AI Article Synopsis

  • Human 5-lipoxygenase (5-LO) is an important enzyme that helps produce substances called leukotrienes, which are involved in the immune response and can cause inflammation and cancer.
  • Researchers found new chemical compounds that effectively block 5-LO, particularly focusing on a family of inhibitors called tyrphostins.
  • Two specific compounds, degrasyn and AG556, were identified as strong 5-LO blockers that work by attaching to parts of the enzyme, which could lead to new treatments for inflammatory diseases and cancer.

Article Abstract

Human 5-lipoxygenase (5-LO) is the key enzyme in the biosynthesis of leukotrienes, mediators of the innate immune system that also play an important role in inflammatory diseases and cancer. In this study, we present compounds, containing a Michael-reactive cyanoacrylate moiety as potent inhibitors of 5-LO. Representatives of the tyrosine kinase inhibitor family called tyrphostins, structurally related to known 5-LO inhibitors, were screened for their 5-LO inhibitory properties using recombinant human 5-LO, intact human PMNL (polymorphonuclear leukocytes), and PMNL homogenates. Their mode of action was characterized by the addition of glutathione, using a fourfold cysteine 5-LO mutant and mass spectrometry analysis. SAR studies revealed several members of the tyrphostin family containing a Michael-reactive cyanoacrylate to efficiently inhibit 5-LO. We identified degrasyn (IC 0.11 µM), tyrphostin A9 (IC 0.8 µM), AG879 (IC 78 nM), and AG556 (IC 64 nM) as potent 5-LO inhibitors. Mass spectrometry analysis revealed that degrasyn and AG556 covalently bound to up to four cysteines, including C416 and/or C418 which surround the substrate entry site. Furthermore, the 5-LO inhibitory effect of degrasyn was remarkably impaired by the addition of glutathione or by the mutation of cysteines to serines at the surface of 5-LO. We successfully identified several tyrphostins as potent inhibitors of human 5-LO. Degrasyn and AG556 were able to covalently bind to 5-LO via their cyanoacrylate moiety. This provides a promising mechanism for targeting 5-LO by Michael acceptors, leading to new therapeutic opportunities in the field of inflammation and cancer.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11582101PMC
http://dx.doi.org/10.1007/s00424-024-03019-7DOI Listing

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