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New finding could lead to better malaria treatments

Dec 23 2013, 15:21 IST
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SummaryAlthough a variety of antimalarial drugs are available, some strains of the parasite are resistant to treatment.

Scientists have identified a new method to stop malaria parasites from multiplying, paving way for new treatments for the deadly mosquito-borne disease.

Researchers found that blocking the activity of an enzyme called NMT in the most common malaria parasite prevents mice from showing symptoms and extends their lifespan.

The team are working to design molecules that target NMT more potently, and hope to start clinical trials of potential treatments within four years.

Although a variety of antimalarial drugs are available, some strains of the parasite are resistant to treatment. These strains are becoming more common, with treatment failures reported across multiple frontline drugs.

If acute illness is cured, the parasite can remain dormant in the blood and return to cause illness later. Malaria vaccines have been researched intensively, but none have been introduced into clinical practice.

The new study shows that NMT is involved in a wide range of essential processes in the parasite cell, including the production of proteins that enable malaria to be transmitted between humans and mosquitoes, and proteins that enable malaria to cause long-term infection.

The researchers have tested a handful of molecules that block the activity of NMT in the parasite living inside human red blood cells, and in mice, but further refinement will be needed before a treatment is ready to be tested in humans.

"The drug situation for malaria is becoming very serious. Resistance is emerging fast and it's going to be a huge problem in the future," said Dr Ed Tate, from the Department of Chemistry at Imperial College London, who led the project. "Finding an enzyme that can be targeted effectively in malaria can be a big challenge. Here, we've shown not only why

NMT is essential for a wide range of important processes in the parasite, but also that we can design molecules that stop it from working during infection.

"It has so many functions that we think blocking it could be effective at preventing long-term disease and transmission, in addition to treating acute malaria. We expect it to work not just on Plasmodium falciparum, the most common malaria parasite, but the other species as well.

"We need to do some more work in the lab to find the best candidate molecule to take into clinical trials, but hopefully we'll be ready to do that within a few years," Tate said.

The study was published in journal Nature Chemistry.

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