Novel Gallate Triphenylphosphonium Derivatives with Potent Antichagasic Activity

Cortes, Leonel A.; Castro, Lorena; Pesce, Bárbara; Maya, Juan Diego; Ferreira, Jorge; Castro-Castillo, Vicente; Parra, Eduardo; Jara, José A.; López‐Muñoz, Rodrigo

doi:10.1371/journal.pone.0136852

Cited by 30 publications

(28 citation statements)

References 53 publications

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“…22 The triphenylphosphonium (TPP) cation is one of the most successful LC for mitochondria targeting, [23][24][25] and the use of the "TPP strategy" to deliver trypanocidal drugs to the mitochondrion of trypanosomes has recently been demonstrated. 7, Lipophilic cations can cross lipid bilayers by noncarrier mediated transport and accumulate specifically into mitochondria driven by the plasma and mitochondrial transmembrane potentials. [27][28][29][30] The strong accumulation of dications by the charged mitochondria allows the targeting of its various essential functions with relatively low extracellular drug concentrations.…”

Section: Chart 1 Examples Of 24-dihydroxybenzoic Acid and Benzhydromentioning

confidence: 99%

“…4 Hence, this essential organelle represents a good chemotherapeutic target for the development of trypanocidal drugs. [5][6][7] Among the many validated mitochondrial targets of T. brucei (e.g. kDNA and topoisomerases, tRNA import, fatty acid biosynthesis), 8 the mitochondrial respiration of the parasite is a particularly attractive target.…”

Section: Introductionmentioning

confidence: 99%

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Conjugates of 2,4-Dihydroxybenzoate and Salicylhydroxamate and Lipocations Display Potent Antiparasite Effects by Efficiently Targeting the Trypanosoma brucei and Trypanosoma congolense Mitochondrion

et al. 2017

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We investigated a chemical strategy to boost the trypanocidal activity of 2,4dihydroxybenzoic acid (2,4-DHBA)-and salicylhydroxamic acid (SHAM)-based trypanocides with triphenylphosphonium and quinolinium lipophilic cations (LC). Three series of LC conjugates were synthesized that were active in the submicromolar (5a-d and 10d-f) to low nanomolar (6a-f) range against wild-type and multi-drug resistant strains of African trypanosomes (Trypanosoma brucei brucei and T. congolense). This represented an improvement in trypanocidal potency of at least 200fold, and up to >10,000-fold, compared with the non-LC coupled parent compounds 2,4-DHBA and SHAM. Selectivity over human cells was >500 and reached >23,000 for 6e. Mechanistic studies showed that 6e did not inhibit the cell cycle but affected parasite respiration in a dose-dependent manner. Inhibition of the trypanosome alternative oxidase (TAO) and the mitochondrial membrane potential was also studied for selected compounds. We conclude that effective mitochondrial targeting greatly potentiated the activity of these compound series.

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Section: Chart 1 Examples Of 24-dihydroxybenzoic Acid and Benzhydromentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Conjugates of 2,4-Dihydroxybenzoate and Salicylhydroxamate and Lipocations Display Potent Antiparasite Effects by Efficiently Targeting the Trypanosoma brucei and Trypanosoma congolense Mitochondrion

et al. 2017

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“…The most prominent example is triphenylphosphonium (TPP) cation, a positively charged phosphorus atom surrounded by three hydrophobic phenyl groups that impart an extended hydrophobic surface (14). The TPP moiety has been employed as a probe to explore the mitochondrial membrane potential for over 40 years and consequently its behaviour and interaction with mitochondria are well defined (11).…”

Section: Dlcs For Targeting To Mitochondriamentioning

confidence: 99%

Mitochondria targeting nano agents in cancer therapeutics

Zhang

2016

Oncology Letters

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Mitochondria have emerged as noteworthy therapeutic targets as their physiological functions are often altered in pathological conditions such as cancer. The electronic databases of MEDLINE, EMBASE and PubMed were searched for recent studies reporting the importance of mitochondria targeting nanoagents in cancer therapeutics. The concluding remarks of the above papers mostly confirmed the growing potential of these novel nanoagents in the area of anticancer research. Furthermore, numerous studies demonstrated the immense potential of nanocarriers in delivering mitochondria-acting compounds to their target site. Among the assemblage of nanomaterials, carbon nanotubes (CNTs) are becoming more prominent for drug delivery due to favorable attributes including their unique shape, which promotes cellular uptake, and large aspect ratio that facilitates conjugation of bioactive molecules on their surface. The present review focused on the current view of variable options available in mitochondria-targeting anticancer therapeutics. It may be concluded that improvements are essential for its establishment as a gold standard therapeutic option especially in the clinical setting.

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“…Other boronic acids, such as NO-03 and NO-13,a lso exhibited good effects, albeit with less potency than NO-12,a nd NO-13 presented better performance than NO-03.T hese resultsi ndicateb oronic acids as effective platformsu pon which new molecules with improved actions against T. cruzi can be designed.A lso, it seems that the mechanism of action is more favored with para-substituted boronic acids with ester-substituted vinyl nitriles. The EC 50 value measured for NO-12 (0.795 mm)i sm ore than 10 times superior to the EC 50 value described for benznidazole [43] and more than four times superior to the EC 50 value of nifurtimox; [44] both drugs are used in the current therapy of Chagas disease. Boronic acid NO-12 exhibitedl ower potency than bortezomib [45] and DDD85646, both strong proteasome inhibitors with trypanocidal activity against T. brucei.…”

Section: Toxicity Assay In Mammalian Primary Cell Linesmentioning

confidence: 68%

Synthesis and Evaluation of the Anticancer and Trypanocidal Activities of Boronic Tyrphostins

et al. 2018

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Molecules containing an (cyanovinyl)arene moiety are known as tyrphostins because of their ability to inhibit proteins from the tyrosine kinase family, an interesting target for the development of anticancer and trypanocidal drugs. In the present work, (E)-(cyanovinyl)benzeneboronic acids were synthesized by Knoevenagel condensations without the use of any catalysts in water through a simple protocol that completely avoided the use of organic solvents in the synthesis and workup process. The in vitro anticancer and trypanocidal activities of the synthesized boronic acids were also evaluated, and it was discovered that the introduction of the boronic acid functionality improved the activity of the boronic tyrphostins. In silico target fishing with the use of a chemogenomic approach suggested that tyrosine-phosphorylation-regulated kinase 1a (DYRK1A) was a potential target for some of the designed compounds.

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Novel Gallate Triphenylphosphonium Derivatives with Potent Antichagasic Activity

Cited by 30 publications

References 53 publications

Conjugates of 2,4-Dihydroxybenzoate and Salicylhydroxamate and Lipocations Display Potent Antiparasite Effects by Efficiently Targeting the Trypanosoma brucei and Trypanosoma congolense Mitochondrion

Conjugates of 2,4-Dihydroxybenzoate and Salicylhydroxamate and Lipocations Display Potent Antiparasite Effects by Efficiently Targeting the Trypanosoma brucei and Trypanosoma congolense Mitochondrion

Mitochondria targeting nano agents in cancer therapeutics

Synthesis and Evaluation of the Anticancer and Trypanocidal Activities of Boronic Tyrphostins

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