Chemical & Biomedical Imaging (May 2023)

Water-Soluble Gd(III)–Porphyrin Complexes Capable of Both Photosensitization and Relaxation Enhancement

  • Tamas Nemeth,
  • Naoko Yoshizawa-Sugata,
  • Agnes Pallier,
  • Youichi Tajima,
  • Yue Ma,
  • Éva Tóth,
  • Hisao Masai,
  • Yoko Yamakoshi

DOI
https://doi.org/10.1021/cbmi.3c00007
Journal volume & issue
Vol. 1, no. 2
pp. 157 – 167

Abstract

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With the aim of developing more stable Gd­(III)–porphyrin complexes, two types of ligands 1 and 2 with carboxylic acid anchors were synthesized. Due to the N-substituted pyridyl cation attached to the porphyrin core, these porphyrin ligands were highly water-soluble and formed the corresponding Gd­(III) chelates, Gd-1 and Gd-2. Gd-1 was sufficiently stable in neutral buffer, presumably due to the preferred conformation of the carboxylate-terminated anchors connected to nitrogen in the meta position of the pyridyl group helping to stabilize Gd­(III) complexation by the porphyrin center. 1H NMRD (nuclear magnetic relaxation dispersion) measurements on Gd-1 revealed high longitudinal water proton relaxivity (r1 = 21.2 mM–1 s–1 at 60 MHz and 25 °C), which originates from slow rotational motion resulting from aggregation in aqueous solution. Under visible light irradiation, Gd-1 showed extensive photoinduced DNA cleavage in line with efficient photoinduced singlet oxygen generation. Cell-based assays revealed no significant dark cytotoxicity of Gd-1, while it showed sufficient photocytotoxicity on cancer cell lines under visible light irradiation. These results indicate the potential of this Gd­(III)–porphyrin complex (Gd-1) as a core for the development of bifunctional systems acting as an efficient photodynamic therapy photosensitizer (PDT-PS) with magnetic resonance imaging (MRI) detection capabilities.