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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The sperm-specific form of lactate dehydrogenase is required for fertility and is an attractive target for male contraception (a review).
TL;DR: This review considers the rationale behind this research, the development paths pursued, obstacles encountered, and the renewed interest in going forward toward development of a male contraceptive mediated by the inhibition of the sperm-specific form of LDHC4.
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Development of photocontrolled BRD4 PROTACs for tongue squamous cell carcinoma (TSCC).
Zhenzhen Li,Siyue Ma,Xingye Yang,Ling Zhang,Dong Liang,Gaopan Dong,Lupei Du,Zhenghua Lv,Minyong Li +8 more
TL;DR: In this paper, photo-controlled PROTACs were proposed to overcome this issue, in which they can be triggered by ultraviolet A (UVA) or visible light to induce the degradation of the target protein.
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Unravelling the pharmacologic opportunities and future directions for targeted therapies in gastro-intestinal cancers part 2: Neuroendocrine tumours, hepatocellular carcinoma, and gastro-intestinal stromal tumours
Cindy Neuzillet,Louis de Mestier,Benoit Rousseau,Olivier Mir,Mohamed Hebbar,Hemant M. Kocher,Philippe Ruszniewski,Christophe Tournigand +7 more
TL;DR: A comprehensive two-part review providing a panoramic approach of the successes and failures of targeted agents in GI cancers to unravel the pharmacologic opportunities and future directions for these agents inGI oncology is proposed.
Posted ContentDOI
SeqScreen: Accurate and Sensitive Functional Screening of Pathogenic Sequences via Ensemble Learning
Advait Balaji,Bryce Kille,Anthony D. Kappell,Gene D. Godbold,Diep M,Elworth Lra,Qian Z,Dreycey Albin,Daniel J. Nasko,Nidhi Shah,Mihai Pop,Santiago Segarra,Krista Ternus,Todd J. Treangen +13 more
TL;DR: SeqScreen as mentioned in this paper is a software tool that can accurately and sensitively characterize short DNA sequences using a set of curated Functions of Sequences of Concern (FunSoCs), novel functional labels specific to microbial pathogenesis which describe the pathogenic potential of individual proteins.
Journal ArticleDOI
PROTAC technology as a novel tool to identify the target of lathyrane diterpenoids
Yanli Wu,Yueying Yang,Wei Wang,Dejuan Sun,Mengzhu Zheng,Yirong Zhou,Jing Liang,Man Zhu,Hua Ling Li,Lixia Chen +9 more
TL;DR: It is indicated that MAFF is a potential target of ZCY020 and other lathyrane diterpenoids, and that PROTAC technology can be an innovative approach and a useful supplement for target identification of natural products.
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TL;DR: The results indicate that large, annotated cell-line collections may help to enable preclinical stratification schemata for anticancer agents and the generation of genetic predictions of drug response in the preclinical setting and their incorporation into cancer clinical trial design could speed the emergence of ‘personalized’ therapeutic regimens.
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