Litcius/Paper detail

Singlet‐Oxygen‐Induced Phospholipase A<sub>2</sub> Inhibition: A Major Role for Interfacial Tryptophan Dioxidation

Zahra Nasri, Seyedali Memari, Sebastian Wenske, Ramona Clemen, Ulrike Martens, Mihaela Delcea, Sander Bekeschus, Klaus‐Dieter Weltmann, Thomas von Woedtke, Kristian Wende

2021Chemistry - A European Journal32 citationsDOIOpen Access PDF

Abstract

Abstract Several studies have revealed that various diseases such as cancer have been associated with elevated phospholipase A 2 (PLA 2 ) activity. Therefore, the regulation of PLA 2 catalytic activity is undoubtedly vital. In this study, effective inactivation of PLA 2 due to reactive species produced from cold physical plasma as a source to model oxidative stress is reported. We found singlet oxygen to be the most relevant active agent in PLA 2 inhibition. A more detailed analysis of the plasma‐treated PLA 2 identified tryptophan 128 as a hot spot, rich in double oxidation. The significant dioxidation of this interfacial tryptophan resulted in an N‐formylkynurenine product via the oxidative opening of the tryptophan indole ring. Molecular dynamics simulation indicated that the efficient interactions between the tryptophan residue and phospholipids are eliminated following tryptophan dioxidation. As interfacial tryptophan residues are predominantly involved in the attaching of membrane enzymes to the bilayers, tryptophan dioxidation and indole ring opening leads to the loss of essential interactions for enzyme binding and, consequently, enzyme inactivation.

Topics & Concepts

TryptophanIndole testPhospholipase A2Singlet oxygenChemistryEnzymeBiophysicsBiochemistryReactive oxygen speciesMembraneOxygenOrganic chemistryBiologyAmino acidHeme Oxygenase-1 and Carbon MonoxideHemoglobin structure and functionNeutrophil, Myeloperoxidase and Oxidative Mechanisms