Tritolylporphyrin dimer as a new potent hydrophobic sensitizer for photodynamic therapy of melanoma.

A Drzewiecka; K Urbańska; Z Matuszak; M Pineiro; L G Arnaut; J Habdas; A Ratuszna; G Stochel

doi:10.18388/abp.2001_5136

Tritolylporphyrin dimer as a new potent hydrophobic sensitizer for photodynamic therapy of melanoma.

A Drzewiecka Faculty of Chemistry, Jagiellonian University, Kraków, Poland.;
K Urbańska
Z Matuszak
M Pineiro
L G Arnaut
J Habdas
A Ratuszna
G Stochel

DOI: https://doi.org/10.18388/abp.2001_5136

Abstract

We report the synthesis, photochemical and photophysical properties and preliminary studies on biological effect of a new tritolylporphyrin dimer (T-D). Absorption and emission properties of T-D suggest its possible use in photodynamic therapy. T-D is capable of singlet oxygen production with 0.8 quantum yield. It also has a high photostability. The photodynamic properties of the dimer were examined following the growth of SKMEL 188 (human melanoma) cells irradiated with red light (cut off < 630 nm). The surviving fraction of the cells decreased about 3-fold (vs. non-irradiated cells) for an 81 J/cm dose. Our results suggest that tritolylporphyrine dimer T-D may be an interesting hydrophobic sensitizer for photodynamic therapy.

Published

2001-03-31

Issue

Vol. 48 No. 1 (2001)

Section

Articles

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