-generated reporter system for influenza A virus uses highly permissive MDCK cells expressing a luciferase-encoding amplicon controlled by canine RNA polymerase I (POL-I) promoter elements. This cell-based system exploits the specificity of viral transcription factors for their target promoters, and the extreme sensitivity of the luciferase enzyme greatly reduces turnaround times for readouts. In addition, the simplicity of these new reporter assays relative to ELISA and real-time PCR reduces technician labor, reagent/consumables usage, and physical lab space requirements when detecting and diagnosing influenza infection. This system will also be useful for efficient, high-throughput screening of antiviral drug libraries and neutralizing antibody assays.

Applications:
  • Influenza growth and antibody neutralization assays
  • Development and screening of antiviral drug compounds
  • Detection and diagnosis of influenza infection
  • Numerous “increased efficiency” uses for commercial production programs involving influenza viruses
Advantages:
  • Provides a very specific and sensitive approach for simultaneous detection and isolation of influenza A viruses; CDC research demonstrates a 1,000-fold gain in sensitivity relative to prior reporter systems
  • High-throughput evaluations of antibodies and antiviral compound screening
  • Rapid approach (results as early as 24 hours) for influenza detection provides greater efficiency than culture methods (5 to 7 days)
  • Replacement of conventional MDCK cells by this technology eliminates the laborious ELISA procedure currently used for virus detection

Patents

EIR Application

Research Tool – Patent protection is not being pursued for this technology.

Publications

Hossain MJ, et al.
PMID 20504984

Updated

May 15, 2014

Data Source: 
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