I must admit I was not optimistic
when I read this headline. Yet it certainly
is a completely new avenue to attack the parasite. The first question is
whether such proteins can be eliminated without harming the patient.
It also sounds like it may be an
effective avenue to search for natural cures that have been overlooked as would
be natural for this disease. Something
simple would be rather welcome.
Now protocols will be tested
first against their effectiveness against the specific protein complex and that
does not need infected patients.
All in this is useful news for
researchers.
Breakthrough in the battle against malaria
by Staff Writers
Leicester
A mosquito in flight with its abdomen full of blood. This species,
Anopheles stephensi, is the insect that transmits malaria in India and Pakistan
An international team of scientists has announced a breakthrough in the
fight against malaria, paving the way for the development of new drugs to treat
the deadly disease.
According to the World Health Organisation malaria currently infects
more then 225 million people worldwide and accounts for nearly 800,000 deaths
per year.
Most deaths occur among children living in Africa
where a child dies every 45 seconds of malaria and the disease accounts for
approximately 20% of all childhood deaths. The disease is caused by the malaria
parasite, Plasmodium, that is injected into the human host through the bite of
the female Anopheles mosquito.
Now researchers have discovered new ways in which the malarial parasite
survives in the bloodstream of its victims.
The advance is the result of a collaboration between medical scientists
at the University of Leicester in the UK and a team from the French Institut
National de la Sante et de la Recherche Medicale (Inserm) working at the
Wellcome Trust Centre for Molecular Parasitology in Glasgow and the Ecole Polytechnique
Federale de Lausanne (EPFL, Switzerland), now relocating to Monash University
in Melbourne (Australia).
The breakthrough was made by the teams led by Professor Andrew Tobin at
the University of Leicester and Professor Christian Doerig, now at Monash
University, and is published in the prestigious scientific journal Nature
Communications and was funded by The Wellcome Trust, the European Commission,
Inserm and EPFL.
Professor Tobin, of the Department of Cell Physiology and Pharmacology,
said: "I am proud to be involved in a collaboration that has made such an
impact on malaria research. Our study opens new avenues for researchers to look
for new drugs that treat malaria."
Professor Doerig explained "We have shown that a crucial
element that is required by malaria parasites to survive in the human blood
stream is a group of enzymes called protein kinases. If we stop these proteins
kinases from working then we kill the malaria parasites. We are now looking
for drugs that do exactly that - stop the protein kinases from working. If we
find these drugs then we will have a new way of killing the malaria
parasite."
Professor Tobin added: "It seems perfectly realistic to us that we
can now develop novel anti-malaria drugs based on the findings that we have
made - it certainly is a big moment in our fight against this terrible disease
that mainly affects the world's poorest people."
Tobin and Doerig also warn: "The parasite is very clever at
adapting to drug treatments and in so doing becoming resistant to drugs. In
fact, there is already evidence that the parasite is developing resistance to
the most recent front line treatment for malaria.
"To avoid the catastrophic affects of widespread resistance to
anti-malarial treatments we need a continued pipeline of new anti-malaria
drugs. Our discovery provides one avenue towards populating such a
pipeline."
Details of the paper: The full listing of authors and their
affiliations for this paper is as follows: Lev Solyakov1,*, Jean Halbert2,3,*,
Mahmood M. Alam1,*, Jean-Philippe Semblat2,3, Dominique Dorin-Semblat2,3, Luc
Reininger2,3, Andrew R. Bottrill4, Sharad Mistry4, Abdirhaman Abdi2,3, Clare
Fennell3, Zoe Holland3, Claudia Demarta2, Yvan Bouza2, Audrey Sicard2,3,
Marie-Paule Nivez3, Sylvain Eschenlauer3, Tenzing Lama2, Divya Catherine
Thomas5, Pushkar Sharma5, Shruti Agarwal6, Selina Kern6, Gabriele Pradel6, Michele
Graciotti1, Andrew B. Tobin1 and Christian Doerig2,3,7
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