Optimization of 4-aminoquinoline/clotrimazole-based hybrid antimalarials: Further structure-activity relationships, in vivo studies, and preliminary toxicity profiling

Sandra Gemma; Caterina Camodeca; Salvatore Sanna Coccone; Bhupendra P. Joshi; Matteo Bernetti; Vittoria Moretti; Simone Brogi; Maria Cruz Bonache De Marcos; Luisa Savini; Donatella Taramelli; Nicoletta Basilico; Silvia Parapini; Matthias Rottmann; Reto Brun; Stefania Lamponi; Silvio Caccia; Giovanna Guiso; Robert L. Summers; Rowena E. Martin; Simona Saponara; Beatrice Gorelli; Ettore Novellino; Giuseppe Campiani; Stefania Butini

doi:10.1021/jm300802s

Optimization of 4-aminoquinoline/clotrimazole-based hybrid antimalarials: Further structure-activity relationships, in vivo studies, and preliminary toxicity profiling

Sandra Gemma, Caterina Camodeca, Salvatore Sanna Coccone, Bhupendra P. Joshi, Matteo Bernetti, Vittoria Moretti, Simone Brogi, Maria Cruz Bonache De Marcos, Luisa Savini, Donatella Taramelli, Nicoletta Basilico, Silvia Parapini, Matthias Rottmann, Reto Brun, Stefania Lamponi, Silvio Caccia, Giovanna Guiso, Robert L. Summers, Rowena E. Martin, Simona SaponaraBeatrice Gorelli, Ettore Novellino, Giuseppe Campiani^*, Stefania Butini

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

Despite recent progress in the fight against malaria, the emergence and spread of drug-resistant parasites remains a serious obstacle to the treatment of infections. We recently reported the development of a novel antimalarial drug that combines the 4-aminoquinoline pharmacophore of chloroquine with that of clotrimazole-based antimalarials. Here we describe the optimization of this class of hybrid drug through in-depth structure-activity relationship studies. Antiplasmodial properties and mode of action were characterized in vitro and in vivo, and interactions with the parasites 'chloroquine resistance transporter' were investigated in a Xenopus laevis oocyte expression system. These tests indicated that piperazine derivatives 4b and 4d may be suitable for coadministration with chloroquine against chloroquine-resistant parasites. The potential for metabolism of the drugs by cytochrome P450 was determined in silico, and the lead compounds were tested for toxicity and mutagenicity. A preliminary pharmacokinetic analysis undertaken in mice indicated that compound 4b has an optimal half-life.

Original language	English
Pages (from-to)	6948-6957
Number of pages	10
Journal	Journal of Medicinal Chemistry
Volume	55
Issue number	15
DOIs	https://doi.org/10.1021/jm300802s
Publication status	Published - 9 Aug 2012

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Gemma, S., Camodeca, C., Sanna Coccone, S., Joshi, B. P., Bernetti, M., Moretti, V., Brogi, S., De Marcos, M. C. B., Savini, L., Taramelli, D., Basilico, N., Parapini, S., Rottmann, M., Brun, R., Lamponi, S., Caccia, S., Guiso, G., Summers, R. L., Martin, R. E., ... Butini, S. (2012). Optimization of 4-aminoquinoline/clotrimazole-based hybrid antimalarials: Further structure-activity relationships, in vivo studies, and preliminary toxicity profiling. Journal of Medicinal Chemistry, 55(15), 6948-6957. https://doi.org/10.1021/jm300802s

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title = "Optimization of 4-aminoquinoline/clotrimazole-based hybrid antimalarials: Further structure-activity relationships, in vivo studies, and preliminary toxicity profiling",

abstract = "Despite recent progress in the fight against malaria, the emergence and spread of drug-resistant parasites remains a serious obstacle to the treatment of infections. We recently reported the development of a novel antimalarial drug that combines the 4-aminoquinoline pharmacophore of chloroquine with that of clotrimazole-based antimalarials. Here we describe the optimization of this class of hybrid drug through in-depth structure-activity relationship studies. Antiplasmodial properties and mode of action were characterized in vitro and in vivo, and interactions with the parasites 'chloroquine resistance transporter' were investigated in a Xenopus laevis oocyte expression system. These tests indicated that piperazine derivatives 4b and 4d may be suitable for coadministration with chloroquine against chloroquine-resistant parasites. The potential for metabolism of the drugs by cytochrome P450 was determined in silico, and the lead compounds were tested for toxicity and mutagenicity. A preliminary pharmacokinetic analysis undertaken in mice indicated that compound 4b has an optimal half-life.",

author = "Sandra Gemma and Caterina Camodeca and {Sanna Coccone}, Salvatore and Joshi, {Bhupendra P.} and Matteo Bernetti and Vittoria Moretti and Simone Brogi and {De Marcos}, {Maria Cruz Bonache} and Luisa Savini and Donatella Taramelli and Nicoletta Basilico and Silvia Parapini and Matthias Rottmann and Reto Brun and Stefania Lamponi and Silvio Caccia and Giovanna Guiso and Summers, {Robert L.} and Martin, {Rowena E.} and Simona Saponara and Beatrice Gorelli and Ettore Novellino and Giuseppe Campiani and Stefania Butini",

year = "2012",

month = aug,

day = "9",

doi = "10.1021/jm300802s",

language = "English",

volume = "55",

pages = "6948--6957",

journal = "Journal of Medicinal Chemistry",

issn = "0022-2623",

publisher = "American Chemical Society",

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Gemma, S, Camodeca, C, Sanna Coccone, S, Joshi, BP, Bernetti, M, Moretti, V, Brogi, S, De Marcos, MCB, Savini, L, Taramelli, D, Basilico, N, Parapini, S, Rottmann, M, Brun, R, Lamponi, S, Caccia, S, Guiso, G, Summers, RL, Martin, RE, Saponara, S, Gorelli, B, Novellino, E, Campiani, G & Butini, S 2012, 'Optimization of 4-aminoquinoline/clotrimazole-based hybrid antimalarials: Further structure-activity relationships, in vivo studies, and preliminary toxicity profiling', Journal of Medicinal Chemistry, vol. 55, no. 15, pp. 6948-6957. https://doi.org/10.1021/jm300802s

Optimization of 4-aminoquinoline/clotrimazole-based hybrid antimalarials: Further structure-activity relationships, in vivo studies, and preliminary toxicity profiling. / Gemma, Sandra; Camodeca, Caterina; Sanna Coccone, Salvatore et al.
In: Journal of Medicinal Chemistry, Vol. 55, No. 15, 09.08.2012, p. 6948-6957.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Optimization of 4-aminoquinoline/clotrimazole-based hybrid antimalarials

T2 - Further structure-activity relationships, in vivo studies, and preliminary toxicity profiling

AU - Gemma, Sandra

AU - Camodeca, Caterina

AU - Sanna Coccone, Salvatore

AU - Joshi, Bhupendra P.

AU - Bernetti, Matteo

AU - Moretti, Vittoria

AU - Brogi, Simone

AU - De Marcos, Maria Cruz Bonache

AU - Savini, Luisa

AU - Taramelli, Donatella

AU - Basilico, Nicoletta

AU - Parapini, Silvia

AU - Rottmann, Matthias

AU - Brun, Reto

AU - Lamponi, Stefania

AU - Caccia, Silvio

AU - Guiso, Giovanna

AU - Summers, Robert L.

AU - Martin, Rowena E.

AU - Saponara, Simona

AU - Gorelli, Beatrice

AU - Novellino, Ettore

AU - Campiani, Giuseppe

AU - Butini, Stefania

PY - 2012/8/9

Y1 - 2012/8/9

N2 - Despite recent progress in the fight against malaria, the emergence and spread of drug-resistant parasites remains a serious obstacle to the treatment of infections. We recently reported the development of a novel antimalarial drug that combines the 4-aminoquinoline pharmacophore of chloroquine with that of clotrimazole-based antimalarials. Here we describe the optimization of this class of hybrid drug through in-depth structure-activity relationship studies. Antiplasmodial properties and mode of action were characterized in vitro and in vivo, and interactions with the parasites 'chloroquine resistance transporter' were investigated in a Xenopus laevis oocyte expression system. These tests indicated that piperazine derivatives 4b and 4d may be suitable for coadministration with chloroquine against chloroquine-resistant parasites. The potential for metabolism of the drugs by cytochrome P450 was determined in silico, and the lead compounds were tested for toxicity and mutagenicity. A preliminary pharmacokinetic analysis undertaken in mice indicated that compound 4b has an optimal half-life.

AB - Despite recent progress in the fight against malaria, the emergence and spread of drug-resistant parasites remains a serious obstacle to the treatment of infections. We recently reported the development of a novel antimalarial drug that combines the 4-aminoquinoline pharmacophore of chloroquine with that of clotrimazole-based antimalarials. Here we describe the optimization of this class of hybrid drug through in-depth structure-activity relationship studies. Antiplasmodial properties and mode of action were characterized in vitro and in vivo, and interactions with the parasites 'chloroquine resistance transporter' were investigated in a Xenopus laevis oocyte expression system. These tests indicated that piperazine derivatives 4b and 4d may be suitable for coadministration with chloroquine against chloroquine-resistant parasites. The potential for metabolism of the drugs by cytochrome P450 was determined in silico, and the lead compounds were tested for toxicity and mutagenicity. A preliminary pharmacokinetic analysis undertaken in mice indicated that compound 4b has an optimal half-life.

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U2 - 10.1021/jm300802s

DO - 10.1021/jm300802s

M3 - Article

SN - 0022-2623

VL - 55

SP - 6948

EP - 6957

JO - Journal of Medicinal Chemistry

JF - Journal of Medicinal Chemistry

IS - 15

ER -

Optimization of 4-aminoquinoline/clotrimazole-based hybrid antimalarials: Further structure-activity relationships, in vivo studies, and preliminary toxicity profiling

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