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NOVEL COMPOUND INTERRUPTS MALARIA PARASITE’S LIFECYCLE (4 notícias)

Publicado em 07 de outubro de 2019

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An international group of researchers has proven that a molecule called TCMDC- can selectively inhibit a protein that is essential to the lifecycle ofPlasmodium falciparum, one of the parasites that causes malaria.

The results of the study, justpublishedin the journalScience, pave the way for the development of a new antimalarial drug. Malaria kills nearly people per year, and more than 200 million new cases of the disease are reported annually. One of the obstacles to eradication is the parasite’s emerging resistance to existing drugs.

The authors of the journal article include members of the University of Campinas’s Center for Medicinal Chemistry (CQMED-UNICAMP) in São Paulo State. CQMED is a unit of the Brazilian Agency for Industrial Research and Innovation (EMBRAPII) that specializes in biopharmaceuticals and pharmaceuticals. It is headed by Professor Paulo Arruda and supported by São Paulo Research Foundation – (FAPESP) through the foundation’s Research Partnership for Technological Innovation (PITE).

CQMED also belongs to the Structural Genomics Consortium (SGC), an international network that works to accelerate drug discovery through open-access research by scientists at universities, pharmaceutical companies and nonprofit organizations.

The article shows that the molecule TCMDC-, which is synthesized by global pharmaceutical giant GSK, acts specifically onP. falciparum‘s cyclin-dependent-like protein kinase PfCLK3 without affecting human proteins.

“Inhibition of PfCLK3 affects the parasite in both the asexual stage of its development, when it proliferates in human cells and causes symptoms, and the sexual stage, when it can be transmitted back to the vector insect, repeating the cycle by infecting other humans,” saidPaulo Godoi, who conducted the research during a postdoctoral fellowship with CQMED.

Dev Sriranganadane, currently on a postdoctoral internship at CQMED, also took part in the study. The research was led by Andrew Tobin, Professor of Molecular Pharmacology at the University of Glasgow in the UK.

“The UNICAMP group played a key role in this project. They were able to say whether our drug might have other effects in addition to inhibiting PfCLK3. Without that information we couldn’t have proceeded with the study,” Tobin told.

Because parasites of the genusPlasmodiumare becoming increasingly resistant to existing antimalarials, novel compounds with the potential to be developed into drugs that prevent transmission and may even cure the disease are urgently needed.

“This PfCLK3 inhibitor is highly promising, as it can eliminate the parasite in all stages of its lifecycle,” Godoi said.

PfCLK3 controls the activity and production of other proteins required by the parasite to stay alive. By blocking these, TCMDC- killsP. falciparumand not only prevents transmission but can also treat the disease in humans.

In a high-throughput screening assay to identify selective PfCLK3 inhibitors, the researchers analyzed compounds and selected TCMDC- because it showed the highest selectivity and potency in this regard.

The study also suggests that this molecule is effective against other species ofPlasmodium. According to Godoi, in vitro trials showed activity against CLK3 in cultured cells of P. viva, P. knowlesi andP. berghei.

“We also tested it in mice infected withP. berghei. The results of this in vivo trial showed that the parasite was eliminated from the bloodstream after five days of infection,” he said.

Brazilian contribution

To be considered safe, molecules that are drug candidates must not interfere with human proteins. Parasites of the genusPlasmodiumand humans have protein kinases, which orchestrate the activity of almost all cellular processes. The human kinase that most closely resemblesPlasmodium‘s PfCLK3 is PRPF4B. Tobin asked CQMED to confirm that TCMDC- was safe because its members are among the few scientists who study the functions of PRPF4B.

“We had PRPF4B interact with the new molecule at different concentrations, and it proved unable to inhibit the human kinase even at the highest concentration,” Godoi said.

To guarantee the molecule’s safety so that drug development could proceed, the researchers had to show that it did not affect the activity of the proteins required by humans. “We focused on a protein that’s rarely been studied. The outcome was positive because it enabled this new study, which demonstrated major potential for the development of a new drug,” said Rafael Couñago, CQMED’s scientific coordinator.

To become a drug, however, this inhibitor will have to be submitted to more tests. “We need to improve the molecule’s safety even more. Then, it will be ready for trials in humans. That stage will take between three and five years,” Tobin said.

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About São Paulo Research Foundation (FAPESP)

The São Paulo Research Foundation (FAPESP) is a public institution with the mission of supporting scientific research in all fields of knowledge by awarding scholarships, fellowships and grants to investigators linked with higher education and research institutions in the State of São Paulo, Brazil. FAPESP is aware that the very best research can only be done by working with the best researchers internationally. Therefore, it has established partnerships with funding agencies, higher education, private companies, and research organizations in other countries known for the quality of their research and has been encouraging scientists funded by its grants to further develop their international collaboration. You can learn more about FAPESP athttp://www.fapesp.br/enand visit FAPESP news agency athttp://www.agencia.fapesp.br/ento keep updated with the latest scientific breakthroughs FAPESP helps achieve through its many programs, awards and research centers. You may also subscribe to FAPESP news agency athttp://agencia.fapesp.br/subscribe.

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Fonte/Source:https://www.eurekalert.org/pub_releases/2019-10/fda-nci100719.php