New Cellular ‘Back Door’ has been found to fight Malaria


Paris & Strasbourg (France) researchers have discovered an ‘Achilles Heel’ for malaria: A specific molecule the parasite needs from the host. Could this spawn a new generation of Parasitic disease drugs?

A New Cellular ‘Back Door’ has been found to fight Malaria(1)

However, the current trend is actually a reduced number of cases worldwide (as well as related deaths), due to medical advances such as the Nobel-awarded discovery of artemisinin.

Better control of mosquito populations (Anopheles spp.) that spread the parasite are also driving this improvement (a strategy that could be helped by innovative approaches to pest control).

But research into parasitic diseases is still producing new insights into the mechanisms of infection.

This time, researchers from the University of Strasbourg and the Pasteur Institute in Paris have published in PNAS a description of how the parasite that causes malaria (Plasmodium) imports a specific molecule from its host (humans) to its own cytoplasm.

The scientists identified a protein (tRip) localised on the surface of the cells of this protozoa (a unicellular microorganism). This tRip protein imports tRNA, a key molecule in the translation of the DNA sequence to proteins.

The discovery is fascinating on its own, as it is the first time that this kind of mechanism has been observed in the scientific community.

The authors are not yet sure of what purpose this import mechanism serves…

It may be that Plasmodium species have too few genes to code all the proteins they need, and thus would need to ‘steal’ some tRNA from its host, in order to complete the synthesis of its own proteins.

Another hypothesis is that these tRNA molecules can acts as small regulatory RNAs inside the parasite,modulating the expression of its genes in response to the infection in the host.

A New Cellular ‘Back Door’ has been found to fight Malaria(2)

What it is known though is that if this tRip protein is inhibited, the parasite has a much slowerprogression – making it also interesting from a medical point of view.

For example, this protein could be a particularly good target for mRNA therapies, which ‘could take over all other biologicals in Medicine‘ (being cheaper, quicker response).

This finding could even impact the therapeutic strategies for other infectious diseases as well, since the same import protein was found in other human pathogens, like Toxoplasmaand Cryptosporidium (which causes respiratory and gastrointestinal illness).

So this discovery demonstrates a very curious human-host interaction, which could provide a ‘window’ to deliver novel therapies for Parasitic disease.

Source:labiotech.eu