Transmission-Blocking Potential of MEFAS, a Hybrid Compound Derived from Artesunate and Mefloquine

Penna-Coutinho, Julia; Almela, María Jesús; Miguel-Blanco, Celia; Herreros, Esperanza; Sá, Paula M.; Boechat, Núbia; Krettli, Antoniana U.

doi:10.1128/aac.02216-15

Cited by 18 publications

(5 citation statements)

References 16 publications

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“…Discovering and developing new drugs, active against the sexual and asexual forms of the parasite, 6 and increasing new available antimalarial options, should reduce the dilemma of malaria control, which has few therapeutic alternatives.…”

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confidence: 99%

Commercial drugs containing flavonoids are active in mice with malaria and in vitro against chloroquine-resistant Plasmodium falciparum

Penna-Coutinho

Aguiar

Krettli

2018

Mem. Inst. Oswaldo Cruz

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BACKGROUND The main strategy to control human malaria still relies on specific drug treatment, limited now by Plasmodium falciparum-resistant parasites, including that against artemisinin derivatives. Despite the large number of active compounds described in the literature, few of them reached full development against human malaria. Drug repositioning is a fast and less expensive strategy for antimalarial drug discovery, because these compounds are already approved for human use. OBJECTIVES To identify new antimalarial drugs from compounds commercially available and used for other indications. METHODS Accuvit®, Ginkgo® and Soyfit®, rich in flavonoids, and also the standard flavonoids, hesperidin, quercetin, and genistein were tested against blood cultures of chloroquine-resistant P. falciparum, as well as chloroquine, a reference antimalarial. Inhibition of parasite growth was measured in immunoenzymatic assay with monoclonal anti-P. falciparum antibodies, specific to the histidine-rich protein II. Tests in mice with P. berghei malaria were based on percent of parasitaemia reduction. These compounds were also evaluated for in vitro cytotoxicity. FINDINGS The inhibition of parasite growth in vitro showed that Accuvit® was the most active drug (IC50 5 ± 3.9 μg/mL). Soyfit® was partially active (IC50 13.6 ± 7.7 μg/mL), and Ginkgo® (IC50 38.4 ± 14 μg/mL) was inactive. All such compounds were active in vivo at a dose of 50 mg/kg body weight. Accuvit® and quercetin induced the highest reduction of P. berghei parasitaemia (63% and 53%, respectively) on day 5 after parasite inoculation. As expected, the compounds tested were not toxic. MAIN CONCLUSIONS The antimalarial activity of Accuvit® was not related to flavonoids only, and it possibly results from synergisms with other compounds present in this drug product, such as multivitamins. Multivitamins in Accuvit® may explain its effect against the malaria parasites. This work demonstrated for the first time the activity of these drugs, which are already marketed.

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confidence: 99%

Commercial drugs containing flavonoids are active in mice with malaria and in vitro against chloroquine-resistant Plasmodium falciparum

Penna-Coutinho

Aguiar

Krettli

2018

Mem. Inst. Oswaldo Cruz

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“…Reports so far indicate that hybrid molecules are effective against all Plasmodium species including resistant strains ( Lödige and Hiersch, 2015 ). Notably, MEFAS, a hybrid compound of mefloquine and artesunate, was highly effective against chloroquine-resistant strains and also exhibited low cytotoxicity ( Varotti et al, 2008 ; Penna-Coutinho et al, 2016 ). Peptide-quinine hybrid compounds have also been synthesized.…”

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confidence: 99%

Antimalarial and antioxidant activities of novel artesunate-ellagic acid hybrid compound in vitro and in vivo

Ishola,

Adebayo,

Ceravolo

et al. 2024

Front. Pharmacol.

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Introduction: Emergence of drug resistant strains of Plasmodium species has necessitated the search for novel antimalarials with unique mechanisms of action. Synthesis of hybrid compounds has been one approach to tackling this challenge. In this study, the synthesis of artesunate-ellagic acid hybrid compound (EA31) from ellagic acid and artesunate and its evaluation for antimalarial and antioxidant activities using in vitro and in vivo models were carried out.Method: EA31 was synthesized from artesunate and ellagic acid. The activities of the hybrid compound against Plasmodium falciparum W2 and P. berghei NK65 were evaluated, and its antioxidant activities were also determined.Results: The results revealed that EA31 was more active against P. falciparum W2 (chloroquine resistant) clone and less cytotoxic to buffalo green monkey kidney cell line compared to artesunate. EA31 was also active against Plasmodium berghei NK65 in vivo. The results revealed inhibition of β-hematin formation as one of the mechanisms of action of EA31. EA31 also exhibited antioxidant activities.Conclusion: The results revealed that EA31 may exert dual action of killing malaria parasite and mopping the reactive oxygen species that mediate the secondary complications of malaria.

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“…The combined fixed dose of ASMQ (artesunate + mefloquine) was 3-fold more toxic than MEFAS [42]. MEFAS has been demonstrated to be an active blood schizonticidal and can also block the infectivity of P. falciparum gametocytes, 280- and 15-fold more effectively than mefloquine and artesunate alone, respectively [43]. These results make this compound very promising to target both the asexual parasites and gametocytes, improving the antimalarial effects.…”

Section: Introductionmentioning

confidence: 99%

The Development of Novel Compounds Against Malaria: Quinolines, Triazolpyridines, Pyrazolopyridines and Pyrazolopyrimidines

et al. 2019

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Based on medicinal chemistry tools, new compounds for malaria treatment were designed. The scaffolds of the drugs used to treat malaria, such as chloroquine, primaquine, amodiaquine, mefloquine and sulfadoxine, were used as inspiration. We demonstrated the importance of quinoline and non-quinoline derivatives in vitro with activity against the W2 chloroquine-resistant (CQR) Plasmodium falciparum clone strain and in vivo against Plasmodium berghei-infected mouse model. Among the quinoline derivatives, new hybrids between chloroquine and sulfadoxine were designed, which gave rise to an important prototype that was more active than both chloroquine and sulfadoxine. Hybrids between chloroquine–atorvastatin and primaquine–atorvastatin were also synthesized and shown to be more potent than the parent drugs alone. Additionally, among the quinoline derivatives, new mefloquine derivatives were synthesized. Among the non-quinoline derivatives, we obtained excellent results with the triazolopyrimidine nucleus, which gave us prototype I that inspired the synthesis of new heterocycles. The pyrazolopyrimidine derivatives stood out as non-quinoline derivatives that are potent inhibitors of the P. falciparum dihydroorotate dehydrogenase (PfDHODH) enzyme. We also examined the pyrazolopyridine and pyrazolopyrimidine nuclei.

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Transmission-Blocking Potential of MEFAS, a Hybrid Compound Derived from Artesunate and Mefloquine

Cited by 18 publications

References 16 publications

Commercial drugs containing flavonoids are active in mice with malaria and in vitro against chloroquine-resistant Plasmodium falciparum

Commercial drugs containing flavonoids are active in mice with malaria and in vitro against chloroquine-resistant Plasmodium falciparum

Antimalarial and antioxidant activities of novel artesunate-ellagic acid hybrid compound in vitro and in vivo

The Development of Novel Compounds Against Malaria: Quinolines, Triazolpyridines, Pyrazolopyridines and Pyrazolopyrimidines

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