In vitro and in vivo activity of a new unsymmetrical dinuclear copper complex containing a derivative ligand of 1,4,7-triazacyclononane: catalytic promiscuity of [Cu2(L)Cl3]

Almeida, Vicente Rodrigues de; Xavier, Fernando R.; Osório, Renata E. H. M. B.; Bessa, Luíza Mamigonian; Schilling, E; Costa, Thiago A.; Bortolotto, Tiago; Cavalett, Angélica; Castro, Frederico Augusto Vieira de; Vilhena, Felipe S.; Alves, Odivaldo C.; Terenzi, Hernán; Eleuthério, Elis C. A.; Pereira, Marcos D.; Haase, Wolfgang; Tomkowicz, Z.; Szpoganicz, Bruno; Bortoluzzi, Adaı́lton J.; Neves, Ademir

doi:10.1039/c3dt33046j

Cited by 20 publications

(6 citation statements)

References 67 publications

(73 reference statements)

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“…In order to evaluate the kinetic profile of cleavage of complex 1 (Figure ), a pseudo-Michaelis–Menten analysis was performed and the obtained parameters are shown in Table . This indicates that complex 1 cleaves DNA with a k cat value of 0.89 h –1 and an enhancement over the uncatalyzed DNA cleavage reaction of 2.4 × 10 7 times; these data are consistent with the literature. − …”

supporting

confidence: 89%

Targeting an Artificial Metal Nuclease to DNA by a Simple Chemical Modification and Its Drastic Effect on Catalysis

Castilho

Gabriel

Camargo

et al. 2019

ACS Med. Chem. Lett.

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A novel metal complex was synthesized containing a purine derived ligand in order to increase its binding to DNA. We observed a huge increase in nuclease activity and, quite interestingly, an improvement on DNA sequence selectivity. A potential site of specific cleavage in the presence of a reductant in the reaction medium is suggested. We were able to synthesize a novel metal nuclease with improved activity on DNA, and with sequence specificity when exposed to a coreactant, this opens up new possibilities to create site specific and redox status modulated artificial nucleases.

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supporting

confidence: 89%

Targeting an Artificial Metal Nuclease to DNA by a Simple Chemical Modification and Its Drastic Effect on Catalysis

Castilho

Gabriel

Camargo

et al. 2019

ACS Med. Chem. Lett.

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“…The (3-[(4,7-diisopropyl-1,4,7-triazacyclononan-1-yl)methyl]-2hydroxy-5-methylbenz-aldehyde), labeled Cmff-TACN, was synthesized according to the literature. 36 Agarose was obtained from Invitrogen™. Bluescript SK II Plasmid DNA ( pBSK II) (2961 bp) was purchased from Stratagene (USA), HiSpeed Plasmid Purification Kit was purchased from QIAGEN, and Acetonitrile HPLC grade was purchased from TediaBrasil.…”

Section: Methodsmentioning

confidence: 99%

“…26,27 Thorough literature search revealed that heterocycles containing an N-donor atom ring system, such as 1,4,8,11-tetraazacyclotetradecane (cyclam), 28 1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid (DOTA) 29 and 1,4,7-triazacyclononane (TACN), 30 exhibit a wide spectrum of medical and biomimetical activities, for example, acting as a chelator for image contrast, 31,32 nucleic acids delivery, 33 DNA cleavage 34 or therapeutic agents for cancer. 35,36 By considering the biological significance of these two classes of molecules, it was contemplated to construct new triazacyclononane-substituted porphyrins combining the porphyrin and TACN moieties, using 2-chloromethyl-4-methyl-6-formylphenol (Cmff ) as a spacer, in a single molecular framework. Such hybrid compounds can be a potential candidate of new phototherapeutic agents.…”

Section: Introductionmentioning

confidence: 99%

meso-Mono-[4-(1,4,7-triazacyclononanyl)]-tri(phenyl)]porphyrin and the respective zinc(ii)-complex: complete characterization and biomolecules binding abilities

Auras

Oliveira

Terenzi

et al. 2016

Photochem Photobiol Sci

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We aimed to synthesize a new series of triazacyclononanyl-porphyrins (4 and 5) with the potential ability to bind DNA. For this, the free-base porphyrin 4 and the corresponding Zn(ii)-complex 5 were synthesized by the Schiff base formation reaction. The binding ability of the porphyrin derivatives 4 and 5 with DNA from calf-thymus was studied by UV-vis and emission spectroscopy. Detailed analysis of the results suggests that the interaction of these systems most probably occurs through π-stacking and secondary hydrogen interaction surface binding with ct-DNA. Moreover, we also demonstrate the substantial ability of porphyrins 4 and 5 to generate (1)O2 and to photocleave plasmid DNA after irradiation.

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“…Over the past decades, several other classes of 64 Cu[Cu II ] chelators have been identified as suitable agents for PET. ,,, Macrocyclic polyaminocarboxylates derived from cross-bridged (CB) cyclam provide impressive thermodynamic and kinetic stability through the constrained binding cavity; ,, however, these systems can require harsh and extended radiolabeling conditions incompatible with biological conjugating agents , without further modification. − Frameworks based on 1,4,7-triazacyclononane (tacn; e.g., NOTA) can display excellent stability and chelate 64 Cu[Cu II ] rapidly under mild conditions, ,,, while further modifications to molecular charge, lipophilicity, and conjugation can lead to improved performance. ,,− Pre-organized polycyclic N -donor chelates based on bispidine (bispa) − and sarcophagi (SarAr) scaffolds − can enable mild radiolabeling conditions and reasonable in vivo stability. Functionalization can be low yielding due to unselective alkylation and the presence of multiple regioisomers; however, several effective approaches have been identified and clinical trials are ongoing. ,− ,− …”

Section: Introductionmentioning

confidence: 99%

N,N-Alkylation Clarifies the Role of N- and O-Protonated Intermediates in Cyclen-Based ⁶⁴Cu Radiopharmaceuticals

et al. 2022

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Radioisotopes of Cu, such as 64Cu and 67Cu, are alluring targets for imaging (e.g., positron emission tomography, PET) and radiotherapeutic applications. Cyclen-based macrocyclic polyaminocarboxylates are one of the most frequently examined bifunctional chelators in vitro and in vivo, including the FDA-approved 64Cu radiopharmaceutical, Cu(DOTATATE) (Detectnet); however, connections between the structure of plausible reactive intermediates and their stability under physiologically relevant conditions remain to be established. In this study, we share the synthesis of a cyclen-based, N,N-alkylated spirocyclic chelate, H2DO3AC4H8 , which serves as a model for N-protonation. Our combined experimental (in vitro and in vivo) and computational studies unravel complex pH-dependent speciation and enable side-by-side comparison of N- and O-protonated species of relevant 64Cu radiopharmaceuticals. Our studies suggest that N-protonated species are not inherently unstable species under physiological conditions and demonstrate the potential of N,N-alkylation as a tool for the rational design of future radiopharmaceuticals.

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In vitro and in vivo activity of a new unsymmetrical dinuclear copper complex containing a derivative ligand of 1,4,7-triazacyclononane: catalytic promiscuity of [Cu2(L)Cl3]

Cited by 20 publications

References 67 publications

Targeting an Artificial Metal Nuclease to DNA by a Simple Chemical Modification and Its Drastic Effect on Catalysis

Targeting an Artificial Metal Nuclease to DNA by a Simple Chemical Modification and Its Drastic Effect on Catalysis

meso-Mono-[4-(1,4,7-triazacyclononanyl)]-tri(phenyl)]porphyrin and the respective zinc(ii)-complex: complete characterization and biomolecules binding abilities

N,N-Alkylation Clarifies the Role of N- and O-Protonated Intermediates in Cyclen-Based ⁶⁴Cu Radiopharmaceuticals

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In vitro and in vivo activity of a new unsymmetrical dinuclear copper complex containing a derivative ligand of 1,4,7-triazacyclononane: catalytic promiscuity of [Cu2(L)Cl3]

Cited by 20 publications

References 67 publications

Targeting an Artificial Metal Nuclease to DNA by a Simple Chemical Modification and Its Drastic Effect on Catalysis

Targeting an Artificial Metal Nuclease to DNA by a Simple Chemical Modification and Its Drastic Effect on Catalysis

meso-Mono-[4-(1,4,7-triazacyclononanyl)]-tri(phenyl)]porphyrin and the respective zinc(ii)-complex: complete characterization and biomolecules binding abilities

N,N-Alkylation Clarifies the Role of N- and O-Protonated Intermediates in Cyclen-Based 64Cu Radiopharmaceuticals

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N,N-Alkylation Clarifies the Role of N- and O-Protonated Intermediates in Cyclen-Based ⁶⁴Cu Radiopharmaceuticals