In Silico Study of Histo-Aspartic Protease (HAP) Inhibitor From Indonesian Medicinal Plants: Anti-Malarial Discovery
Date
2021-03-07Author
RANI, Dinar Mutia
HABIBURROHMAN, Muhammad
DEBBY, Yoshinta
TRIATMOKO, Bawon
NUGRAHA, Ari Satia
Metadata
Show full item recordAbstract
Malaria is an infectious disease caused by Plasmodium sp with the highest
clinical incidence of 12.07% in Indonesia. New anti-malaria compounds are
needed to replace antimalarial drugs that are already resistant nowadays.
One of the efforts to find a new anti-malaria drug is through research on traditional medicinal plants used by Indonesian tribes from the
ethnopharmacology database. In silico studies provide saving solutions in the
process of computer-aided drug design. Histo-aspartic protease (HAP) is essential for the growth of Plasmodium falciparum and has been validated as an
antimalarial drug target. Therefore, molecular docking was used to provide
new insights into the development of drugs by targeting HAP protease. There
are 238 compounds from 43 medicinal plants used as targeting ligand in this
study prepared by Autodock Vina for an automated docking tool. The
comprehensive docking protocol was valid showed by the RMSD value of
1,275 Å. The result obtained that AM50 (borrasosides A) from Borassus flabellifer was found to have the least affinity score of -10.1 kcal/mol higher
compared to the native ligand. In conclusion, we are assuming that the
mechanism of borrasosides A compound might get involved with HAP.
Further protocols are required to prove the HAP inhibition towards Plasmodium falciparum
Collections
- LSP-Conference Proceeding [1874]