Awards
Grand Challenges is a family of initiatives fostering innovation to solve key global health and development problems. Each initiative is an experiment in the use of challenges to focus innovation on making an impact. Individual challenges address some of the same problems, but from differing perspectives.
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A Mouse Model to Evaluate Live Attenuated Vaccine Candidates
To develop new vaccines against some of the world's biggest killers, including HIV, malaria, and tuberculosis, scientists must be able to evaluate promising candidates. Some of the most promising potential vaccines, are made from weakened live versions of the infectious agent. As a result, they cannot be studied in human trials unless researchers can be confident that the weakened vaccines will be safe. Dr. Flavell and his colleagues are working to genetically engineer laboratory mice whose immune systems are similar enough to humans to permit testing of vaccines against diseases that disproportionately affect people in the developing world. Flavell (Grand Challenges in Global Health: 2005-2015 retrospective)
Development of Novel Mouse Models for HIV and HCV Infection
Vaccines are urgently needed to slow the spread of HIV and hepatitis C virus (HCV), which together infect an estimated 240 million people, most of them in developing countries. To prepare a human vaccine, investigators need an animal model that can help them screen and prioritize vaccine candidates. Dr. Deng and his colleagues are working to improve techniques for creating mouse models with immune systems and livers that are similar enough to humans to allow testing of potential HIV and HCV vaccines. The team is working to create chimerical mouse models with hematopoietic cells (HSCs) and hepatocytes differentiated from human embryonic stem (hES) cells.
Novel Mouse Models for Testing HIV and HCV Vaccines
Hepatitis C virus (HCV) is a major cause of liver diseases, including cirrhosis and liver cancer. Treatment for chronic hepatitis C is often out of financial reach for people in developing countries, and there is no vaccine against the virus. To prepare a human vaccine, investigators need an animal model that can help them screen and prioritize vaccine candidates. Dr. Balling's team, partnering with Dr. Di Santo's group at the Institut Pasteur in France, is working toward the development of mice with livers and immune systems that are similar to those of humans. These animals might be used to test vaccines for HCV, and potentially, other human pathogens.