W. E. Gutteridge scite author profile

A decade of discovery and development of new anti-malarial medicines has led to a renewed focus on malaria elimination and eradication. Changes in the way new anti-malarial drugs are discovered and developed have led to a dramatic increase in the number and diversity of new molecules presently in pre-clinical and early clinical development. The twin challenges faced can be summarized by multi-drug resistant malaria from the Greater Mekong Sub-region, and the need to provide simplified medicines. This review lists changes in anti-malarial target candidate and target product profiles over the last 4 years. As well as new medicines to treat disease and prevent transmission, there has been increased focus on the longer term goal of finding new medicines for chemoprotection, potentially with long-acting molecules, or parenteral formulations. Other gaps in the malaria armamentarium, such as drugs to treat severe malaria and endectocides (that kill mosquitoes which feed on people who have taken the drug), are defined here. Ultimately the elimination of malaria requires medicines that are safe and well-tolerated to be used in vulnerable populations: in pregnancy, especially the first trimester, and in those suffering from malnutrition or co-infection with other pathogens. These updates reflect the maturing of an understanding of the key challenges in producing the next generation of medicines to control, eliminate and ultimately eradicate malaria.

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A potent series targeting the malarial cGMP-dependent protein kinase clears infection and blocks transmission

Baker

et al. 2017

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To combat drug resistance, new chemical entities are urgently required for use in next generation anti-malarial combinations. We report here the results of a medicinal chemistry programme focused on an imidazopyridine series targeting the Plasmodium falciparum cyclic GMP-dependent protein kinase (PfPKG). The most potent compound (ML10) has an IC50 of 160 pM in a PfPKG kinase assay and inhibits P. falciparum blood stage proliferation in vitro with an EC50 of 2.1 nM. Oral dosing renders blood stage parasitaemia undetectable in vivo using a P. falciparum SCID mouse model. The series targets both merozoite egress and erythrocyte invasion, but crucially, also blocks transmission of mature P. falciparum gametocytes to Anopheles stephensi mosquitoes. A co-crystal structure of PvPKG bound to ML10, reveals intimate molecular contacts that explain the high levels of potency and selectivity we have measured. The properties of this series warrant consideration for further development to produce an antimalarial drug.

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Purine and pyrimidine metabolism in the trypanosomatidae

Hammond

Gutteridge

1984

Molecular and Biochemical Parasitology

257

181

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New medicines to improve control and contribute to the eradication of malaria

Wells

Alonso

Gutteridge

2009

Nat Rev Drug Discov

270

158

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Interactions of Atovaquone with Other Antimalarial Drugs against Plasmodium falciparum in Vitro

Canfield¹,

Pudney²,

Gutteridge³

1995

Experimental Parasitology

219

120

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W. E. Gutteridge

New developments in anti-malarial target candidate and product profiles

A potent series targeting the malarial cGMP-dependent protein kinase clears infection and blocks transmission

Purine and pyrimidine metabolism in the trypanosomatidae

New medicines to improve control and contribute to the eradication of malaria

Interactions of Atovaquone with Other Antimalarial Drugs against Plasmodium falciparum in Vitro

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