Drugs that function through covalent bond formation represent a considerable fraction of our repository of effective medicines but safety concerns and the complexity of developing covalent inhibitors has rendered covalent targeting a less attractive strategy for rational drug design. The recent approval of four covalent kinase inhibitors and the development of highly potent covalent kinase probes with exceptional selectivity has raised significant interest in industry and academic research and validated the concept of covalent kinase targeting for clinical applications. The abundance of cysteines at diverse positions in and around the kinase active site suggests that a large fraction of kinases can be targeted by covalent inhibitors. Herein, we review recent developments of this rapidly growing area in kinase drug development and highlight the unique opportunities and challenges of this strategy.Hold on tight: Covalent inhibition of protein kinases has led to inhibitors with exceptional selectivity and potency. The recent FDA approval of four such kinase inhibitors has spurred considerable interest in this targeting strategy, which offers unique opportunities but also new challenges for drug development.
New Structure of Key Protein Holds Clues for Better Drug Design - Drug Discovery & Development
New Structure of Key Protein Holds Clues for Better Drug Design - Drug Discovery & Development
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Drug Discovery & Development
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New Structure of Key Protein Holds Clues for Better Drug Design
Drug Discovery & Development
To solve this problem, the researchers used a technique called nuclear magnetic resonance (NMR) spectroscopy, which creates strong magnetic fields to locate the positions of probes in a sample. Wüthrich is a...
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01-29-2018 01:57 PM
Structure of A2aAR protein holds clues for better drug design - Drug Target Review
Structure of A2aAR protein holds clues for better drug design - Drug Target Review
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Drug Target Review
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Structure of A2aAR protein holds clues for better drug design
Drug Target Review
A2aAR protein holds clues for better drug design. Scientists have investigated a key protein used in drug design and discovered dynamic structural features that may lead to new ways to target diseases.
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01-03-2018 08:43 AM
[NMR paper] NMR-based drug development and improvement against malignant melanoma - implications for the MIA protein family.
NMR-based drug development and improvement against malignant melanoma - implications for the MIA protein family.
Related Articles NMR-based drug development and improvement against malignant melanoma - implications for the MIA protein family.
Curr Med Chem. 2017 Jun 08;:
Authors: Arnolds O, Zhong X, Yip KT, Schöpel M, Kohl B, Pütz S, Abdel-Jalil R, Stoll R
Abstract
The Melanoma Inhibitory Activity (MIA) protein is strongly expressed and secreted by malignant melanoma cells and was shown to promote melanoma development and...
New Protein Evolution Insight Could Improve Drug Design - Drug Discovery & Development
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New Protein Evolution Insight Could Improve Drug Design
Drug Discovery & Development
The team used a variety of techniques to characterize the two versions of the enzyme, including X-ray crystallography and nuclear magnetic resonance, analyses of DHFR amino-acid sequences and evaluations of the enzyme's functionality in cells and in ...
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New Protein Evolution Insight Could Improve Drug Design - Drug Discovery & Development
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10-01-2013 09:43 AM
Researchers Look at Averting Drug Resistance - Drug Discovery & Development
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Researchers Look at Averting Drug Resistance
Drug Discovery & Development
Kern and her team studied the protein using nuclear magnetic resonance spectroscopy, adding a drug mimetic in order to learn how the structure EmrE was designed and how it functioned as it was transportingâ??moving the drug from the inside of the cell ...
Researchers Look at Averting Drug Resistance - Drug Discovery & Development
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02-02-2012 09:43 PM
[NMR paper] Insights into the interactions between a drug and a membrane protein target by fluori
Insights into the interactions between a drug and a membrane protein target by fluorine cross-polarization magic angle spinning NMR.
Related Articles Insights into the interactions between a drug and a membrane protein target by fluorine cross-polarization magic angle spinning NMR.
Magn Reson Chem. 2004 Feb;42(2):204-11
Authors: Boland MP, Middleton DA
The fluorinated anti-psychotic drug trifluoperazine (TFP) has been shown to be a K(+)-competitive inhibitor of gastric H(+)/K(+)-ATPase, a membrane-embedded therapeutic target for peptic ulcer...
The Cysteinome of Protein Kinases as a Target in Drug Development
Linear Mode
