Research reveals defence against malaria parasites
A study involving researchers from The Australian National University (ANU) has found that platelets can attack and kill malaria parasites—reducing the number of parasites circulating in the blood.
The study, which has just been published in the prestigious journal Blood, was led by Associate Professor Brendan McMorran at ANU and Professor Nick Anstey at Darwin's Menzies School of Health Research.
The team studied 376 people, with and without malaria, from Indonesia and Malaysia.
They found that platelets bind to and kill parasites in patients infected with each of the major malaria parasite species—Plasmodium falciparum, P. vivax, P. malariae and P. knowlesi.
"This is the first direct evidence of platelet protection in any infectious disease in humans," said Associate Professor Brendan McMorran.
The process of killing the parasites is triggered by a toxic platelet peptide called PF4.
The group's findings suggest PF4-based peptides could be potential candidates for malaria treatment in the future.
"My lab has also just reported on the design of such a PF4 peptide and how it may be suited for malaria treatment," said Associate Professor McMorran.
"We had known from our previous studies that PF4 was important for platelets to kill parasites under laboratory conditions but it is very exciting to now discover the molecule is also important in the actual human disease."
"Given platelets show activity in the test-tube in killing many other microbes that infect humans, and low platelets are a risk factor for risk of infection in other human diseases, we should consider platelets to be an important first-line defence in how humans protect themselves from microbes" said Professor Anstey.
More information: Platelets kill circulating parasites of all major Plasmodium species in human malaria. Steven Kho et al. Platelets kill circulating parasites of all major Plasmodium species in human malaria, Blood (2018). DOI: 10.1182/blood-2018-05-849307
Journal information: Blood
Provided by Australian National University