A site-moiety map and virtual screening approach for discovery of novel 5-LOX inhibitors

Kai-Cheng Hsu,Jinn-Moon Yang,Shiow-Lin Pan,Wei-Chun Huangfu,Chung-Ming Sun,Min-Wu Chao,Yi-Ying Chen,Shey-Cherng Tzou,Tony Eight Lin,Jih-Chin Lee,Tzu-Ying Sung

doi:10.1038/s41598-020-67420-9

Abstract

The immune system works in conjunction with inflammation. Excessive inflammation underlies various human diseases, such as asthma, diabetes and heart disease. Previous studies found that 5-lipoxygenase (5-LOX) plays a crucial role in metabolizing arachidonic acid into inflammatory mediators and is a potential therapeutic target. In this study, we performed an in silico approach to establish a site-moiety map (SiMMap) to screen for new 5-LOX inhibitors. The map is composed of several anchors that contain key residues, moiety preferences, and their interaction types (i.e., electrostatic (E), hydrogen-bonding (H), and van der Waals (V) interactions) within the catalytic site. In total, we identified one EH, one H, and five V anchors, within the 5-LOX catalytic site. Based on the SiMMap, three 5-LOX inhibitors (YS1, YS2, and YS3) were identified. An enzyme-based assay validated inhibitory activity of YS1, YS2, and YS3 against 5-LOX with an IC50 value of 2.7, 4.2, and 5.3 μM, respectively. All three inhibitors significantly decrease LPS-induced TNF-α and IL-6 production, which suggests its potential use an anti-inflammatory agent. In addition, the identified 5-LOX inhibitors contain a novel scaffold. The discovery of these inhibitors presents an opportunity for designing specific anti-inflammatory drugs.

Highlights

The immune system works in conjunction with inflammation
5-LOX site-moiety map (SiMMap) and the virtual screening workflow. 5-LOX plays an important role in synthesizing leukotrienes, which are known inflammatory mediators, from arachidonic acid[21]
The SiMMap consists of anchors that are identified within the catalytic site[24]

Summary

Introduction

The immune system works in conjunction with inflammation. Excessive inflammation underlies various human diseases, such as asthma, diabetes and heart disease. Previous studies found that 5-lipoxygenase (5-LOX) plays a crucial role in metabolizing arachidonic acid into inflammatory mediators and is a potential therapeutic target. We performed an in silico approach to establish a site-moiety map (SiMMap) to screen for new 5-LOX inhibitors. The identified 5-LOX inhibitors contain a novel scaffold The discovery of these inhibitors presents an opportunity for designing specific anti-inflammatory drugs. Inflammation is an essential biological process in response to injury and infection This process regulates blood flow and vascular permeability by releasing a variety of inflammatory mediators. Cellular assays identified three inhibitors that suppress 5-LOX activity and reduce expression levels of pro-inflammatory mediators TNF-α and IL-69. The identification of 5-LOX inhibitors with novel scaffolds by establishing a SiMMap of the 5-LOX catalytic site presents a new prospect for designing novel anti-inflammatory drugs

Objectives

Methods

Results

Conclusion