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Benchmarking in vitro covalent binding burden as a tool to assess potential toxicity caused by nonspecific covalent binding of covalent drugs.
Author: DahalUpendra P, GilbertAdam M, ObachR Scott
Original Abstract of the Article :
Despite several advantages of covalent inhibitors (such as increased biochemical efficiency, longer duration of action on the target, and lower efficacious doses) over their reversible binding counterparts, there is a reluctance to use covalent inhibitors as a drug design strategy in pharmaceutical ...See full text at original site
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引用元:
https://doi.org/10.1021/tx400301q
データ提供:米国国立医学図書館(NLM)
Covalent Inhibitors: A Balancing Act of Benefits and Risks
The field of drug design is a vast desert, full of challenges. One challenge lies in the development of covalent inhibitors. These molecules, like a tightly bound oasis in the desert, offer several advantages, such as increased biochemical efficiency, longer duration of action, and lower efficacious doses. However, there is a reluctance to embrace them due to the fear of them binding to unintended targets, like a thirsty traveler mistaking a mirage for a real oasis.
This research, using in vitro and in vivo studies, aimed to identify a threshold limit for nonspecific covalent binding. The idea is that if we keep the binding below this threshold, we can avoid the toxic effects of these drugs. The authors explored this by studying nine covalent binding drugs and their reactions with human hepatocytes. They discovered that the daily covalent binding burden of marketed covalent drugs was under 10 mg/day, aligning with the threshold value for metabolically activated reversible drugs.
Interestingly, they also found that the intrinsic reactivity of the drugs did not always correlate with the observed covalent binding. This suggests that simply looking at the reactivity of the drug might not be enough to predict its potential toxicity.
Understanding the Threshold of Covalent Binding
The study provides evidence for a potential threshold limit for nonspecific covalent binding, which could be a crucial factor in the development of safer covalent drugs. This threshold limit is a valuable insight for scientists who are working on these drugs. While the research focuses on covalent inhibitors, it provides a framework for understanding the potential impact of nonspecific binding on the safety of other drug classes.
Implications for Drug Development and Safety
This research highlights the importance of carefully considering the potential toxicity of covalent inhibitors during drug development. It suggests that a thorough understanding of their nonspecific binding profile is essential for designing safe and effective drugs. This is particularly important in the context of developing new covalent drugs, especially for diseases where there are limited treatment options.
Dr. Camel's Conclusion
This research is like a well in the desert, providing a much-needed source of insight into the potential toxicity of covalent inhibitors. While we celebrate the potential benefits of these drugs, we need to be mindful of the risks associated with their nonspecific binding. By carefully considering the threshold limit for nonspecific binding, scientists can pave the way for the development of safe and effective covalent drugs.
Date :
- Date Completed 2014-06-17
- Date Revised 2018-12-02
Further Info :
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