Conclusion
Our findings demonstrate that LITAF regulates MCL-1 ubiquitination, significantly impacting mitochondrial autophagy and contributing to neuronal damage in epilepsy. Targeting LITAF and its downstream mechanisms may offer a promising therapeutic strategy for managing epilepsy.
Methods
Employing single-cell RNA sequencing (scRNA-seq) to analyze brain tissue from epilepsy patients, along with high-throughput transcriptomics, we identified changes in gene expression. This was complemented by in vivo and in vitro experiments, including protein-protein interaction (PPI) network analysis, western blotting, and behavioral assessments in mouse models.
Objective
This study aims to investigate how the E3 ubiquitin ligase LITAF influences mitochondrial autophagy by modulating MCL-1 ubiquitination, and its role in the development of epilepsy.
Results
Neuronal cells in epilepsy patients exhibited significant gene expression alterations, with increased activity in apoptosis-related pathways and decreased activity in neurotransmitter-related pathways. LITAF was identified as a key upregulated factor, inhibiting mitochondrial autophagy by promoting MCL-1 ubiquitination, leading to increased neuronal damage. Knockdown experiments in mouse models further confirmed that LITAF facilitates MCL-1 ubiquitination, aggravating neuronal injury.