mRNA-Based Vaccines Against Tick Borne Thogotoviruses
Washington University, Saint Louis MO
Investigators
Abstract
The incidence of tick-borne diseases has increased significantly over the past 25 years due to ecological changes and shifting population demographics of both humans and ticks, and inadequate vector control. Including economic and societal burden, it is estimated that tick-borne diseases costs between 50 and 100 billion dollars each year. The Center for Disease Control and Prevention currently recognizes 18 different tick-transmitted pathogens in the United States. This number is likely to rise as novel pathogens are being discovered each year. One of these pathogens is Bourbon virus (BRBV), an emerging tick-borne RNA virus that can infect and cause disease in humans. No antiviral therapies or vaccines are available, highlighting the need to develop countermeasures against this life-threatening diseases. The primary objective of this application is to develop an mRNA vaccine against BRBV, evaluate its efficacy in vivo in a mouse model of BRBV and determine the mechanism of action. A secondary objective is to test different viral antigens and combinations of antigens and evaluate heterologous protection against divergent thogotoviruses, therefore developing a road map for panpathogen mRNA vaccines. Successful completion of the proposed studies will provide the preliminary data for a R01 application aimed at developing a universal vaccine that confers protection against tick-borne pathogens in the United States and beyond.
View original record on NIH RePORTER →