Luca Salassa scite author profile

The fields of phototherapy and of inorganic chemotherapy both have long histories. Inorganic photoactivated chemotherapy (PACT) offers both temporal and spatial control over drug activation and has remarkable potential for the treatment of cancer. Following photoexcitation, a number of different decay pathways (both photophysical and photochemical) are available to a metal complex. These pathways can result in radiative energy release, loss of ligands or transfer of energy to another species, such as triplet oxygen. We discuss the features which need to be considered when developing a metal-based anticancer drug, and the common mechanisms by which the current complexes are believed to operate. We then provide a comprehensive overview of PACT developments for complexes of the different d-block metals for the treatment of cancer, detailing the more established areas concerning Ti, V, Cr, Mn, Re, Fe, Ru, Os, Co, Rh, Pt, and Cu and also highlighting areas where there is potential for greater exploration. Nanoparticles (Ag, Au) and quantum dots (Cd) are also discussed for their photothermal destructive potential. We also discuss the potential held in particular by mixed-metal systems and Ru complexes.

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Organometallic Half-Sandwich Iridium Anticancer Complexes

Liu

et al. 2011

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DNA Intercalating Ru^II Polypyridyl Complexes as Effective Photosensitizers in Photodynamic Therapy

Mari

Pierroz

Rubbiani

et al. 2014

Chemistry A European J

181

272

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Six substitutionally inert [Ru(II) (bipy)2 dppz](2+) derivatives (bipy=2,2'-bipyridine, dppz=dipyrido[3,2-a:2',3'-c]phenazine) bearing different functional groups on the dppz ligand [NH2 (1), OMe (2), OAc (3), OH (4), CH2 OH (5), CH2 Cl (6)] were synthesized and studied as potential photosensitizers (PSs) in photodynamic therapy (PDT). As also confirmed by DFT calculations, all complexes showed promising (1) O2 production quantum yields, well comparable with PSs available on the market. They can also efficiently intercalate into the DNA double helix, which is of high interest in view of DNA targeting. The cellular localization and uptake quantification of 1-6 were assessed by confocal microscopy and high-resolution continuum source atomic absorption spectrometry. Compound 1, and especially 2, showed very good uptake in cervical cancer cells (HeLa) with preferential nuclear accumulation. None of the compounds studied was found to be cytotoxic in the dark on both HeLa cells and, interestingly, on noncancerous MRC-5 cells (IC50 >100 μM). However, 1 and 2 showed very promising behavior with an increment of about 150 and 42 times, respectively, in their cytotoxicities upon light illumination at 420 nm in addition to a very good human plasma stability. As anticipated, the preferential nuclear accumulation of 1 and 2 and their very high DNA binding affinity resulted in very efficient DNA photocleavage, suggesting a DNA-based mode of phototoxic action.

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Luca Salassa

Photoactivated chemotherapy (PACT): the potential of excited-state d-block metals in medicine

Organometallic Half-Sandwich Iridium Anticancer Complexes

DNA Intercalating Ru^II Polypyridyl Complexes as Effective Photosensitizers in Photodynamic Therapy

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Luca Salassa

Photoactivated chemotherapy (PACT): the potential of excited-state d-block metals in medicine

Organometallic Half-Sandwich Iridium Anticancer Complexes

DNA Intercalating RuII Polypyridyl Complexes as Effective Photosensitizers in Photodynamic Therapy

Contact Info

Product

Resources

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DNA Intercalating Ru^II Polypyridyl Complexes as Effective Photosensitizers in Photodynamic Therapy