1. A systems approach identifies Enhancer of Zeste Homolog 2 (EZH2) as a protective factor in epilepsy
- Author
-
Barry Schoenike, Heidi L. Grabenstatter, Trina Basu, Avtar Roopra, Nadia Khan, Eli Wallace, Raymond Dingledine, Genesis Rodriguez, Caleb Sindic, Rama Maganti, and Margaret Johnson
- Subjects
0301 basic medicine ,Male ,Systems Analysis ,Gene Expression ,Neurological disorder ,Disease ,Bioinformatics ,Biochemistry ,Epileptogenesis ,Rats, Sprague-Dawley ,Transcriptome ,Mice ,Epilepsy ,Mathematical and Statistical Techniques ,0302 clinical medicine ,Medicine and Health Sciences ,Mammals ,0303 health sciences ,Multidisciplinary ,Statistics ,EZH2 ,Brain ,Eukaryota ,Genomics ,Animal Models ,3. Good health ,Neurology ,Experimental Organism Systems ,Physical Sciences ,Vertebrates ,Medicine ,medicine.symptom ,Factor Analysis ,Transcriptome Analysis ,Research Article ,Transcriptional Activation ,Science ,Mouse Models ,Status epilepticus ,Biology ,Research and Analysis Methods ,Rodents ,03 medical and health sciences ,Model Organisms ,Downregulation and upregulation ,DNA-binding proteins ,Genetics ,medicine ,Animals ,Humans ,Enhancer of Zeste Homolog 2 Protein ,Gene Regulation ,Statistical Methods ,Transcription factor ,030304 developmental biology ,business.industry ,Organisms ,Biology and Life Sciences ,Computational Biology ,Proteins ,Protective Factors ,Genome Analysis ,medicine.disease ,Rats ,Regulatory Proteins ,030104 developmental biology ,Amniotes ,Animal Studies ,business ,Mathematics ,030217 neurology & neurosurgery ,Transcription Factors - Abstract
Complex neurological conditions can give rise to large scale transcriptomic changes that drive disease progression. It is likely that alterations in one or a few transcription factors or cofactors underlie these transcriptomic alterations. Identifying the driving transcription factors/cofactors is a non-trivial problem and a limiting step in the understanding of neurological disorders. Epilepsy has a prevalence of 1% and is the fourth most common neurological disorder. While a number of anti-seizure drugs exist to treat seizures symptomatically, none is curative or preventive. This reflects a lack of understanding of disease progression. We used a novel systems approach to mine transcriptome profiles of rodent and human epileptic brain samples to identify regulators of transcriptional networks in the epileptic brain. We find that Enhancer of Zeste Homolog 2 (EZH2) regulates differentially expressed genes in epilepsy across multiple rodent models of acquired epilepsy. EZH2 undergoes a prolonged upregulation in the epileptic brain. A transient inhibition of EZH2 immediately after seizure induction robustly increases spontaneous seizure burden weeks later. Thus, EZH2 upregulation is a protective response mounted after a seizure. These findings are the first to characterize a role for EZH2 in opposing epileptogenesis and debut a bioinformatic approach to identify nuclear drivers of complex transcriptional changes in disease.Author SummaryEpilepsy is the fourth most common neurological disorder and has been described since the time of Hippocrates. Despite this, no treatments exist to stop epilepsy progression. This is fundamentally due to the complex nature of the disease. Epilepsy is associated with hundreds if not thousands of gene expression changes in the brain that are likely driven by a few key master regulators called transcription factors and cofactors. Finding the aberrantly acting factors is a complex problem that currently lacks a satisfactory solution. We used a novel datamining tool to define key master regulators of gene expression changes across multiple epilepsy models and patient samples. We find that a nuclear enzyme, EZH2, regulates a large number of genes in the rodent and patient epileptic brain and that it’s function is protective. Thus, inhibiting EZH2 greatly exacerbates seizure burden. This is the first report of a novel datamining tool to define drivers of large-scale gene changes and is also the first report of EZH2 induction as an endogenous protective response in the epilepsy.
- Published
- 2019