Seaweed-Derived Halogenated Monoterpenes as Lead Compounds in Schistosomiasis Control
Sara Guibunda Tajú, Amanda Beatriz da Silva Soares, Patrícia Aoki Miyasato, Rafaela Paula de Freitas, Lenita de Freitas Tallarico, Erika Mattos Stein, Pio Colepicolo, Eliana NakanoBackground/Objectives: Schistosomiasis, a parasitic disease caused by Schistosoma worms with freshwater snails as intermediate hosts, affects over 250 million people. The current control relies solely on praziquantel, which raises concerns on drug resistance and highlights the need for new therapeutic alternatives. Our bioprospection studies have focused on marine macroalgae as an unexplored source of antischistosomal metabolites with promising results. Guided by WHO recommendations to target both the parasite and its transmission vectors, this study aimed to investigate Ochtodes secundiramea to: (i) isolate active metabolites; (ii) evaluate the isolated compounds against adult worms and oviposition to identify leads for drug development; and (iii) perform an independent screening of their effects against the environmental transmission stages on cercariae and B. glabrata embryos. Methods: A dichloromethane extract of O. secundiramea was submitted to an NMR–biomonitored guided fractionation against Schistosoma mansoni adult worms. Active fractions were further purified through HPLC and characterized by 1H and 13C NMR spectroscopy to identify the isolated compounds. Results: Three halogenated monoterpenes were isolated: ochtodene 1 (4-bromo-1,6,8-trichloro-2,3-ochtodene), ochtodene 2 (2-chloro-1,6,8-tribromo-3,8-ochtodene), and the novel natural product ochtodene 3 [2,6-dibromo-4-(2-chloroethylidene)-1,1dimethylcyclohexane]. Ochtodene 1 was the primary active metabolite against Schistosoma mansoni adult worms, with IC50/96 h values of 47.2 and 46.1 µM for male and female worms respectively, and totally suppressed egg laying with 60 µM, while showing no toxicity toward human fibroblasts. Notably, all metabolites, including the novel ochtodene 3, caused 100% mortality in cercariae and embryos at low concentrations. Conclusions: The discovery of the novel ochtodene 3 and the identification of distinct leads for host treatment and transmission elimination position O. secundiramea as a promising source for integrated schistosomiasis control.