Exploring the Effects and Mechanisms of Neohesperidin Dihydrochalcone on Acute Lung Injury in Mice with Sepsis Using Network Pharmacology and Machine Learning
Meijun Liu, Ting Li, Xue Dai, Xueling Liu, Wang Deng

TL;DR
This study explores how neohesperidin dihydrochalcone (NHDC) reduces lung injury in sepsis by targeting the MAPK pathway and reducing inflammation and oxidative stress.
Contribution
The study identifies NHDC's mechanism in sepsis-induced lung injury through network pharmacology and machine learning, revealing key targets and pathways.
Findings
NHDC reduced oxidative stress and inflammation in sepsis-induced lung injury in mice.
NHDC binds to key targets in the MAPK pathway, including MAPK8, with stable molecular interactions.
In vivo experiments showed NHDC alleviated lung injury and inhibited MAPK pathway activation.
Abstract
Neohesperidin dihydrochalcone (NHDC) is a synthetic sweetener derived from neohesperidin and can improve pathological changes in sepsis-associated acute lung injury (SALI), but the mechanism by which NHDC inhibits SALI remains unclear. We evaluated the therapeutic effect of NHDC (100 mg/kg) and its potential mechanism using bioinformatics approaches with a Lipopolysaccharide (LPS)-induced SALI model (LPS: 10 mg/kg) in mice (n = 6). Bioinformatics analysis identified 176 shared targets between NHDC and SALI, which were enriched in the MAPK signaling pathway. Further screening yielded five key targets (MAPK14, MAPK8, KDR, CASP3, and RHOA) with significant clinical expression differences (p < 0.01). Molecular docking suggested that NHDC could bind to all five targets, with binding energies <−5.0 kJ/mol, and molecular dynamics indicated stable binding between NHDC and MAPK8 (total binding…
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Taxonomy
TopicsImmune Response and Inflammation · Computational Drug Discovery Methods · Sepsis Diagnosis and Treatment
