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Abstract-Synthetic methods to obtain selectively sulfonated metallo phthalocyanines are compared. Both condensation and direct sulfonation procedures lead to mixtures of mono-to tetrasulfonated products which are resolved by reverse phase liquid chromatography in buffered aqueous-methanol. The proportion of sulfonated derivatives is examined as a function of the starting reagents in the case of the condensation method. and as a function of the temperature and reaction time in the case of the direct sulfonation procedure. The number of sulfonate groups per phthalocyanine molecule is determined by oxidative degradation of the phthalocyanine ring followed by quantitative chromatographic analysis of the sulfophthalamide and phthalamide fragments.

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Structure‐Photodynamic Activity Relationships of a Series of 4‐Substituted Zinc Phthalocyanines

Margaron

Grégoire

Ščasnár

et al. 1996

Photochem & Photobiology

112

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Radioiodinated zinc phthalocyanine including [125I]ZnPcI4 and differently sulfonated [65Zn]ZnPcS (ZnPcS4, ZnPcS3, ZnPcS2 and ZnPcS1.75, a mixture of adjacent di and 25% mono) were prepared in order to study cell uptake and release kinetics in EMT-6 cells. The same compounds were evaluated for their in vitro phototoxicity and the biological parameters were compared to partition coefficients to arrive at quantitative structure-activity relationships (QSAR). At 1 microM in 1% serum, at 37 degrees C, all dyes showed rapid cell uptake during the first hour followed by a slow accumulation phase. After 24 h, the highest cellular concentration was observed with the lipophilic ZnPcI4, followed by the amphiphilic ZnPcS2 and ZnPcS1.75. The hydrophilic ZnPcS4 and ZnPcS3 showed lower uptake. Dye release from dye-loaded cells during incubation in dye-free medium could reach up to 60% and was shown to depend mainly on the amount of drug incorporated rather than the type of compound. These results suggest that care should be taken in interpreting dye toxicity data, which involve in vitro cell manipulations in dye-free medium, particularly during in vitro-in vivo protocols. The EMT-6 cell survival after 1 h or 24 h incubation with 1 microM dye in 1% serum followed by exposure to red light was assessed by means of the colorimetric 3-(4,5-dimethylthiazol-2-yl)-diphenyl-tetrazolium bromide (MTT) assay. Photocytotoxicities correlated inversely with the tendencies of the dyes to aggregate. Increased dye uptake by the cells also correlated with their activities, except for the lipophilic ZnPcI4, which showed the highest cell uptake but little phototoxicity. The QSAR between phototoxicity and the log of the partition coefficients (phosphate-buffered saline and n-octanol) gave a parabola with optimal partition values corresponding to the adjacent sulfonated ZnPcS2.

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Structure−Photodynamic Activity Relationships of Substituted Zinc Trisulfophthalocyanines

et al. 2004

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To identify optimal features of metalated sulfophthalocyanine dyes for their use as photosensitizers in the photodynamic therapy of cancer, we synthesized a series of alkynyl-substituted trisulfonated phthalocyanines and compared their amphiphilic properties to a number of parameters related to their photodynamic potency. Varying the length of the substituted alkynyl side-chain modulates the hydrophobic/hydrophilic properties of the dyes providing a linear relationship between their n-octanol/water partition coefficients and retention times on reversed-phase HPLC. Aggregate formation of the dyes in aqueous solution increased with increasing hydrophobicity while monomer formation was favored by the addition of serum proteins or organic solvent. Trisulfonated zinc phthalocyanines bearing hexynyl and nonynyl substituents exhibited high cellular uptake with strong localization at the mitochondrial membranes, which coincided with effective photocytotoxicity toward EMT-6 murine mammary tumor cells. Further increase in the length of the alkynyl chains (dodecynyl, hexadecynyl) did not improve their phototoxicity, likely resulting from extensive aggregation of the dyes in aqueous medium and reduced cell uptake. Aggregation was evident from shifts in the electronic spectra and reduced capacity to generate singlet oxygen. When monomerized through the addition of Cremophor EL all sulfonated zinc phthalocyanines gave similar singlet oxygen yields. Accordingly, differences in the tendency of the dyes to aggregate do not appear to be a determining factor in their photodynamic potency. Our results confirm that the latter in particular relates to their amphiphilic properties, which facilitate cell uptake and intracellular localization at photosensitive sites such as the mitochondria. Combined, these factors play a significant role in the overall photodynamic potency of the dyes.

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Biological Activities of Phthalocyanines—iv. Type Ii Sensitized Photooxidation of L‐tryptophan and Cholesterol by Sulfonated Metallo Phthalocyanines

Langlois

Ali

Brasseur

et al. 1986

Photochem & Photobiology

138

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Abstract— Sulfonated phthalocyanine and a series of its metal chelates in combination with red light irradiation led to the degradation of L‐tryptophan in oxygenated aqueous solution. The photoproducts and the rate of transformation of L‐tryptophan are compared with hematoporphyrin and rose bengal sensitized photooxidation. In all cases the primary photoproducts are characterized as cis and trans‐3a‐hydroperoxy‐l,2,3,3a,8,8a‐hexahydropyrrolo[2,3‐b]indole‐2‐carboxylic acid. Support for the involvement of singlet excited oxygen is obtained from azide inhibition and the formation of the specific singlet oxygen product with cholesterol. We observed the contribution of another pathway in the case of the manganese complex.

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Quantitative Structure-Activity Relationships/Comparative Molecular Field Analysis (QSAR/CoMFA) for Receptor-Binding Properties of Halogenated Estradiol Derivatives

Gantchev¹,

Ali²,

Lier³

1994

J. Med. Chem.

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The 3-D quantitative structure-activity relationships/comparative molecular field analysis (QSAR/CoMFA) paradigm, which considers the primary importance of the molecular fields in biological recognition, is now widely used to analyze and predict receptor-binding properties of various ligands. CoMFA was applied to build 3-D QSAR models of substituted estradiol-receptor interactions, employing 3-D molecular databases of more than 40 molecules. Ligands included the 17 alpha-ethynyl- and isomeric 17 alpha (20E/Z)-(iodovinyl)estradiols and their 7 alpha-, 11 beta-, and 12 beta-methyl (-methoxy) and -ethyl (-ethoxy) derivatives as well as selected 2- and 4-halogenated analogs. The influence of different CoMFA descriptors was studied in order to achieve the highest possible cross-validated r2, as derived from partial least-squares calculations. Special emphasis was put on the analysis of the nature of H-bonding (donor/acceptor) interactions. The model with the best predictive performance (r2 = 0.895) was used to visualize steric and electrostatic features of the QSAR (standard deviation*coefficient contour maps) and to predict receptor-binding affinities (RBA) of substituted estradiols other than those included in the original database. Twenty-seven test molecules were selected, including five which had previously been reported by other investigators. For the latter, a very good correlation with literature RBA values was obtained, which together with the high cross-validated r2 provides evidence for the high predictive capacity of the model. Among the unknown structures, the model suggests several new substitutions to derive at reasonable affinity ligands for the estrogen receptor.

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Biological Activities of Phthalocyanines—v. Photodynamic Therapy of Emt‐6 Mammary Tumors in Mice With Sulfonated Phthalocyanines

Brasseur

Ali

Langlois

et al. 1987

Photochem & Photobiology

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Abstract— We tested water‐soluble sulfonated phthalocyanine and three metal chelate derivatives for their tumoricidal effect on the EMT‐6 mammary tumor in mice exposed to red light. The metal‐free sulfophthalocyanine had little effect, whereas the aluminum complex and the lower sulfonated fraction of the gallium complex exhibited tumoricidal activity similar to hematoporphyrin‐based photosensitizer (Photofrin II). The higher sulfonated fractions of the gallium complex were less active as compared to the lower sulfonated fraction. The cerium complex was the most active sensitizer in terms of dye and light doses required to induce tumor necrosis and cure but also showed the highest phototoxicity towards healthy skin. These results suggest that sulfonated phthalocyanines will offer a new alternative in photodynamic therapy of light‐accessible neoplasms.

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Biological Activities of Phthalocyanines—viii. Cellular Distribution Inv–79 Chinese Hamster Cells and Phototoxicity of Selectively Sulfonated Aluminum Phthalocyanines

Paquette

Ali

Langlois

et al. 1988

Photochem & Photobiology

123

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Water soluble chloro aluminum phthalocyanines sulfonated to different degrees are studied for phototoxicity and cellular distribution in V-79 Chinese hamster cells. The more hydrophobic disulfonated dyes, with sulfonate substituents on adjacent benzyl groups of the phthalocyanine ring structure, exhibited the best cell penetrating properties and the highest phototoxicity. Fluorescence microscopy revealed that the dye was uniformly distributed in the cytoplasm but absent in the nucleus. The greater cell membrane penetrating properties of the lower as compared to the higher sulfonated dyes are attributed to the amphiphilic nature of the former.

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Hasrat Ali

Metal Complexes as Photo- and Radiosensitizers

Biological Activities of Phthalocyanines‐x. Syntheses and Analyses of Sulfonated Phthalocyanines

Structure‐Photodynamic Activity Relationships of a Series of 4‐Substituted Zinc Phthalocyanines

Structure−Photodynamic Activity Relationships of Substituted Zinc Trisulfophthalocyanines

Biological Activities of Phthalocyanines—iv. Type Ii Sensitized Photooxidation of L‐tryptophan and Cholesterol by Sulfonated Metallo Phthalocyanines

Quantitative Structure-Activity Relationships/Comparative Molecular Field Analysis (QSAR/CoMFA) for Receptor-Binding Properties of Halogenated Estradiol Derivatives

Biological Activities of Phthalocyanines—v. Photodynamic Therapy of Emt‐6 Mammary Tumors in Mice With Sulfonated Phthalocyanines

Biological Activities of Phthalocyanines—viii. Cellular Distribution Inv–79 Chinese Hamster Cells and Phototoxicity of Selectively Sulfonated Aluminum Phthalocyanines

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