A molecular insight into the phototoxic reactions observed with vemurafenib, a first-line drug against metastatic melanoma
Photochemical & Photobiological Sciences Pub Date: 2015-09-23 DOI: 10.1039/C5PP00231A
Abstract
The electronic properties of vemurafenib (VB) provide a rational basis for understanding its strong UVA-induced phototoxicity. Thus, solvation of hydrophobic VB by hydrogen bonding solvents controls its photophysical, photochemical and photosensitizing properties. Addition of phosphate buffered saline (PBS) to methanol (MeOH) induces a bathochromic shift of the VB absorbance spectrum and a fluorescence emission (λmax = 450 nm, quantum yield (Φ) = 0.011). Phosphorescence (λmax = 461 nm) is observed at 77 K in MeOH. 308 nm laser flash spectroscopy demonstrates that the lifetimes (τ) and quantum yields of the VB triplet state
in deaerated MeOH (τMeOH = 0.41 μs, λmax ~ 380 nm), MeOH–PBS and HSA solutions markedly depend on the microenvironment. A long-lived radical (half-life >200 μs) is also formed. The
state is quenched by O2 and electron donors (Cys and 2′-deoxyguanosine) at a rate constant >1 × 109 M?1 s?1. UVA-irradiation of VB in air-saturated MeOH or MeOH–PBS solutions produces a UVA-absorbing photoproduct (Φ ~ 5 × 10?4). VB photosensitizes Trp destruction by type I (radical formation) and type II (singlet oxygen (1O2) formation) photodynamic reactions (Φ = 0.005). Singlet oxygen production is further demonstrated by the VB-photosensitized His oxidation (ΦMeOH = 0.006).
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Journal Name:Photochemical & Photobiological Sciences
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CAS no.: 89640-58-4