Abstract
Diagnosis of non-symptomatic epilepsy includes a history of two or more seizures and brain imaging to rule out structural changes like trauma, tumor, infection. Such analysis can be problematic. It is important to develop capabilities to help identify non-symptomatic epilepsy in order to better monitor and understand the condition. This understanding could lead to improved diagnostics and therapeutics. Serum mass peak profiling was performed using electrospray ionization mass spectrometry (ESI-MS). A comparison of sera mass peaks between epilepsy and control groups was performed via leave one [serum sample] out cross-validation (LOOCV). MS/MS peptide analysis was performed on serum mass peaks to compare epilepsy patient and control groups. LOOCV identified significant differences between the epilepsy patient group and control group (p = 10−22). This value became non-significant (p = 0.10) when the samples were randomly allocated between the groups and reanalyzed by LOOCV. LOOCV was thus able to distinguish a non-symptomatic epilepsy patient group from a control group based on physiological differences and underlying phenotype. MS/MS was able to identify potential peptide/protein changes involved in this epilepsy versus control comparison, with 70% of the top 100 proteins indicating overall neurologic function. Specifically, peptide/protein sera changes suggested neuro-inflammatory, seizure, ion-channel, synapse, and autoimmune pathways changing between epilepsy patients and controls.
Highlights
Epilepsies are brain disorders characterized by recurrent seizures coupled with reduced thresholds for such seizures [1,2]
The bioinformatics/systems biology analysis of peptide/protein changes associated with epilepsy suggest cell pathways/biochemical systems affected/altered include neuro-inflammation, seizure/epilepsy, synaptic transmission, cognitive impairment, behavior, traumatic brain injury (TBI), brain damage, blood–brain barrier, and ion-channels
A clear demarcation/separation is observed between the epilepsy patients and control patients in the % of epilepsy leave one [serum sample] out cross-validation (LOOCV) classified patient serum mass peaks (y axis, 106–118 peaks utilized)
Summary
Epilepsies are brain disorders characterized by recurrent seizures coupled with reduced thresholds for such seizures [1,2]. In about 40% of epilepsy cases, symptomatic/structural brain changes are not evident (non-symptomatic, idiopathic, epilepsy of unknown etiology) upon MRI or CT brain imaging. Unknown gene changes in epilepsy in general could be very complex since 50% of the genes in the human genome are expressed in the human fetal developing brain [9]. Anti-epileptic drugs (AEDs) do suppress recurrent seizures in a majority of cases; about 30–40% of affected individuals remain refractory to drugs. These medications do not affect or ameliorate underlying epileptogenesis biochemical/cellular processes [2]
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