Dithiolproteine als Hüter des intrazellulären Redoxmilieus bei Parasiten: alte und neue Wirkstoff‐Targets bei Trypanosomiasis und Malaria

Krauth‐Siegel, R. Luise; Bauer, Holger; Schirmer, R. Heiner

doi:10.1002/ange.200300639

Cited by 38 publications

(12 citation statements)

References 218 publications

(260 reference statements)

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“…TR, as the central enzyme of this redox system, has been shown to be essential for parasites, rendering this enzyme a promising target for the development of new antitrypanosomal compounds. [9][10][11] Although the closely related enzymes TR and hGR exhibit approximately 40 % sequence identity, [12] they have a mutually exclusive substrate specificity which is thought to rely on their oppositely charged disulfide substrate binding sites. [13] The significant structural differences between TR und hGR suggest that design of selective inhibitors should be possible.…”

Section: Introductionmentioning

confidence: 99%

“…[15] Nevertheless, various compounds have been identified as inhibitors of TR over the past two decades. [9,10,16] Under physiological conditions, most of these compounds feature a protonated ammonium or a quaternary nitrogen center, which Trypanothione reductase (TR) is an essential enzyme in the trypanothione-based redox metabolism of trypanosomatid parasites. This system is absent in humans and, therefore, offers a promising target for the development of selective new drugs against African sleeping sickness and Chagas' disease.…”

Section: Introductionmentioning

confidence: 99%

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Improved Inhibitors of Trypanothione Reductase by Combination of Motifs: Synthesis, Inhibitory Potency, Binding Mode, and Antiprotozoal Activities

et al. 2010

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Trypanothione reductase (TR) is an essential enzyme in the trypanothione-based redox metabolism of trypanosomatid parasites. This system is absent in humans and, therefore, offers a promising target for the development of selective new drugs against African sleeping sickness and Chagas' disease. Over the past two decades, a variety of nonpeptidic small-molecule ligands of the parasitic enzyme were discovered. A current goal is to decipher the binding mode of these known inhibitors in order to optimize their structures. We analyzed the binding mode of recently reported 1-(1-(benzo[b]thiophen-2-yl)cyclohexyl)piperidine (BTCP) analogues using computer modeling methods. This led us to conclude that the analogues occupy a different region of the active site than the diaryl sulfide-based class of inhibitors. A combination of the two motifs significantly increased affinity for the enzyme compared to the respective parent compounds. The newly synthesized conjugates exhibit K(ic) values for TR as low as 0.51±0.1 μM and high selectivity for the parasitic enzyme over the related human glutathione reductase (hGR), as was predicted by our molecular modeling studies. In vitro studies showed IC(50) values in the low micromolar to submicromolar range against Trypanosoma brucei rhodesiense, often in combination with low cytotoxicity against mammalian cells. Interestingly, even stronger activities were found against Plasmodium falciparum.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Improved Inhibitors of Trypanothione Reductase by Combination of Motifs: Synthesis, Inhibitory Potency, Binding Mode, and Antiprotozoal Activities

et al. 2010

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“…High costs and an increasing number of drug-resistant pathogens render the treatment even more difficult. [6][7][8] New and better antiparasitic agents are therefore urgently needed.…”

Section: Introductionmentioning

confidence: 99%

Synthesis, Inhibition Potency, Binding Mode, and Antiprotozoal Activities of Fluorescent Inhibitors of Trypanothione Reductase Based on Mepacrine‐Conjugated Diaryl Sulfide Scaffolds

et al. 2009

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Trypanothione reductase (TR) is a flavoenzyme unique to trypanosomatid parasites and a target for lead discovery programs. Various inhibitor scaffolds have emerged in the past, exhibiting moderate affinity for the parasite enzyme. Herein we show that the combination of two structural motifs of known TR inhibitors - diaryl sulfides and mepacrine - enables the simultaneous addressing of two hydrophobic patches in the active site. The binding efficacy of these conjugates is enhanced over that of the respective parent inhibitors. They show K(ic) values for the parasite enzyme down to 0.9+/-0.1 microm and exhibit high selectivity for TR over human glutathione reductase (GR). Despite their considerable molecular mass and in some cases permanent positive charges, in vitro studies revealed IC(50) values in the low micromolar to sub-micromolar range against Trypanosoma brucei rhodesiense and Trypanosoma cruzi, as well as the malaria parasite Plasmodium falciparum, which lack trypanothione metabolism. The inhibitors exhibit strong fluorescence due to their aminoacridine moiety. This feature allows visualization of the drugs in the parasite where high accumulation was observed by fluorescence microscopy even after short exposure times.

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“…Various compounds have been discovered over the last decade that moderately inhibit TR. [24] Noticeably, several of them feature a basic or quaternary nitrogen connected through a flexible alkyl chain to a hydrophobic core. One of the prototypes of this inhibitor class are diaryl sulfide-based compounds, first reported by Sergheraert et al [25] and further explored by Douglas et al [26] In order to explore the eligibility of SF 5 as a building block for TR inhibitors and to compare it with the corresponding CF 3 or CA C H T U N G T R E N N U N G (CH 3 ) 3 analogues, we designed and synthesized diarylamine derivatives 1-6, which are structurally related to the known class of diphenyl sulfide inhibitors (Scheme 1).…”

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confidence: 99%

“…[22] New and improved drugs to fight these diseases are urgently needed, as current therapy for all forms of trypanosomiases and leishmaniases is problematic due to the severe adverse effects of the drugs in use, the long duration and high costs of treatment, and an increasing number of drug resistant pathogens. [23,24] In the search for new drugs against trypanosomatid-induced diseases, TR has become an increasingly popular target. Various compounds have been discovered over the last decade that moderately inhibit TR.…”

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Pentafluorosulfanyl as a Novel Building Block for Enzyme Inhibitors: Trypanothione Reductase Inhibition and Antiprotozoal Activities of Diarylamines

et al. 2008

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Dithiolproteine als Hüter des intrazellulären Redoxmilieus bei Parasiten: alte und neue Wirkstoff‐Targets bei Trypanosomiasis und Malaria

Cited by 38 publications

References 218 publications

Improved Inhibitors of Trypanothione Reductase by Combination of Motifs: Synthesis, Inhibitory Potency, Binding Mode, and Antiprotozoal Activities

Improved Inhibitors of Trypanothione Reductase by Combination of Motifs: Synthesis, Inhibitory Potency, Binding Mode, and Antiprotozoal Activities

Synthesis, Inhibition Potency, Binding Mode, and Antiprotozoal Activities of Fluorescent Inhibitors of Trypanothione Reductase Based on Mepacrine‐Conjugated Diaryl Sulfide Scaffolds

Pentafluorosulfanyl as a Novel Building Block for Enzyme Inhibitors: Trypanothione Reductase Inhibition and Antiprotozoal Activities of Diarylamines

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