Control of Microbe Growth via Novel Regulatory Events in the TORC Pathway
- Detailed Technology Description
- Background: Human diseases caused by eukaryotes include fungal infections and parasitic diseases. Parasitic diseases include not only those caused by helminths (parasitic worms), but also protozoans such as Plasmodium (a group of protozoans responsible for causing malaria), Leishmania (a group of protozoans responsible for causing leishmaniasis), and giardia. Invention: This technology is a proposed class of novel drugs for the treatment of diseases caused by eukaryotic organisms, and a method of screening for such drugs. These antifungal and antiparasitic drugs will rely on a newly discovered cell signaling pathway that is present in many eukaryotes that cause infection in humans, but is not present in human cells. It is expected that these drugs could be used alone or in conjunction with other drugs to fight such infections. Applications: This proposed class of drugs can be used to treat infections caused by eukaryotes, including but fungal infections and infections caused by parasites such as various parasitic worms. Additionally, these drugs might have efficacy in treating other infections caused by other eukaryotes, such as malaria, visceral leishmaniasis, giardiasis, and amebiasis. Advantages: Because the cell signaling pathway that is the functional basis for these drugs is not present in human cells, it is expected that these drugs will potentially have a low side effect profile and will be safe to use in conjunction with existing treatments. Lead Inventors: Andrew Capaldi, James Hughes Hallett UAID: UA15-046Licensing Manager:Laura SilvaLauraS@tla.arizona.edu(520) 626-1557
- *Abstract
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None
- *Principal Investigator
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Name: Andrew Capaldi, Assistant Professor
Department: Molecular and Cellular Biology
Name: James Hughes hallett, Graduate Assistant
Department: Molecular and Cellular Biology
- Country/Region
- USA
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