Taurine, 2-aminoethanesulfonic acid, is one of the most abundant free amino acids especially in excitable tissues, with wide physiological actions. Several lines of evidence suggest that taurine may function as a potent inhibitory neuromodulator that regulate neuronal activity in many cerebral areas. Parenteral injection of kainic acid (KA), a glutamate receptor agonist, causes severe and stereotyped behavioral convulsions in mice and is used as a rodent model for human temporal lobe epilepsy. In the adult brain, inhibitory GABAergic interneurons modulate the activity of principal excitatory cells via their GABAA receptors and thus adjust excitatory output of neuronal circuits. The goal of this study was to examine the potential anti-convulsive effects of the neuro-active amino acid taurine, in the mouse model of limbic seizures. We used the glutamic acid decarboxylase (GAD) inhibitor isoniazid (100 mg.kg-1, s.c.) which induces seizures by interfering with GABA synthesis through inhibition of GAD activity followed by kainic acid (5 mg.kg-1, s.c.) a glutamate receptor agonist which is commonly used to induce limbic seizures.Using intracerebral recordings of field potentials found that taurine (43 mg.kg-1, s.c.) had a significant anti-epileptic effect when injected prior to isoniazid and KA. Furthermore, injection of taurine to a mouse undergoing limbic seizure completely stopped burst population spikes and restored neuronal firing to its baseline. Therefore, taurine is potentially capable of treating seizure-associated brain damage.
Keywords: Cortical ripples; Electrophysiology; Excitability; Isoniazid; Kainic acid; Seizures; Taurine.
© 2022. The Author(s), under exclusive license to Springer Nature Switzerland AG.