Biomathematicus

Science, Technology, Engineering, Art, Mathematics

This is a project of the Biomathematics Research Group.

A research partnership within DARPA’s THoR (Technologies for Host Resilience) program, the HAMMER project uniquely focuses on malaria and its effects on human and non-human primate hosts.  This project will explore the molecular mechanisms of resilience, susceptibility and resistance of non-human primate hosts when challenged with a malaria infection.  DARPA contract #W911NF-16-C-0008

Funding Agency: Defense Advanced Research Projects Agency: THoR’s HAMMER 
Research Team:  Mary Galinski (PI), Emory University
Juan B. Gutierrez (Co-PI), University of Texas at San Antonio 
Rabindra Tirouvanziam (Co-PI), Emory University 
Co-Investigators from the BRG
Jacob B. AguilarMehdi AsefiJessica Brady, Juan B. GutierrezSeyedamin PouriyehSaeid SafaeiElizabeth Trippe, Zerotti Woods
Collaborators: University of Georgia
Emory University
Georgia Institute of Technology 
Funding:  $1.9M (UGA) of $6.5M (Project Total)
Project Period: 2016-2019
Media: Global Biodefense (05/25/2016): DARPA Brings Down the HAMMER on Malaria
Emory news center (05/24/2016):  DARPA $6.4M contract supports malaria research aimed at enhancing resilience
Columns UGA (6/27/2016):  UGA scientists part of team studying malaria resilience
TheRed&Black (7/9/2016):  UGA researchers granted $6.4 million to study resistance to malaria 

The ThoR program seeks to discover biological mechanisms of host tolerance to catalyze the development of novel host-based interventions against emerging pathogens and potential biological threat agents.

Current treatments for infection focus primarily on pathogen inhibition with the premise that increased pathogen load negatively impacts host fitness. This approach frequently relies on a priori knowledge of the pathogen, is limited to a discrete set of pathogens, and has imposed evolutionary pressures leading to the increased prevalence of drug-resistant organisms.

The THoR program’s concept of tolerance is in contrast to host-response mechanisms based on resistance, which refers to the host’s ability to maintain fitness through reduction in pathogen load. Under this program, researchers will seek to develop approaches and methodologies to identify mechanisms of tolerance along with the characterization of the key biological drivers responsible for that response. Furthermore, DARPA aims to recapitulate these pro-tolerance mechanisms in susceptible hosts by applying a single intervention or combination of interventions in order to improve health and reduce mortality to infectious diseases.

THoR is organized into three technical areas:

  1. Discover Tolerant Populations – perform animal studies to examine intra- and inter-species differences in host fitness; identify sub-populations and species that are tolerant to infection;
  2. Identify Biological Mechanisms of Tolerance – define and characterize the basis for tolerance across multiple biological scales (i.e., species, tissues, and cells); and
  3. Identify and Validate Pro-Tolerance Interventions – recapitulate pro-tolerance mechanisms in susceptible hosts using small-animal and large-animal models demonstrating improved survival.

The long term objective of the THoR program is to integrate the aforementioned methods and tools into an end-to-end pipeline for discovering novel host-centric countermeasures against infectious diseases. 


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