Technology Bundle ID: NCI-E-065-2015

Griffithsin-Based Anti-viral Therapeutics with Improved Stability and Solubility

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Licensing Contact:
Primary Inventors: 
Barry OKeefe (NCI)
Co-Inventors: 
Kenneth Palmer (University of Louisville), Lisa Rohan (University of Pittsburgh), Tinoush Moulaei (NCI)
Application: 
Therapeutics
Development Status: 

Pre-clinical (in vivo)

Institute or Center: 
NCI

Griffithsin is a potent anti-viral protein with activity against HIV, HCV, Sars, HSV 1 & 2 and other viruses.  It is active against HIV and HCV at picomolar concentrations.  Griffithsin is moving into clinical trials as an anti-HIV microbicide. Based on the structure of griffithsin and the necessities of pharmaceutical product development and regulatory approval, certain mutations in the sequence of griffithsin have been generated which could add to the stability and solubility of the protein. These mutants have all been tested for biological activity, solubility and thermal stability. They possess modified physiological attributes that would be advantageous for subsequent development for both systemic and topical administration.

Scientists in NCI's Molecular Targets Laboratory and collaborators modified the griffithsins to have a mutation position #77 (Met), which eliminates the possibility of Methionine oxidation at this solvent-exposed position, preventing oxidation and increasing the usable shelf-life of griffithsin formulations. Additional mutations include changes in the isoelectric point of the protein, which alter its solubility in various pH ranges allowing for improved product release in alternately formulated products.

The modified griffithsins will be used to provide an active pharmaceutical ingredient with improved properties including reduced oxidation, improved solubility and bioavailability over a range of pH values and thermal stability.

Applications:
  • Microbicide, Therapeutic, Research tool
Advantages:
  • Increased stability: The modified griffithsins has greater shelf-life due to reduced oxidation and improved solubility; 
  • Increased bioavailability due to other mutations including those that change the isoelectric point.

Patents

U.S. Filed Application PCT/US2016/17267
Filed on 2016-08-18

Updated

Feb 13, 2017

Data Source: 
nci