University of Pretoria-led study finds aloe plant could impede malaria course

Experts at the University of Pretoria are a step closer to finding a drug that could prevent transmission of the malaria-carrying parasite Plasmodium falciparum. Picture: African News Agency (ANA)

Experts at the University of Pretoria are a step closer to finding a drug that could prevent transmission of the malaria-carrying parasite Plasmodium falciparum. Picture: African News Agency (ANA)

Published Feb 15, 2023

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Pretoria - Experts at the University of Pretoria (UP) are a step closer to finding a drug that could prevent transmission of the malaria-carrying parasite Plasmodium falciparum by thwarting its life cycle.

Sephora Mianda Mutombo, a PhD candidate in the Department of Chemistry at UP, was the lead author of a study published in the Journal of Ethnopharmacology that investigated the indigenous succulent Aloe Marlothii for its ability to kill or stop the proliferation of malaria parasites.

The study found that natural active ingredients in the roots of this aloe species have anti-plasmodial properties that have the potential to kill all the phases of the malaria-carrying Plasmodium falciparum parasite and block the all-important transmission.

“The parasite that causes malaria has a very complex life cycle, which occurs in two hosts, humans and Anopheles mosquitoes,” Mutombo explained.

“In humans, the parasite goes through distinctive stages of development in the liver, then the bloodstream by infecting red blood cells.

“This is known as the asexual intra-erythrocytic cycle of development.

“A small portion of asexual parasites commit and differentiate into sexual forms of the parasite known as gametocytes (males and females).”

These are the terminal parasitic stages of the parasite, which is transmitted to the mosquito when the insect feeds on the blood of an infected person.

The sexual cycle of the parasite then takes place in the mosquito.

“All antimalarial drugs, with the exception of primaquine, target the asexual stages of the parasites, meaning they kill the parasites during their asexual intra-erythrocytic cycle of development.

“So an individual who has been treated for malaria with antimalarial drugs that are currently on the market can still transmit the parasite to mosquitoes, because the sexual forms of the parasite were not killed.

“Therefore, to contribute to the eradication of malaria, we need compounds that will kill the sexual forms of the parasites, thereby preventing the transmission of Plasmodium from human to mosquitoes.”

Southern Africa is known for its rich biodiversity and traditional knowledge, and is a significant source of natural compounds that can be developed for the treatment of malaria, yet no approved treatments from the region have come to fruition.

This is unsurprising, however, as it is estimated that out of every 10  000 samples, only one is approved by the US Food and Drug Administration as a drug or pharmaceutical.

It could be that a systematic investigation of southern African resources has not been undertaken, and that the research process is fragmented rather than collaborative.

“In order to increase the chances of success, modern-day drug discovery now relies on the use of a library of samples for a high throughput of biological assaying against diseases such as malaria, together with hyphenated analytical techniques to rapidly identify bioactive compounds,” Mutombo said.

UP’s bio-discovery centre hosts a plant materials repository that contains more than 11  000 plant samples systematically collected throughout South Africa.

The centre is under the directorship of the Department of Chemistry’s Professor Vinesh Maharaj, Deputy Dean of Research and Postgraduate Education at UP’s Faculty of Natural and Agricultural Sciences, and a co-author of the study.

A natural product library is being built from these samples, which are a collection of extracts, purified fractions and compounds obtained, stored in standardised formats in robotic freezers and readily deliverable to biological screening assays.

The information associated with each sample is stored in a database.

Mutombo’s work was done on 300 samples from the library in conjunction with modern technologies to assist in rapid identification of antimalarial drug candidates from plant material stored in the repository.

“We can use all of these resources to contribute to malaria eradication, bearing in mind that malaria is still one of the most severe public health problems worldwide, especially in Africa,” Maharaj said.

“The huge burden of malaria cases and death is carried by the African region, and accounts for about 95% of malaria cases and 96% of malaria deaths.

“Sadly, children under 5 years old make up an estimated 80% of all malaria deaths. Clearly this is an African problem and as Africans, we would like to contribute to the solution.”

Pretoria News