Glycosylated metal chelators as anti-parasitic agents with tunable selectivity

Reddy, Andrew; Sangenito, Leandro S.; Guedes, Arthur de Azevedo; Branquinha, Marta H.; Kavanagh, Kevin; McGinley, John; Santos, André Luis Souza dos; Velasco‐Torrijos, Trinidad

doi:10.1039/c6dt04615k

Cited by 11 publications

(24 citation statements)

References 55 publications

(60 reference statements)

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“…Unfortunately, their equally high toxicity on mammalian 293T embryonic kidney cells and J774.1 macrophages meant that these manganese compounds had low selectivity for Leishmania. 225 The complexes are well tolerated by mammalian macrophage cells. Zn(II) complexes had good activity against the L. amazonensis promastigotes, while Cu(II) complexes were unable to inhibit the proliferation of the promastigotes.…”

Section: Chemical Reviewsmentioning

confidence: 99%

“…Several modes of action for antileishmanial Zn(II) complexes have been discussed in the literature: inhibition of enzymes essential for parasite carbohydrate metabolism (Embden–Meyerhof pathway); selective recognition of anionic cell surfaces through electrostatic attraction, and specific coordination of cations with phospholipids in the cell membrane. The zinc-based study was conducted by Reddy et al, who in 2017 reported a series of Cu(II) and Zn(II) complexes derived from amino- and iminopyridyl ligands . The complexes are well tolerated by mammalian macrophage cells.…”

Section: Leishmaniasismentioning

confidence: 99%

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Metal Compounds against Neglected Tropical Diseases

et al. 2018

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Many first-line treatments for neglected tropical diseases identified by the World Health Organization (WHO) are limited by one or more of the following: the development of drug resistance, toxicity, and side effects, lack of selectivity, narrow therapeutic indices, route of administration, and bioavailability. As such, there is an urgent need to develop viable alternatives to overcome these limitations. The following review provides an overview of all existing metal complexes studied and evaluates the status of these complexes on the respective disease of choice.

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Section: Chemical Reviewsmentioning

confidence: 99%

Section: Leishmaniasismentioning

confidence: 99%

Metal Compounds against Neglected Tropical Diseases

et al. 2018

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“…The significant efficacies displayed for the Zn-ITZ complexes against the protozoa and fungi demonstrated that these metal complexes might act as multitarget drugs, where itraconazole inhibits sterol 14-␣ demethylases of the parasitic cytochrome P-450 (38), while zinc (an essential trace element for human survival; it has clinical relevance) could act by modes of action already reported (39,40) or by new ones, which we plan to evaluate in future studies. Thus, we plan to determine in the mechanisms of action in future studies to better understand the contribution of both parts of these new chemical identities.…”

Section: Resultsmentioning

confidence: 99%

Synthesis and Biological Activity of Novel Zinc-Itraconazole Complexes in Protozoan Parasites and Sporothrix spp

Azevedo-França

Granado

Silva

et al. 2020

Antimicrob Agents Chemother

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The new complexes Zn(ITZ)2Cl2 (1) and Zn(ITZ)2(OH)2 (2) were synthetized by a reaction of itraconazole with their respective zinc salts under reflux. These Zn-ITZ complexes were characterized by elemental analyses, molar conductivity, mass spectrometry, 1H and 13C{1H} nuclear magnetic resonance, and UV-vis and infrared spectroscopies. The antiparasitic and antifungal activity of Zn-ITZ complexes was evaluated against three protozoans of medical importance, namely, Leishmania amazonensis, Trypanosoma cruzi, and Toxoplasma gondii, and two fungi, namely, Sporothrix brasiliensis and Sporothrix schenckii. The Zn-ITZ complexes exhibited a broad spectrum of action, with antiparasitic and antifungal activity in low concentrations. The strategy of combining zinc with ITZ was efficient to enhance ITZ activity since Zn-ITZ-complexes were more active than the azole alone. This study opens perspectives for future applications of these Zn-ITZ complexes in the treatment of parasitic diseases and sporotrichosis.

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“…The cancer cells glucose metabolism can be exploited for targeted therapy [60], and consequently, glycoconjugates of various metal complexes were explicitly designed for selective uptake by cells overexpressing glucose transporters [61][62][63]. Apart cancer-specific treatment [39,[41][42][43][64][65][66][67], alternative utilizations of this type of hybrids, as for example antiparasitic therapy, also received a lot of interest [68][69][70].…”

Section: Figurementioning

confidence: 99%

Trithiolato-Bridged Dinuclear Arene Ruthenium(ll)- Glycoconjugates: Synthesis and Antiparasitic Activity

Holzer

Desiatkina

Anghel

et al. 2022

Preprint

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Eight novel carbohydrate-tethered trithiolato dinuclear ruthenium(II)-arene complexes were synthesized using CuAAC 'click' (Cu(I)-catalyzed azide-alkyne cycloaddition) reactions and, together with the diruthenium intermediates, were assessed for their in vitro activity against transgenic Toxoplasma gondii (T. gondii) tachyzoites constitutively expressing β-galactosidase (T. gondii β-gal), and for their cytotoxicity in non-infected host cells (human foreskin fibroblasts, HFFs). The results revealed that the biological activity of the hybrids was influenced by both the nature of the carbohydrate (glucose or galactose) attached to the ruthenium complex and the type/length of the linker between the two units. For seven selected diruthenium-carbohydrate conjugates, the values of the half-maximal inhibitory concentration (IC50) on T. gondii β-gal and HFFs viability for a compound concentration of 2.5 μM were measured. Remarkably, two galactose-diruthenium conjugates, 23 and 26, performed significantly better than the corresponding unlabeled diruthenium complexes and the standard drug Pyrimethamine, with very low IC50 values (23: IC50 = 0.032 μM, 26: IC50 = 0.153 μM, Pyrimethamine, IC50 = 0.326 μM) and a very low toxicity on HFFs (viability 92% for 23 and 97% for 26). Overall, our study shows that conjugation of carbohydrates to diruthenium compounds is a promising approach to develop new effective antiparasitic compounds with reduced toxicity.

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Glycosylated metal chelators as anti-parasitic agents with tunable selectivity

Cited by 11 publications

References 55 publications

Metal Compounds against Neglected Tropical Diseases

Metal Compounds against Neglected Tropical Diseases

Synthesis and Biological Activity of Novel Zinc-Itraconazole Complexes in Protozoan Parasites and Sporothrix spp

Trithiolato-Bridged Dinuclear Arene Ruthenium(ll)- Glycoconjugates: Synthesis and Antiparasitic Activity

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