Marine Guanidine Alkaloids Inhibit Malaria Parasites Development in In Vitro, In Vivo and Ex Vivo Assays
journal contribution
posted on 2025-04-15, 20:47 authored by Giovana
Rossi Mendes, Anderson L. Noronha, Igor M. R. Moura, Natália
Menezes Moreira, Vinícius Bonatto, Camila S. Barbosa, Sarah El Chamy Maluf, Guilherme Eduardo
de Souza, Marcelo Rodrigues de Amorim, Anna Caroline
Campos Aguiar, Fabio C. Cruz, Amália
dos Santos Ferreira, Carolina B. G. Teles, Dhelio B. Pereira, Eduardo Hajdu, Antonio G. Ferreira, Roberto G. S. Berlinck, Rafael Victorio Carvalho GuidoMalaria is a disease caused by pathogenic protozoa Plasmodium spp., with a significant global impact on human
health. Increasing
resistance of P. falciparum strains
to drugs treating malaria highlights the urgent need for the discovery
of new antimalarial candidates. Batzelladines are marine guanidine
alkaloids that exhibit potent antiparasitic activity. Herein, results
of the parasitological profiling assessment of batzelladines F and
L are reported. Both compounds exhibited potent antiplasmodial activity,
moderate cytotoxicity, and suitable selectivity indexes. Batzelladines
F and L are fast-acting P. falciparum inhibitors, with a pronounced inhibitory activity against resistant
strains and laboratory-adapted clinical isolates of P. falciparum. Batzelladines F and L also demonstrated ex vivo activity against clinical isolates of P. falciparum and P. vivax, and batzelladine F showed in vivo antimalarial
activity in a P. berghei malaria model.
The results reported constitute a robust rationale for the development
of guanidine alkaloid derivatives as lead candidates for malaria treatment.
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suitable selectivity indexessignificant global impactparasitological profiling assessmentmarine guanidine alkaloidsguanidine alkaloid derivativesbatzelladine f showedberghei malaria modelpronounced inhibitory activitynew antimalarial candidatesl also demonstratedadapted clinical isolatesex vivo results reported constituteclinical isolatesvivo lead candidatesantimalarial activitymalaria treatmentassays malariavitro plasmodium urgent needspp .,robust rationaleresistant strainspathogenic protozoamoderate cytotoxicityincreasing resistancehuman healthdisease causedbatzelladines f
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