Hybrid neural network approaches to predict drug–target binding affinity for drug repurposing: screening for potential leads for Alzheimer’s disease

Abstract: Alzheimer’s disease (AD) is a neurodegenerative disease that primarily affects elderly individuals. Recent studies have found that sigma-1 receptor (S1R) agonists can maintain endoplasmic reticulum stress homeostasis, reduce neuronal apoptosis, and enhance mitochondrial function and autophagy, making S1R a target for AD therapy. Traditional experimental methods are costly and inefficient, and rapid and accurate prediction methods need to be developed, while drug repurposing provides new ways and options for AD… Show more

“…In the implementation of search strategies for drug repurposing, drug-protein interaction networks, which map the relationships between drugs and their protein targets, play a pivotal role [8]. For AD, these networks can unveil potential drug candidates that might modulate key pathways implicated in the disease [9].…”

Drug and Protein Interaction Network Construction for Drug Repurposing in Alzheimer’s Disease

“…In the implementation of search strategies for drug repurposing, drug-protein interaction networks, which map the relationships between drugs and their protein targets, play a pivotal role [8]. For AD, these networks can unveil potential drug candidates that might modulate key pathways implicated in the disease [9].…”

Drug and Protein Interaction Network Construction for Drug Repurposing in Alzheimer’s Disease

AI/ML Approaches in Drug Design

SMILES2DTA: a CNN-based approach for identifying drug candidates and predicting drug-target binding affinity