Development of a Test System for Mutagenicity of Photosensitizers Using Drosophila melanogaster¶

Dipyrrinato-Iridium(III) Complexes for Application in Photodynamic Therapy and Antimicrobial Photodynamic Inactivation

The generation of bio-targetable photosensitizers is of utmost importance to the emerging field of photodynamic therapy and antimicrobial (photo-)therapy. A synthetic strategy is presented in which chelating dipyrrin moieties are used to enhance the known photoactivity of iridium(III) metal complexes. Formed complexes can thus be functionalized in a facile manner with a range of targeting groups at their chemically active reaction sites. Dipyrrins with N- and O-substituents afforded (dipy)iridium(III) complexes via complexation with the respective Cp*-iridium(III) and ppy-iridium(III) precursors (dipy=dipyrrinato, Cp*=pentamethyl-η5 -cyclopentadienyl, ppy=2-phenylpyridyl). Similarly, electron-deficient [IrIII (dipy)(ppy)2 ] complexes could be used for post-functionalization, forming alkenyl, alkynyl and glyco-appended iridium(III) complexes. The phototoxic activity of these complexes has been assessed in cellular and bacterial assays with and without light; the [IrIII (Cl)(Cp*)(dipy)] complexes and the glyco-substituted iridium(III) complexes showing particular promise as photomedicine candidates. Representative crystal structures of the complexes are also presented.

Reliable Screening of Dye Phototoxicity by Using a Caenorhabditis elegans Fast Bioassay

Phototoxicity consists in the capability of certain innocuous molecules to become toxic when subjected to suitable illumination. In order to discover new photoactive drugs or characterize phototoxic pollutants, it would be advantageous to use simple biological tests of phototoxicy. In this work, we present a pilot screening of 37 dyes to test for phototoxic effects in the roundworm Caenorhabditis elegans. Populations of this nematode were treated with different dyes, and subsequently exposed to 30 min of white light. Behavioral outcomes were quantified by recording the global motility using an infrared tracking device (WMicrotracker). Of the tested compounds, 17 dyes were classified as photoactive, being phloxine B, primuline, eosin Y, acridine orange and rose Bengal the most phototoxic. To assess photoactivity after uptake, compounds were retested after washing them out of the medium before light irradiation. Dye uptake into the worms was also analyzed by staining or fluorescence. All the positive drugs were incorporated by animals and produced phototoxic effects after washing. We also tested the stress response being triggered by the treatments through reporter strains. Endoplasmic reticulum stress response (hsp-4::GFP strain) was activated by 22% of phototoxic dyes, and mitochondrial stress response (hsp-6::GFP strain) was induced by 16% of phototoxic dyes. These results point to a phototoxic perturbation of the protein functionality and an oxidative stress similar to that reported in cell cultures. Our work shows for the first time the feasibility of C. elegans for running phototoxic screenings and underscores its application on photoactive drugs and environmental pollutants assessment.

Regression of the murine LM3 tumor by repeated photodynamic therapy with meso-tetrakis-(4-N,N,N-trimethylanilinium)porphine

Photodynamic therapy (PDT) of cancer is based on the cytotoxicity induced by a photosensitizer (PS) in the presence of oxygen and visible light, with formation of reactive oxygen species which cause cell death and tumor destruction. This work describes the response of the murine mammary adenocarcinoma, LM3, to repeated PDT using meso-tetrakis(4-N,N,N-trimethylanilinium)porphine (TMAP), a PS that has been overlooked for PDT applications. Intradermal LM3 tumors in BALB/c mice (controls) were left untreated, only treated with light, only injected with 0.9% NaCl solution or with TMAP alone (10 μg/0.1 ml). For PDT, the intratumoral PS injection was followed 1 h later by blue-red light irradiation (290 J.cm-2). In all cases, control and PDT treatments were performed on the depilated and glycerol-covered skin which covers the tumor of anesthetized animals, and repeated 4 times (every 2 days). No significant differences were found in the growth rate of all control tumors. PDT-treated tumors showed complete and long-term regression in 4 out of 5 mice, and cure in one animal. The survival of PDT-mice was significantly longer than that of controls (TMAP alone), showing a lower number of tumor-draining lymph node metastasis. The PDT protocol applied in the present work (intratumoral PS injection, repeated photosensitizing treatments, and reduction of tissue light scattering by glycerol) could be a useful strategy in studies on PDT of cancer.

Photosensitizing effect of hematoporphyrin IX on immature stages of Ceratitis capitata (Diptera: Tephritidae)

Immature stages of Ceratitis capitata were tested as a model for hematoporphyrin IX (HP IX) phototoxicity. The lethal concentration 50 (LC(50)) of HP IX in the food was determined during postembryonic development until adult emergence as 0.173 mm (95% CI: 0.138-0.209). The corresponding HP IX LC(50) during the dispersal period alone was 0.536 mm (95% CI: 0.450-0.633). HP IX toxicity was compared against Phloxine B (PhB) (0.5 mm). HP IX elicited a mortality of 90.87%, which was mainly concentrated during prepupal and early pupal stages. PhB mortality was much lower (56.88%) and occurred mainly during the adult pharate stage. A direct correlation between light-dependent HP IX mortality, evidence of reactive oxygen species (ROS) and lipid peroxidation (conjugated dienes and thiobarbituric acid reactive substances) was established in C. capitata larvae. ROS were found to be very significant in both the brain and in the gut.

Photodynamic inactivation of fibroblasts by a cationic porphyrin

An important determinant of the clinical applicability and value of antimicrobial photodynamic inactivation (PDI) is the cytotoxicity of the treatment to human cells. We evaluated the in vitro cytotoxicity of PDI to human dermal fibroblasts using 5-phenyl-10,15,20-tris(N-methyl-4-pyridyl)porphyrin chloride (TriP[4]) as the photosensitiser. The fibroblasts were exposed to a PDI regime that is known to be sufficient for the inactivation of Staphylococcus aureus, Pseudomonas aeruginosa and Candida albicans. The PDI experiments were carried out in phosphate-buffered saline (PBS) and in 6.25%, 12.5%, 25% and 50% fetal calf serum (FCS)/PBS suspensions. Cell viability subsequent to exposure was evaluated after 0 h, 6 h and 18 h using the methylthiazoletetrazolium (MTT) assay and compared to pretreatment values. At a TriP[4] concentration previously demonstrated to induce a 5 log(10)-unit reduction in a viable count for S. aureus, 79% of the fibroblasts were photo-inactivated. Increasing the FCS concentration in the medium protected the fibroblasts against PDI. Based on our in vitro results, we propose that in vivo PDI of S. aureus holds potential; however, PDI of P. aeruginosa and C. albicans will probably require such a strong PDI regime that it will induce substantial damage to fibroblasts.

Hypermutability in a Drosophila model for multiple endocrine neoplasia type 1

Multiple endocrine neoplasia type I (MEN1) is an autosomal dominant cancer predisposition syndrome, the gene for which encodes a nuclear protein, menin. The biochemical function of this protein has not been completely elucidated, but several studies have shown a role in transcriptional modulation through recruitment of histone deacetylase. The mechanism by which MEN1 mutations cause tumorigenesis is unknown. The Drosophila homolog of MEN1, Mnn1, encodes a protein 50% identical to human menin. In order to further elucidate the function of MEN1, we generated a null allele of this gene in Drosophila and showed that homozygous inactivation results in morphologically normal flies that are hypersensitive to ionizing radiation and two DNA cross-linking agents, nitrogen mustard and cisplatinum. The spectrum of agents to which mutant flies are sensitive and analysis of the molecular mechanisms of this sensitivity suggest a defect in nucleotide excision repair. Drosophila Mnn1 mutants have an elevated rate of both sporadic and DNA damage-induced mutations. In a genetic background heterozygous for lats, a Drosophila and vertebrate tumor suppressor gene, homozygous inactivation of Mnn1 enhanced somatic mutation of the second allele of lats and formation of multiple primary tumors. Our data indicate that Mnn1 is a novel member of the class of autosomal dominant cancer genes that function in maintenance of genomic integrity, similar to the BRCA and HNPCC genes.