A. Jakobs scite author profile

The covalent attachment of a managanese-tris(methylpyridiniumyl)porphyrin entity to an antisense oligonucleotide allowed sequence-selective oxidative cleavage of DNA when the metalloporphyrin was activated by potassium monopersulfate (KHSO5). We prepared several structurally modified metallo-porphyrin-oligonucleotide conjugates in order to find out the most efficient compound for in vitro DNA cleavage. The nature and the length of the tether were modulated, the metalloporphyrin entity was modified (metal, ligand), and different ways of activation of the metalloporphyrin were assayed. We noticed that the location of the peptidic bond within the linker could greatly affect the cleavage efficiency of the different conjugates. We showed that the most efficient conjugate for oxidative DNA cleavage was a manganese tetracationic porphyrin-oligonucleotide compound. When the metalloporphyrin moiety was activated by a reducing agent in the presence of molecular oxygen, DNA cleavage was efficient at suitable concentrations of the reducing agent, in order to avoid the reduction of the activated DNA cleaver, a putative high-valent metal-oxo species, by the excess of reducing agent.

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Electron Spin Resonance Evidence of the Generation of Superoxide Anion, Hydroxyl Radical and Singlet Oxygen during the Photohemolysis of Human Erythrocytes with Bacteriochlorin a

Hoebeke¹,

Schuitmaker²,

Jannink³

et al. 1997

Photochem & Photobiology

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Photodynamic therapy with bacteriochlorin a (BCA) as sensitizer induces damage to red blood cells in vivo. To assess the extent of the contributuion of reactive oxygen species (ROS) and to determine a possible reaction mechanism, competition experiments with assorted ROS quenching or/and enhancing agents were performed in human erythrocytes as model system and in phosphate buffer. In the erythrocyte experiments, a 2% suspension was incubated with BCA for 1 h, washed with phosphate-buffered saline, resuspended and subsequently illuminated with a diode laser using a fluence rate of 2.65 mW/cm2. Potassium leakage and hemolysis were light and BCA dose dependent. Adding tryptophan (3.3 mM), azide (1 mM) or histidine (10 mM) to the erythrocyte suspension before illumination delayed the onset of K-leakage and hemolysis suggesting a type II mechanism. The D2O did not affect K-leakage nor photohemolysis. Adding mannitol (13.3 mM) or glycerol (300 nM) also caused a delay in the onset of K-leakage and hemolysis, suggesting the involvement of radicals. In phosphate buffer experiments, it was shown using electron spin resonance (ESR) associated with spin-trapping techniques that BCA is able to generate O2-. and OH. radicals without production of aqueous electron. Visible or UV irradiation of the dye in the presence of the spin trap 5,5-dimethyl-1-pyrroline-N-oxide (DMPO) gave an ESR spectrum characteristic of the DMPO-hydroxyl radical spin adduct DMPO-OH. Addition of ethanol or sodium formate produced supplementary hyperfine splittings due to the respective CH3CHOH. and CO2-. radical adducts, indicating the presence of free OH.. Production of DMPO-OH was partly inhibited by superoxide dismutase (SOD), catalase and desferrioxamine, suggesting that the iron-catalyzed decomposition of H2O2 was partly involved in the formation of one part of the observed OH.. The complementary inhibition of DMPO-OH production by azide and 9,10-anthracenedipropionic acid (ADPA) was consistent with 1O2 production by BCA followed by reaction of 1O2 with DMPO and decay of the intermediate complex to form DMPO-OH and free OH.. All our results seem to indicate that BCA is a 50%/50% type 1/type 2 sensitizer in buffered aqueous solutions and confirmed that the dye-induced hemolysis of erythrocytes was cell caused by a mixed type 1/type 2 mechanism.

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Photosensitized generation of hydroxyl radical by eight new sulfur and selenium analogs of psoralen

Collet

Hoebeke

Piette

et al. 1996

Journal of Photochemistry and Photobiology B: Biology

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Preparation of Tetracationic Metalloporphyrin−Spermine Conjugates

1997

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The preparation of tetracationic metalloporphyrin precursors for the attachement to DNA binding molecules is reported. Based on a D 4 h tetrapyridylporphyrin, such precursors are more accessible than the classical tailored tricationic porphyrin derivatives used as DNA cleavers. meso-Tetrapyridylporphyrin was reacted with ethyl bromopentanoate and methyl iodide to afford a monofunctionalized ester derivative of 1 which was hydrolyzed to the corresponding acid 5. This acid was reacted with spermine and BOP to yield conjugates containing one (6) or two (7) porphyrin units that were metalated with Mn(II) salts to afford the metalloporphyrins 6−Mn and 7−Mn. Furthermore, 6−Mn was linked to 5 to yield a spermine conjugate 8 containing two porphyrin moieties, one of which was metalated. The DNA cleavage activity of these different metalloporphyrins was studied in the presence of KHSO5 with double-stranded ΦX174 DNA. Conjugate 5−Mn, the spermine containing compound 6−Mn, and compound 7−Mn which contained two porphyrin moieties showed cleavage activities similar to that of the parent DNA cleaver 1−Mn. The porphyrin conjugate 8 which contained one metalated and one nonmetalated porphyrin had half the efficiency of 1−Mn. None of the synthesized compounds were able to induce direct double-strand breaks in the experimental conditions used.

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A. Jakobs

Structure/Nuclease Activity Relationships of DNA Cleavers Based on Cationic Metalloporphyrin−Oligonucleotide Conjugates

Electron Spin Resonance Evidence of the Generation of Superoxide Anion, Hydroxyl Radical and Singlet Oxygen during the Photohemolysis of Human Erythrocytes with Bacteriochlorin a

Photosensitized generation of hydroxyl radical by eight new sulfur and selenium analogs of psoralen

Preparation of Tetracationic Metalloporphyrin−Spermine Conjugates

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