WASHINGTON : A drug already approved for treating other diseases in humans may be useful as a treatment for deadly cerebral malaria, according to Harvard researchers.
Researchers discovered a novel link between food intake during the early stages of infection and the outcome of the disease, identifying two molecular pathways that could serve as new targets for the treatment.
“We have known for a long time that nutrition can affect the course of infectious disease, but we were surprised at how rapidly a mild reduction in food intake could improve outcome in a mouse malaria model,” said senior author James Mitchell, associate professor of genetics and complex diseases at Harvard T H Chan School of Public Health.
“However, the real importance of this work is the identification of unexpected molecular pathways underlying cerebral malaria that we can now target with existing drugs,” said Mitchell.
Cerebral malaria – a severe form of the disease – is the most serious consequence of infection by the parasite Plasmodium falciparum, resulting in seizures, coma, and death.
Currently there is a lack of safe treatment options for cerebral malaria, particularly for use in children, who represent the majority of cases.
Even patients who receive early treatment with standard antimalarial chemotherapeutic agents run a high risk of dying, despite clearance of the parasite, researchers said.
Moreover, around 25 per cent of survivors develop neurological complications and cognitive impairment.
Lead authors Pedro Mejia and J Humberto Trevino-Villarreal found that leptin – a hormone secreted from fat tissue with roles in suppressing appetite, but also in activating adaptive immune and inflammatory responses – is increased upon infection in a mouse model of cerebral malaria, and turns out to be a major bad actor in promoting neurological symptoms and death.
Mejia, Trevino-Villarreal and colleagues showed that reducing leptin using a variety of means, either genetically, pharmacologically, or nutritionally by reducing food intake during the first two days of infection, protected against cerebral malaria.
The researchers also found that leptin acted primarily on cytotoxic T cells by turning on the well-studied mTOR protein, for which pharmacologic inhibitors are readily available.
In their animal model, treating mice with the mTOR inhibitor rapamycin protected them against the neurological complications of cerebral malaria.
Protection was due in part to a preservation of the blood brain barrier, which prevented the entry of blood cells carrying the parasites into the brain.
As rapamycin is already FDA-approved for use in humans, trials in humans for cerebral malaria treatment with this drug may be possible, according to the researchers.
The study appears in the journal Nature Communications. (AGENCIES)
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