Induced protein degradation: an emerging drug discovery paradigm
Ashton C. Lai,Craig M. Crews +1 more
TLDR
Induced protein degradation has the potential to reduce systemic drug exposure, the ability to counteract increased target protein expression that often accompanies inhibition of protein function and the potential ability to target proteins that are not currently therapeutically tractable, such as transcription factors, scaffolding and regulatory proteins.Abstract:
Small-molecule drug discovery has traditionally focused on occupancy of a binding site that directly affects protein function, and this approach typically precludes targeting proteins that lack such amenable sites. Furthermore, high systemic drug exposures may be needed to maintain sufficient target inhibition in vivo, increasing the risk of undesirable off-target effects. Induced protein degradation is an alternative approach that is event-driven: upon drug binding, the target protein is tagged for elimination. Emerging technologies based on proteolysis-targeting chimaeras (PROTACs) that exploit cellular quality control machinery to selectively degrade target proteins are attracting considerable attention in the pharmaceutical industry owing to the advantages they could offer over traditional small-molecule strategies. These advantages include the potential to reduce systemic drug exposure, the ability to counteract increased target protein expression that often accompanies inhibition of protein function and the potential ability to target proteins that are not currently therapeutically tractable, such as transcription factors, scaffolding and regulatory proteins.read more
Citations
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Small-Molecule Kinase Downregulators.
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EZH2 noncanonically binds cMyc and p300 through a cryptic transactivation domain to mediate gene activation and promote oncogenesis
Jun Wang,Xufen Yu,Weida Gong,Xijuan Liu,Kwang-Su Park,Anqi Ma,Yi-Hsuan Tsai,Yu-Ming Shen,Takashi Onikubo,Wen Chieh Pi,David F. Allison,Jing Liu,Wei-Yi Chen,Lin Cai,Robert G. Roeder,Jian Jin,Gang Wang +16 more
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Recent achievements and current trajectories of diversity-oriented synthesis.
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bioPROTACs as versatile modulators of intracellular therapeutic targets including proliferating cell nuclear antigen (PCNA)
Shuhui Lim,Regina Khoo,Khong Ming Peh,Jinkai Teo,Shih Chieh Chang,Simon Ng,Greg L. Beilhartz,Roman A. Melnyk,Roman A. Melnyk,Charles W. Johannes,Christopher J. Brown,David P. Lane,Brian Henry,Anthony W. Partridge +13 more
TL;DR: This systematic study shows bioPROTAC design requirements are highly flexible in terms of both the binding domain and E3 ligase components, and shows that there is considerable flexibility in both the choice of substrate binders and the E 3 ligases.
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Recent Update on Development of Small-Molecule STAT3 Inhibitors for Cancer Therapy: From Phosphorylation Inhibition to Protein Degradation.
TL;DR: This Review aims to systematically summarize the progress of the last 5 years in the discovery of directive STAT3 small-molecule inhibitors and degraders, focusing primarily on their structural features, design strategies, and bioactivities.
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