EpiVax, Inc.: Annie De Groot Presents to NIH/NIAID on Next Generation Epitope-Driven Vaccines

News

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Providence Business News: De Groot wins $13M NIH grant - July 2009

Providence Journal: URI wins $13-million federal grant for vaccine research - July 2009

URI researcher awarded $13 million grant for development of vaccines for emerging infectious diseases - July 2009

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Providence Business News profiles Dr. Anne De Groot - June 2009

Dr. De Groot honored at PBN Business Women Awards luncheon - May 2009

Dr. Anne De Groot Appears on "Amazing Women" Radio Show - May 2009

Annie De Groot Presents to NIH/NIAID on Next Generation Epitope-Driven Vaccines - May 2009

Dr. Annie De Groot chosen for PBN Overall Career Achievement Award - April 2009

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New lab will research vaccines - February 2009

URI taps De Groot to head new vaccine research center - February 2009

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EpiVax Profiled as "Tech Firm in RI to Watch" - November 2008

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Publication on “Tregitopes” in Blood Journal of October 2008 - October 2008

Dr. Annie De Groot, CEO, awarded YWCA 2008 Women of Achievement Award - September 2008

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EpiVax wins SBIR Phase I grant totaling $859,773 to Develop Tularemia Vaccine - September 2004

EpiVax signs Master Services Agreement with Amgen - July 2004

EpiVax renews technology license with Brown University - August 2003

EpiVax receives $150,000 in phase II funding from Slater Center for Bio-Technology - March 2003

EpiVax signs Master Services Agreement with Brown University - March 2003

EpiVax signs Laboratory Services Agreement with Eli Lilly - March 2002

Awarded SBIR Phase I grant for West Nile Virus diagnostic project - September 2001

Awarded SBIR Phase I grant for Human Papiloma Virus vaccine project - September 2001

Signed strategic cooperation and co-marketing agreement with Beckman Coulter Immunomics - June 2001

Anne De Groot named Core Scientist by Sequella Global TB Foundation and awarded 3 year $900,000 TB vaccine development grant - April 2000

Awarded SBIR Phase I for HIV vaccine development. Full time operations begin. - September 1999

Awarded phase 1 development grant from Rhode Island’s Slater Center for Biomedical Technology - June 1998

EpiVax, Inc. founded by Dr. Anne De Groot - May 1998

May 2009

Annie De Groot Presents to NIH/NIAID on Next Generation Epitope-Driven Vaccines

In early May, Dr. Annie De Groot will be presenting to the NIH/NIAID regarding next generation epitope-driven vaccines: "More Effector Epitopes, Less Heterologous Epitopes, and no T-regitopes?" The presentation will be hosted by David Sacks, PhD, Chief of Intracellular Parasite Biology Section for the National Institute on Allergy and Infectious Diseases.

While whole killed, whole protein, or live attenuated vaccines were the standard bearers for protective vaccines in the last century, there are some concerns about their safety, and, more recently, on their ability to "pre-set" the immune response to other challenges. Newer vaccine design techniques are contributing to an emphasis on vaccines developed using the minimum essential subset of T- and B-cell epitopes that comprise the "immunome". We have used bioinformatics sequence analysis tools, epitope -mapping tools, microarrays and high-throughput immunology assays to identify the minimal essential vaccine components for HIV, smallpox, tularemia, Helicobacter pylori and tuberculosis vaccines. This approach has resulted in the development of five immunome-derived epitope-driven vaccines (ID-EDV); three of five have been tested in viral or bacterial challenge models. Protective efficacies of 100% (vaccinia); 90% (H. Pylori) and 57% (tularemia) were achieved in HLA-transgenic (humanized) mouse models and the p27 knockout mouse (for H. pylori).

We are pursuing this approach because we believe that immunome-derived vaccines may have one significant advantage over conventional vaccines; the careful selection of the components should diminish undesired and unexpected immune responses to cross-reactive T cell epitopes. The successful identification of regulatory T cell epitopes, directly from protein sequences--using the same tools and techniques as for T- effector epitopes, will be presented. The implications for this finding in relation to vaccines for human pathogens will be open for discussion.

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