Repurposing the orphan drug nitisinone to control the transmission of African trypanosomiasis
Copyright policy )Repurposing the orphan drug nitisinone to control the transmission of African trypanosomiasis
Tsetse transmit African trypanosomiasis, which is a disease fatal to both humans and animals. A vaccine to protect against this disease does not exist so transmission control relies on eliminating tsetse populations. Although neurotoxic insecticides are the gold standard for insect control, they negatively impact the environment and reduce populations of insect pollinator species. Here we present a promising, environment-friendly alternative to current insecticides that targets the insect tyrosine metabolism pathway. A bloodmeal contains high levels of tyrosine, which is toxic to haematophagous insects if it is not degraded and eliminated. RNA interference (RNAi) of either the first two enzymes in the tyrosine degradation pathway (tyrosine aminotransferase (TAT) and 4-hydroxyphenylpyruvate dioxygenase (HPPD)) was lethal to tsetse. Furthermore, nitisinone (NTBC), an FDA-approved tyrosine catabolism inhibitor, killed tsetse regardless if the drug was orally or topically applied. However, oral administration of NTBC to bumblebees did not affect their survival. Using a novel mathematical model, we show that NTBC could reduce the transmission of African trypanosomiasis in sub-Saharan Africa, thus accelerating current disease elimination programmes.
- International Centre of Insect Physiology and Ecology Kenya
- University of Notre Dame United States
- Egerton University Kenya
- Instituto Nacional de Ciência e Tecnologia em Entomologia Molecular Brazil
- NTI University Netherlands
Male, Insecticides, Orphan Drug Production, Epidemiology, Impact of Pesticides on Honey Bee Health, Biología, Epidemiology and Treatment of Chagas Disease, 4-Hydroxyphenylpyruvate Dioxygenase, Biochemistry, Gene, Agricultural and Biological Sciences, Mice, RNA interference, Engineering, https://purl.org/becyt/ford/1.6, wc_705, Disease, qx_505, Biology (General), African trypanosomiasis, Internal medicine, Neglected tropical diseases, tyrosine catabolism, Gene silencing, Neglected Diseases, Life Sciences, Bees, wc_695, Transmission (medicine), Metabolome, Medicine, Female, Insect Symbiosis and Microbial Interactions, Drug, Research Article, wc_20, QH301-705.5, Glossina morsitans, African Trypanosomiasis, Trypanosomiasis, Virology, Toxicity Tests, Health Sciences, Animals, Humans, Rats, Wistar, https://purl.org/becyt/ford/1, Biology, Pharmacology, Infection Control, Orphan drug, African trypanosomasis, Cyclohexanones, qu_4, Drug repositioning, Drug Repositioning, Models, Theoretical, Transmission (telecommunications), Rats, Trypanosomiasis, African, HPPD inibition, Nitrobenzoates, Insect Science, Electrical engineering, Tyrosine, RNA, Nitisinone, Rna interference
Male, Insecticides, Orphan Drug Production, Epidemiology, Impact of Pesticides on Honey Bee Health, Biología, Epidemiology and Treatment of Chagas Disease, 4-Hydroxyphenylpyruvate Dioxygenase, Biochemistry, Gene, Agricultural and Biological Sciences, Mice, RNA interference, Engineering, https://purl.org/becyt/ford/1.6, wc_705, Disease, qx_505, Biology (General), African trypanosomiasis, Internal medicine, Neglected tropical diseases, tyrosine catabolism, Gene silencing, Neglected Diseases, Life Sciences, Bees, wc_695, Transmission (medicine), Metabolome, Medicine, Female, Insect Symbiosis and Microbial Interactions, Drug, Research Article, wc_20, QH301-705.5, Glossina morsitans, African Trypanosomiasis, Trypanosomiasis, Virology, Toxicity Tests, Health Sciences, Animals, Humans, Rats, Wistar, https://purl.org/becyt/ford/1, Biology, Pharmacology, Infection Control, Orphan drug, African trypanosomasis, Cyclohexanones, qu_4, Drug repositioning, Drug Repositioning, Models, Theoretical, Transmission (telecommunications), Rats, Trypanosomiasis, African, HPPD inibition, Nitrobenzoates, Insect Science, Electrical engineering, Tyrosine, RNA, Nitisinone, Rna interference
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