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Hypoxia-Active Iridium(III) Bis-terpyridine Complexes Bearing Oligothienyl Substituents: Synthesis, Photophysics, and Phototoxicity toward Cancer Cells. | LitMetric

AI Article Synopsis

  • Researchers developed and studied five new iridium(III) complexes with thienyl groups to improve their performance in photodynamic therapy for cancer.
  • They found that the number of thienyl units affected the complexes' light absorption and emission properties, shifting them to longer wavelengths, which is beneficial for therapy.
  • In tests against melanoma and breast cancer cell lines, one complex showed significant photocytotoxicity when activated by visible light, remaining effective even under low-oxygen (hypoxic) conditions.

Article Abstract

In an effort to develop hypoxia-active iridium(III) complexes with long visible-light absorption, we synthesized and characterized five bis(terpyridine) Ir(III) complexes bearing oligothienyl substituents on one of the terpyridine ligands, i.e., ( = 0-4). The UV-vis absorption, emission, and transient absorption spectroscopy were employed to characterize the singlet and triplet excited states of these complexes and to explore the effects of varied number of thienyl units on the photophysical parameters of the complexes. photodynamic therapeutic activities of these complexes were assessed with respect to three melanoma cell lines (SKMEL28, A375, and B16F10) and two breast cancer cell lines (MDA-MB-231 and MCF-7) under normoxia (∼18.5% oxygen tension) and hypoxia (1% oxygen tension) upon broadband visible (400-700 nm), blue (453 nm), green (523 nm), and red (633 nm) light activation. It was revealed that the increased number of thienyl units bathochromically shifted the low-energy absorption bands to the green/orange spectral regions and the emission bands to the near-infrared (NIR) regions. The lowest triplet excited-state lifetimes and the singlet oxygen generation efficiency also increased from to substitution but decreased in and substitution. All complexes exhibited low dark cytotoxicity toward all cell lines, but manifested high photocytotoxicity for all cell lines upon visible, blue, and green light activation under normoxia, with showing the strongest photocytotoxicity toward SKMEL28, MDA-MB-231, and MCF-7 cells, and being the most photocytotoxic one for B16F10 and A375 cells. Singlet oxygen, superoxide anion radicals, and peroxynitrite anions were found to likely be involved in the photocytotoxicity exhibited by the complexes. also showed strong photocytotoxicity upon red-light excitation toward all cell lines under normoxia and retained its photocytotoxicity under hypoxia toward all cell lines upon visible, blue, and green light excitation. The hypoxic activity of along with its green to orange light absorption, NIR emission, and low dark cytotoxicity suggest its potential as a photosensitizer for photodynamic therapy applications.

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Source
http://dx.doi.org/10.1021/acs.inorgchem.4c03847DOI Listing

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