Superoxide Dismutase Mimetic GC4419 Enhances the Oxidation of Pharmacological Ascorbate and Its Anticancer Effects in an H₂O₂-Dependent Manner.
Collin D HeerAndrew B DavisDavid B RiffeBrett A WagnerKelly C FallsBryan G AllenGarry R BuettnerRobert A BeardsleyDennis P RileyDouglas R SpitzPublished in: Antioxidants (Basel, Switzerland) (2018)
Lung cancer, together with head and neck cancer, accounts for more than one-fourth of cancer deaths worldwide. New, non-toxic therapeutic approaches are needed. High-dose IV vitamin C (aka, pharmacological ascorbate; P-AscH-) represents a promising adjuvant to radiochemotherapy that exerts its anti-cancer effects via metal-catalyzed oxidation to form H₂O₂. Mn(III)-porphyrins possessing superoxide dismutase (SOD) mimetic activity have been shown to increase the rate of oxidation of AscH-, enhancing the anti-tumor effects of AscH- in several cancer types. The current study demonstrates that the Mn(II)-containing pentaazamacrocyclic selective SOD mimetic GC4419 may serve as an AscH-/O₂•- oxidoreductase as evidenced by the increased rate of oxygen consumption, steady-state concentrations of ascorbate radical, and H₂O₂ production in complete cell culture media. GC4419, but not CuZnSOD, was shown to significantly enhance the toxicity of AscH- in H1299, SCC25, SQ20B, and Cal27 cancer cell lines. This enhanced cancer cell killing was dependent upon the catalytic activity of the SOD mimetic and the generation of H₂O₂, as determined using conditional overexpression of catalase in H1299T cells. GC4419 combined with AscH- was also capable of enhancing radiation-induced cancer cell killing. Currently, AscH- and GC4419 are each being tested separately in clinical trials in combination with radiation therapy. Data presented here support the hypothesis that the combination of GC4419 and AscH- may provide an effective means by which to further enhance radiation therapy responses.
Keyphrases
- radiation therapy
- radiation induced
- papillary thyroid
- hydrogen peroxide
- gas chromatography
- clinical trial
- high dose
- squamous cell
- room temperature
- locally advanced
- young adults
- nitric oxide
- lymph node metastasis
- childhood cancer
- cell proliferation
- study protocol
- transcription factor
- electronic health record
- simultaneous determination
- phase iii
- deep learning
- phase ii