Exploring Subtilisin Inhibition to Discover Antimalarial Drugs: Insights into Medicinal Chemistry and Drug Discovery.

Malaria is a tropical disease caused by the parasite sp., which is considered a significant public health challenge, particularly in Africa. Among the species related to human infection, and are known for their high incidence and pathogenicity. Despite several approved drugs in the treatment, the increase in resistance mechanisms is becoming increasingly prevalent, which makes the discovery of effective and safer drugs challenging. Thus, it is necessary to explore new mechanisms of action for the discovery of innovative antimalarial agents. Among the explored targets, proteases, especially subtilisin, have shown great promise in the development of new therapeutic options. : A narrative review was conducted using the main databases to provide critical information about the subtilisin to design antimalarial drugs. Critical data were found about the isoforms of subtilisins, highlighting SUB1 and SUB2. SBDD approaches were able to show that compounds designed to target the catalytic Asp, His, and Ser, and other such Leu, Gly, and Asn against SUB1, presented critical results. In addition, quinoline, benzopyran, and triterpene derivatives and peptide inhibitors show their importance, and these scaffolds can be explored in further work. : Considering the relevance of this target, this review provided insights into medicinal chemistry, the discovery of antimalarial drugs that act by inhibiting subtilisin, and promoted a promising initiative to combat malaria.