N-Cinnamoylated Chloroquine Analogues as Dual-Stage Antimalarial Leads

Pérez, Bianca; Teixeira, Cátia; Albuquerque, Inês S.; Gut, Jiří; Rosenthal, Philip J.; Gomes, J.R.; Prudêncio, Miguel; Gomes, Paula

doi:10.1021/jm301654b

Cited by 66 publications

(84 citation statements)

References 32 publications

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“…189b, 194 As already mentioned in the previous section, it was found that the compounds with the dipeptide spacer (170) inhibited in vitro both hemozoin formation and development of blood-stage P. falciparum, while compounds without the spacer (171) were better falcipain-2 (FP2) inhibitors; none of the compounds was a falcipain-3 (FP3) inhibitor. In order to obtain additional knowledge about the FP2 inhibitory capacity of the latter compounds, molecular docking and MD simulations were performed to predict the structures of the complexes between the compounds with or without the dipeptide linker and FP2 (PDB code: 3BPF) or FP3 (PDB code: 3BWK).…”

Section: Aiming At Inhibition Of Other Parasitic Targetsmentioning

confidence: 74%

“…In the case of FP2, the shorter distance between the vinyl bond of the compounds without the linker and the Cys thiolate of the enzyme than for the compounds with the spacer is in line with the experimental observation that the former were better FP2 inhibitors. 194 While molecular docking combined with realistic molecular models is able to provide static information about the most favorable host−guest configurations, MD simulations can be used to gain knowledge on the evolution of the docked configurations with time. In fact, Gomes and co-workers showed that FP2 inhibitory activities measured experimentally could be correlated with the time evolution of the distance between the vinyl bond and the enzyme's Cys thiolate determined from classical MD simulation.…”

Section: Aiming At Inhibition Of Other Parasitic Targetsmentioning

confidence: 99%

“…194 The hybrid that best reached the goal to exert antimalarial activity by inhibiting the two expected targets, i.e. hemozoin formation conferred by the CQ pharmacophore and P. falciparum cysteine protease through the electrophilic warhead of the cinnamic moiety, was 170a.…”

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Section: Aiming At Inhibition Of Other Parasitic Targetsmentioning

confidence: 74%

Section: Aiming At Inhibition Of Other Parasitic Targetsmentioning

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“…Compounds 4-10 were prepared following a straightforward low-cost synthetic pathway, previously reported, and the analytical and structural data were in agreement with formerly published data. 13,14 Compounds' antiproliferative properties against MKN-28 (gastric cancer), Caco-2 (colorectal adenocarcinoma), MCF-7 (breast cancer) and HFF-1 (human foreskin fibroblasts) cell lines were determined according to the National Cancer Institute (NCI, USA) procedure, which uses the protein-binding dye sulforhodamine B.…”

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Recycling antimalarial leads for cancer: Antiproliferative properties of N-cinnamoyl chloroquine analogues

Pérez

Fernandes

Mateus

et al. 2013

Bioorganic & Medicinal Chemistry Letters

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a b s t r a c tCinnamic acids and quinolines are known as useful scaffolds in the discovery of antitumor agents. Therefore, N-cinnamoylated analogues of chloroquine, recently reported as potent dual-action antimalarials, were evaluated against three different cancer cell lines: MKN-28, Caco-2, and MCF-7. All compounds display anti-proliferative activity in the micromolar range against the three cell lines tested, and most of them were more active than their parent drug, chloroquine, against all cell lines tested. Hence, N-cinnamoyl-chloroquine analogues are a good start towards development of affordable antitumor leads.Ó 2013 Elsevier Ltd. All rights reserved.Cancer remains a life threatening disease worldwide despite of available conventional treatments such as surgery, radiotherapy and/or chemotherapy. The still considerable limitations of cancer chemotherapy are mainly associated with low efficacy, high toxicity, and emergence of drug resistance, and not less important their high cost.1 Hence, there is a wide range of scientific approaches to find better chemotherapeutic agents, including those based on recycling or repositioning of well-known drugs used to treat diseases other than cancer. 2 In this connection, both quinolines and cinnamic acids, which are found in different natural resources and widely used for diverse medicinal purposes, 3,4 have demonstrated to constitute scaffolds of great interest for the development of new antitumor agents. 5,6 In one hand, quinoline synthetic versatility promotes the development of large diversity of quinoline analogues. On the other, the 3-phenyl acrylic acid moiety offers three main reactive sites: substitutions at the phenyl ring, additions at the a,b-unsaturated carbonyl moiety, and the carboxylic acid functionality reactions.

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“…To respond to those needs, we have tested the activity of cinnamic acid conjugates of the 8-aminoquinoline primaquine (PQ) and the 4-aminoquinoline chloroquine (CQ) against L. infantum. The rationale for these tests was that (i) these conjugates have been recently reported as interesting antimalarial leads (8)(9)(10) and (ii) PQ (compound 1) and CQ (compound 3) have proven activity against several protozoans, including visceralizing Leishmania (11)(12)(13)(14)(15).…”

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N -Cinnamoylated Aminoquinolines as Promising Antileishmanial Agents

Vale-Costa

Costa-Gouveia

Pérez

et al. 2013

Antimicrob Agents Chemother

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A series of cinnamic acid conjugates of primaquine and chloroquine were evaluated for their in vitro antileishmanial activities. Although primaquine derivatives had modest activity, chloroquine conjugates exhibited potent activity against both promastigotes (50% inhibitory concentration [IC 50 ] ‫؍‬ 2.6 to 21.8 M) and intramacrophagic amastigotes (IC 50 ‫؍‬ 1.2 to 9.3 M) of Leishmania infantum. Both the high activity of these chloroquine analogues and their mild-to-low toxicity toward host cells make them promising leads for the discovery of new antileishmanial agents. Leishmania parasites maintain their life cycle by alternating between promastigotes in the gut of phlebotomine insects and amastigotes inside macrophages of mammalian hosts (1, 2). These protozoa cause leishmaniasis, a complex of mammalian diseases whose clinical symptoms range from self-healing cutaneous lesions to the more severe visceralizing infection (3). Human visceral leishmaniasis (VL) results from infection with L. donovani and L. infantum and is usually fatal if left untreated, accounting for more than 50,000 deaths per year (4, 5). The management of VL relies mainly on chemotherapy with pentavalent antimonials, pentamidine, paromomycin, amphotericin B or its lipid formulations, and miltefosine (5, 6). However, the treatment of this disease is hindered by the limited efficacy, high toxicity, reduced bioavailability, high cost, and parasite resistance to the action of several of the available drugs (7). As such, it is mandatory to develop novel compounds devoid of these limitations. To respond to those needs, we have tested the activity of cinnamic acid conjugates of the 8-aminoquinoline primaquine (PQ) and the 4-aminoquinoline chloroquine (CQ) against L. infantum. The rationale for these tests was that (i) these conjugates have been recently reported as interesting antimalarial leads (8-10) and (ii) PQ (compound 1) and CQ (compound 3) have proven activity against several protozoans, including visceralizing Leishmania (11-15).All the N-cinnamoylated aminoquinolines (compounds 2a to 2k and 5a to 5j) and compound 3b (CQ-C4 [see Table 2]; used as the parent compound for the synthesis of 5a to 5j) were synthesized as previously described (8, 10). Cinnamic acid (compound 4), PQ, CQ (Sigma-Aldrich, Spain), and miltefosine (Cayman Chemicals) were commercially acquired. All test compounds and the reference drugs PQ and miltefosine were dissolved in dimethyl sulfoxide (Sigma), while CQ (sodium salt; Sigma) was dissolved in phosphate-buffered saline (PBS). All solutions were stored at Ϫ20°C until use. Their antileishmanial activity was initially evaluated on the promastigote stage of L. infantum (MHOM/MA/67/ ITMAP-263, zymodeme MON-1; laboratory reference strain [16]). Briefly, promastigotes (1 ϫ 10 6 /well) were cultured at 25°C in complete RPMI medium (Gibco, Life Technologies) (13) supplemented with the different compounds at concentrations between 0.63 and 80 M. The antileishmanial activity was assessed at 72 h of culture by the resazurin meth...

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N-Cinnamoylated Chloroquine Analogues as Dual-Stage Antimalarial Leads

Cited by 66 publications

References 32 publications

“Recycling” Classical Drugs for Malaria

“Recycling” Classical Drugs for Malaria

Recycling antimalarial leads for cancer: Antiproliferative properties of N-cinnamoyl chloroquine analogues

N -Cinnamoylated Aminoquinolines as Promising Antileishmanial Agents

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