Abstract

L-kynurenine (L-KYN) is an endogenous metabolite, that has been used as a neuroprotective strategy in experimental models. The protective effects of L-KYN have been attributed mainly to kynurenic acid (KYNA). However, considering that L-KYN is prone to oxidation, this redox property may play a substantial role in its protective effects. The aim of this work was to characterize the potential impact of the redox properties of L-KYN, in both synthetic and biological systems. First, we determined whether L-KYN scavenges reactive oxygen species (ROS) and prevents DNA and protein oxidative degradation in synthetic systems. The effect of L-KYN and KYNA (0.1–100 µM) on redox markers (ROS production, lipoperoxidation and cellular function) was compared in rat brain homogenates when exposed to FeSO4 (10 µM). Then, the effect of L-KYN administration (75 mg/kg/day for 5 days) on the GSH content and the enzymatic activity of glutathione reductase (GR) and glutathione peroxidase (GPx) was determined in rat brain tissue. Finally, brain homogenates from rats pretreated with L-KYN were exposed to pro-oxidants and oxidative markers were evaluated. The results show that L-KYN is an efficient scavenger of ●OH and ONOO−, but not O2●– or H2O2 and that it prevents DNA and protein oxidative degradation in synthetic systems. L-KYN diminishes the oxidative effect induced by FeSO4 on brain homogenates at lower concentrations (1 µM) when compared to KYNA (100 µM). Furthermore, the sub-chronic administration of L-KYN increased the GSH content and the activity of both GR and GPx, and also prevented the oxidative damage induced by the ex vivo exposure to pro-oxidants. Altogether, these findings strongly suggest that L-KYN can be considered as a potential endogenous antioxidant.

Highlights

  • L-kynurenine (L-KYN) is an intermediate metabolite of the kynurenine pathway (KP).In mammals, the KP is the primary catabolic route for L-tryptophan (TRP), 1

  • Scavenging Activity of L-KYN in Combinatorial Chemistry Assays we determined the redox profile of L-KYN using non-tissue synthetic syste

  • Reactive oxygen species were generated through combinatorial chemistry concentration-dependent manner, for example, the

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Summary

Introduction

The KP is the primary catabolic route for L-tryptophan (TRP), 1. Introduction representing approximately 95% of the total TRP catabolism, leading to the formation of. Various metabolites as kynurenines and for producing essential. The KP known is the primary catabolic route. L-tryptophan (TRP), the representcofactor for cellular redox reactions, nicotinamide adenine dinucleotide (NAD+) [1,2]. Ing approximately 95% of the total TRP catabolism, leading to the formation of various (Figure 1). KP metabolites have physiological and pathological relevance due to their metabolites known as kynurenines and producing the essential cofactor for neuroactive and redox properties [3,4,5,6,7,8,9,10,11,12].

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