PROTACs (Proteolysis targeting chimeras) are chimeric molecules designed to induce targeted protein degradation via the ubiquitin-proteasome system. These molecules catalytically degrade target proteins and sustainably inhibit their function. Therefore, PROTAC's unique mechanism of action is not only beneficial in medicine but also serves as a valuable tool for molecular biological analysis in fields like chemical biology, biochemistry, and drug discovery. This study presents a novel turn-off (ON-OFF) type PROTAC development strategy utilizing a photocleavable linker. The inclusion of this linker enables temporal control of the degradation activity targeting BRD4 protein upon UV light exposure. PROTAC-2 demonstrated the most potent degradation activity against BRD4 among the other synthesized PROTACs with varying linker lengths. The UV light-induced cleavage of PROTAC-2 was confirmed, leading to a reduction in its BRD4 degradation activity. Notably, this study introduces a novel linker capable of nullifying degradation activity of PROTACs which is activated by light irradiation. These findings offer a promising strategy for the development of turn-off type PROTACs, providing enhanced temporal control over protein degradation. The approach holds significant potential for applications in molecular function studies and drug discovery.
Keywords: Chemical tool; PROTAC; Photo-caged group; Photocleavable linker; Turn-off type.
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