Abstract
Epilepsy refers to a group of neurological disorders of varying etiologies characterized by recurrent seizures, resulting in brain dysfunction. Endoplasmic reticulum (ER) stress is highly activated in the process of epilepsy-related brain injury. However, the mechanisms by which ER stress triggers neuronal apoptosis remain to be fully elucidated. Tribbles pseudokinase 3 (TRIB3) is a pseudokinase that affects a number of cellular functions, and its expression is increased during ER stress. Here, we sought to clarify the role of TRIB3 in neuronal apoptosis mediated by ER stress. In the kainic acid (KA) (10 mg/kg)-induced rat seizure model, we characterized neuronal injury and apoptosis after KA injection. KA induced an ER stress response, as indicated by elevated expression of glucose-regulated protein 78 (GRP78) and C/EBP homologous protein (CHOP). TRIB3 protein was upregulated concomitantly with the downregulation of phosphorylated-protein kinase B (p-AKT) in rats following KA administration. In rat cortical neurons treated with KA, TRIB3 knockdown by siRNA reduced the number of dying neurons, decreased the induction of GRP78 and CHOP and the activation of caspase-3, and blocked the dephosphorylation of AKT after KA treatment. Our findings indicate that TRIB3 is involved in neuronal apoptosis occurring after KA-induced seizure. The knockdown of TRIB3 effectively protects against neuronal apoptosis in vitro, suggesting that TRIB3 may be a potential therapeutic target for the treatment of epilepsy.
Highlights
Epilepsy is one of the most common neurological disorders in children
Our data demonstrate that Tribbles pseudokinase 3 (TRIB3) is elevated after kainic acid (KA)-induced excitotoxicity in vivo and in vitro; inhibition of TRIB3 attenuates the neuronal apoptosis observed after kainate in vitro; and the targeted downregulation of TRIB3 partially reverses the KA-mediated decrease in phospho-protein kinase B (AKT) levels in vitro
We show that TRIB3 plays a crucial role in mediating Endoplasmic reticulum (ER) stress-induced neuronal apoptosis, possibly by interacting with AKT
Summary
Epilepsy is one of the most common neurological disorders in children. More than 70% of patients successfully respond to the therapy with antiepileptic drugs, but a large number of resistant patients continue to experience recurrent seizures, leading to severe incapacitation and cognitive dysfunction (Jensen, 2014). Increasing evidence has revealed that neuronal apoptosis is a prominent feature in epileptogenesis and may contribute to the impairment of cognitive function (Hopkins et al, 2000; Henshall and Simon, 2005). Endoplasmic reticulum (ER) stress can induce neuronal apoptosis in association with many neurological diseases (Imai et al, 2001; Takahashi and Imai, 2003; Rao and Bredesen, 2004; Wang et al, 2005; Han et al, 2015), such as epilepsy, febrile seizures, and Alzheimer’s and Parkinson’s diseases. ER stress occurs under various stressors that provoke the accumulation
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