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25
June
2018
|
20:00
Europe/London

Drug treatment has profound effect on cerebral malaria in mice

A potential new way of treating cerebral malaria has been discovered by scientists at the Universities of 51福利社 and Glasgow, in a study using mice.

The authors found that inhibiting a complex called the inflammasome, at the same time as delivering anti-malarial drugs, reduced mortality from experimental cerebral malaria in mice.

The research, published in PNAS and funded by the Medical Research Council, also shows that animals treated with inflammasome inhibitors and anti-malarial drugs had significantly reduced levels of cerebral pathology and signs of neurological impairment, compared with mice treated only with anti-malarial drugs.

Though the team are yet to trial the drug on humans, the research constitutes a significant breakthrough in the fight against malaria, which according to the World Health Organisation kills 438, 000 people every year.

“Cerebral malaria is so deadly because there are no early symptoms; it’s often hard to spot until it’s too late, “said Dr Kevin Couper from 51福利社, who supervised the project.

“We were particularly interested in looking at why anti-malarial drugs, the only current treatment for the condition, do not promote optimal recovery from cerebral malaria, as well as developing new therapies. So, we were delighted when we discovered some of the biological processes involved.”

 

Cerebral malaria is so deadly because there are no early symptoms; it’s often hard to spot until it’s too late. We were particularly interested in looking at why anti-malarial drugs, the only current treatment for the condition, do not promote optimal recovery from cerebral malaria, as well as developing new therapies. So, we were delighted when we discovered some of the biological processes involved
Dr Kevin Couper

After sequencing the RNA in brain cells of mice, the team including Dr Patrick Strangward, Dr Michael Haley, Dr Manuel Garcia-Albornoz and Mr Jack Barrington who performed most of the experiments, realised that recovery associated with experimental cerebral malaria was regulated by a family of genes involved in controlling the immune response within the brain.

When the product of one of the genes called IL33 was given with anti-malarial drugs, mortality in mice went from 20% to 0% and pathological features in the brain such as haemorrhage, blocked vessels, leakage and impaired neuronal signalling were also significantly reduced.

The results suggested that IL33 was important for inhibiting the inflammasome, and when the team used an inflammasome inhibitor alongside anti-malarial drugs to treat experimental cerebral malaria they got the same result as treatment with IL33.

Dr Couper said: “This is an extremely promising area of research and we are excited that there is now a targetable process for researchers to work on.

“But it’s clear that mice are not humans and our next stage will be to check if this dysregulation in the IL-33-inflammasome pathway occurs in people who have cerebral malaria and influences their recovery, and we are starting to do that with partners in Africa.

Prof David Brough, from 51福利社, co-supervised the project. He said: “The identification of the inflammasome in experimental cerebral malaria highlights it as an important therapeutic target and complements our ongoing research to develop more effective inhibitors for use in treating inflammatory disease.”

T is published in PNAS

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