AI Article Synopsis
- Innate inflammation above a certain level contributes to cardiovascular diseases, cancer, and other chronic conditions, with COX enzymes playing a critical role in the inflammatory process.
- COX-I is always present for basic functions, while COX-II is triggered by inflammatory cytokines and can worsen the inflammation, making COX-II a target for new anti-inflammatory drugs.
- Despite advancements in selective COX-II inhibitors with fewer gastrointestinal side effects, concerns about cardiovascular risks have led to the withdrawal of some of these drugs, highlighting the need for further research on the chemical structures and effectiveness of existing COX-II inhibitors to create safer options.
Article Abstract
Innate inflammation beyond a threshold is a significant problem involved in cardiovascular diseases, cancer, and many other chronic conditions. Cyclooxygenase (COX) enzymes are key inflammatory markers as they catalyze prostaglandins production and are crucial for inflammation processes. While COX-I is constitutively expressed and is generally involved in "housekeeping" roles, the expression of the COX-II isoform is induced by the stimulation of different inflammatory cytokines and also promotes the further generation of pro-inflammatory cytokines and chemokines, which affect the prognosis of various diseases. Hence, COX-II is considered an important therapeutic target for drug development against inflammation-related illnesses. Several selective COX-II inhibitors with safe gastric safety profiles features that do not cause gastrointestinal complications associated with classic anti-inflammatory drugs have been developed. Nevertheless, there is mounting evidence of cardiovascular side effects from COX-II inhibitors that resulted in the withdrawal of market-approved anti-COX-II drugs. This necessitates the development of COX-II inhibitors that not only exhibit inhibit potency but also are free of side effects. Probing the scaffold diversity of known inhibitors is vital to achieving this goal. A systematic review and discussion on the scaffold diversity of COX inhibitors are still limited. To address this gap, herein we present an overview of chemical structures and inhibitory activity of different scaffolds of known COX-II inhibitors. The insights from this article could be helpful in seeding the development of next-generation COX-II inhibitors.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10210234 | PMC |
| http://dx.doi.org/10.1021/acsomega.3c00692 | DOI Listing |
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