Kynurenine Aminotransferase Isozyme Inhibitors: A Review.

Alireza Nematollahi,Guanchen Sun,W Church,Gayan Jayawickrama

doi:10.3390/ijms17060946

Alireza Nematollahi, Guanchen Sun + Show 2 more

Open Access

https://doi.org/10.3390/ijms17060946

Copy DOI

Abstract

Kynurenine aminotransferase isozymes (KATs 1–4) are members of the pyridoxal-5’-phosphate (PLP)-dependent enzyme family, which catalyse the permanent conversion of l-kynurenine (l-KYN) to kynurenic acid (KYNA), a known neuroactive agent. As KATs are found in the mammalian brain and have key roles in the kynurenine pathway, involved in different categories of central nervous system (CNS) diseases, the KATs are prominent targets in the quest to treat neurodegenerative and cognitive impairment disorders. Recent studies suggest that inhibiting these enzymes would produce effects beneficial to patients with these conditions, as abnormally high levels of KYNA are observed. KAT-1 and KAT-3 share the highest sequence similarity of the isozymes in this family, and their active site pockets are also similar. Importantly, KAT-2 has the major role of kynurenic acid production (70%) in the human brain, and it is considered therefore that suitable inhibition of this isozyme would be most effective in managing major aspects of CNS diseases. Human KAT-2 inhibitors have been developed, but the most potent of them, chosen for further investigations, did not proceed in clinical studies due to the cross toxicity caused by their irreversible interaction with PLP, the required cofactor of the KAT isozymes, and any other PLP-dependent enzymes. As a consequence of the possibility of extensive undesirable adverse effects, it is also important to pursue KAT inhibitors that reversibly inhibit KATs and to include a strategy that seeks compounds likely to achieve substantial interaction with regions of the active site other than the PLP. The main purpose of this treatise is to review the recent developments with the inhibitors of KAT isozymes. This treatise also includes analyses of their crystallographic structures in complex with this enzyme family, which provides further insight for researchers in this and related studies.

Highlights

Kynurenine aminotransferase (KAT) isozymes, biologically active as homodimers, belong to the PLP-dependent enzyme family (PLP is covalently linked to the lysine residue of the enzyme through the Schiff base trans-aldimine linkage)
KAT-4 is the last member of KATs, and though not extensively characterized yet, one crystal structure of hKAT-4 has been deposited in the Protein Data Bank (PDB) [13]
The range of α-ketoacids used in the studies was on rat and mouse KAT-4, and most of them were suitable; but the group the worked on hKAT-4 used α-ketoglutarate as a co-substrate alone [5,13]

Summary

Introduction

Kynurenine aminotransferase (KAT) isozymes, biologically active as homodimers, belong to the PLP (pyridoxal-5’-phosphate)-dependent enzyme family (PLP is covalently linked to the lysine residue of the enzyme through the Schiff base trans-aldimine linkage). These enzymes produce a crucial neuroactive compound, kynurenic acid (KYNA), through an irreversible transamination of a metabolite along the tryptophan catabolic pathway, named kynurenine (KYN) [1,2,3]. KAT-3, the isoform discovered in this enzyme family, shows the highest identity and similarity to KAT-1 [21] Their resemblance is considered to be substantial, but there is no crystallographic study on hKAT-3. TP-fi2,zer, sevanerdaflrcoommtphoisu, nCdoms sphoaurnindg(3t9h)ewsaasmdeenteurmcleinuesddteopbiecttehde imnoFsitgpuorteen6twweitrhe aenvaIClu50aotefd53agnMain[s4t0]h.KAT-2, and from this, Compound (39) was determined to be the most potent with an IC50 of 53 nM [40]

A: N or C X: N or C

H H HH3C3COO

Interactions of Inhibitors and KATs

Findings

Conclusions