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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Journal ArticleDOI
Direct-to-Biology Accelerates PROTAC Synthesis and the Evaluation of Linker Effects on Permeability and Degradation
Charles E. Hendrick,Jeff R. Jorgensen,Charu Chaudhry,Iulia I. Strambeanu,Jean-François Brazeau,Jamie M. Schiffer,Zhicai Shi,Jennifer D. Venable,Scott E. Wolkenberg +8 more
TL;DR: Unexpected aspects of linker SAR was discovered, consistent with literature reports on “linkerology”, and the method dramatically speeds up empirical optimization, which has the potential to rapidly expand training sets for more complex prediction models.
Journal ArticleDOI
Degradation from the outside in: Targeting extracellular and membrane proteins for degradation through the endolysosomal pathway.
TL;DR: A comprehensive overview of targeted protein degradation (TPD) platforms that degrade extracellular proteins via outside-in approaches can be found in this article, with a focus on the recent development of Lysosome-targeting chimeras (LYTACs).
Journal ArticleDOI
Permeability of Cyclic Peptide Macrocycles and Cyclotides and Their Potential as Therapeutics
Spiros Liras,Kim F. McClure +1 more
TL;DR: Recent progress toward the design of cell permeable and orally bioavailable peptide macrocycles and cyclotides is discussed and design concepts that may be broadly relevant to drug discovery efforts beyond the rule of five are highlighted.
Book ChapterDOI
PROTACs, molecular glues and bifunctionals from bench to bedside: Unlocking the clinical potential of catalytic drugs.
TL;DR: In this chapter, the development of PROTACs will be discussed providing a historical perspective in parallel to the experimental progress made to understand this novel therapeutic modality, before presenting a compendium of all PROTAC targets reported in the literature to date.
Journal ArticleDOI
Selective Downregulation of JAK2 and JAK3 by an ATP-Competitive pan-JAK Inhibitor.
TL;DR: It is found that PF-956980 selectively downregulated JAK2 and JAK3 mRNA, corresponding to changes observed at the protein level, which highlights therapeutic opportunities for the development of pharmacological inhibitors that also modulate the expression of their cognate binding proteins.
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