Photocaging of Carboxylic Function Bearing Biomolecules by New Thiazole Derived Fluorophore

Abstract

AbstractThe design and synthesis of a new fluorophore containing an arylidene thiazole scaffold resulted in a compound with good photophysical characteristics. Furthermore, the thiazole C5‐methyl group was easily modified into specific functional groups (CH2Br and CH2OH) for the formation of a series of photocourier molecules containing model compounds (benzoic acids), as well as prodrugs, including salicylic acid, caffeic acid, and chlorambucil via a “benzyl” linker. Spectral characteristics (1H, 13C NMR, and high‐resolution mass spectra) corresponded to the proposed structures. The photocourier molecules demonstrated absorption with high values of coefficient of molar extinction, exhibited contrasting green emission, and showed good dark stability. The mechanism of the photorelease was investigated through spectral analysis, HPLC‐HRMS, and supported by TD‐DFT calculations. The photoheterolysis and elimination of carboxylic acids were proved to occur in the excited state, yielding a carbocation as an intermediate moiety. The fluorophore structure provided stability to the carbocation through the delocalization of the positive charge via resonance structures. Viability assessment of Vero cells using the MTT‐test confirmed the weak cytotoxicity of prodrugs without irradiation and it increase upon UV‐light.