New Hope For Tackling Sleeping Sickness With Genetic ScreensMain Category: Tropical Diseases
Also Included In: Genetics
Article Date: 26 Jan 2012 - 2:00 PST
New Hope For Tackling Sleeping Sickness With Genetic Screens
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Research led by scientists at the London School of Hygiene & Tropical Medicine has exploited a revolutionary genetic technique to discover how human African Trypanosomiasis (HAT) drugs target the parasite which causes the disease. The new knowledge could help lead to the development of better treatments for the tens of thousands of people in sub-Saharan Africa who are affected each year.
The findings, published in Nature, are based on the simultaneous analysis of thousands of genes and the action of the five drugs effective against HAT, also known as sleeping sickness. The research was a collaboration between LSHTM, the Wellcome Trust Sanger Institute and the University of Cambridge and was funded by the Wellcome Trust.
The disease - usually fatal if left untreated - is caused by a parasite called Trypanosoma brucei, which is transmitted by the tsetse fly and attacks the central nervous system. Although treatment is available, until now there has been little understanding of how and why the drugs are particularly effective against African trypanosomes and therefore limited scope to tackle resistance when it arises. In particular, an arsenic-based drug called melarsoprol is increasingly ineffective and has the added problem of severe toxicity in patients; it is only because HAT is such a lethal disease that this drug is still in use.
Employing a process of specific gene disruption that prevents the parasite from producing its signature proteins, and targeting one gene in each cell (the parasite is unicellular), the scientists identified which modifications resulted in drug resistance. This implied that the original gene was essential for the drug to work. The technique, called RNA interference target sequencing (RIT-seq), depends upon technology developed by scientists at LSHTM over several years and a high-throughput DNA sequencing approach developed in collaboration with researchers at the Wellcome Trust Sanger Institute.
The team screened the entire T. brucei genome of 7,500 genes and found a total of 50 genes, and therefore 50 proteins, that are linked to drug action and resistance. With this information, the group analysed the biological processes those proteins are involved in and deduced how the drugs interact with the parasite.
Lead researcher Dr David Horn, Reader in Molecular Biology at LSHTM, said: "We now know a lot more about how these drugs work. This new understanding of how these medications kill parasites, or fail to kill parasites, could lead to the development of tests that guide the intervention strategy as well as more active and safer intervention options. What is important now is to begin the process of translating the new findings into clinical advances such as new diagnostics and therapies."
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The current drugs used in the treatment of sleeping sickness are suramin, pentamidine, nifurtimox, melarsoprol and eflornithine.
More information about RNA interference target sequencing (RIT-seq) can be found in the following publications:-
High throughput phenotyping using parallel sequencing of RNA interference targets in the African trypanosome. Alsford S, Turner DJ., Obado SO, Sanchez-Flores A, Glover L, Berriman M, Hertz-Fowler C and Horn D. (2011) Genome Research. 21: 915-924. Doi: 10.1101/gr.115089.110
Featured as a Research Highlight in Nature Biotechnology (2011) 29:330.
Featured as a Research Highlight in Nature Methods (2011) 8:370-371.
Featured in News & Analysis in Nature Reviews Microbiology (2011) 9:401.
London School of Hygiene & Tropical Medicine
21 May. 2013. <http://www.medicalnewstoday.com/releases/240774.php>
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