Spatiotemporal progression of ubiquitin-proteasome system inhibition after status epilepticus suggests protective adaptation against hippocampal injury

Engel, Tobías; Villarreal, Jaime Martínez de; Henke, Christine; Jiménez-Mateos, Eva M.; Sanz-Rodríguez, Amaya; Alves, Mariana; Hernandez-Santana, Yasmina; Brennan, Gary P.; Kenny, Aidan; Campbell, Aoife; Lucas, José J.; Henshall, David C.

doi:10.1186/s13024-017-0163-2

Cited by 23 publications

(24 citation statements)

References 79 publications

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“…To explore the response of GSK-3β to prolonged seizures, we used a well-characterized model of intra-amygdala KA-induced SE in mice 59 . As previously reported, SE resulted in hippocampal damage that was mainly localized to the ipsilateral CA3 subfield, although scattered cell death was present in the CA1 and the hilus regions (Fig.…”

Section: Resultsmentioning

confidence: 99%

Bi-directional genetic modulation of GSK-3β exacerbates hippocampal neuropathology in experimental status epilepticus

et al. 2018

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Glycogen synthase kinase-3 (GSK-3) is ubiquitously expressed throughout the brain and involved in vital molecular pathways such as cell survival and synaptic reorganization and has emerged as a potential drug target for brain diseases. A causal role for GSK-3, in particular the brain-enriched GSK-3β isoform, has been demonstrated in neurodegenerative diseases such as Alzheimer’s and Huntington’s, and in psychiatric diseases. Recent studies have also linked GSK-3 dysregulation to neuropathological outcomes in epilepsy. To date, however, there has been no genetic evidence for the involvement of GSK-3 in seizure-induced pathology. Status epilepticus (prolonged, damaging seizure) was induced via a microinjection of kainic acid into the amygdala of mice. Studies were conducted using two transgenic mouse lines: a neuron-specific GSK-3β overexpression and a neuron-specific dominant-negative GSK-3β (GSK-3β-DN) expression in order to determine the effects of increased or decreased GSK-3β activity, respectively, on seizures and attendant pathological changes in the hippocampus. GSK-3 inhibitors were also employed to support the genetic approach. Status epilepticus resulted in a spatiotemporal regulation of GSK-3 expression and activity in the hippocampus, with decreased GSK-3 activity evident in non-damaged hippocampal areas. Consistent with this, overexpression of GSK-3β exacerbated status epilepticus-induced neurodegeneration in mice. Surprisingly, decreasing GSK-3 activity, either via overexpression of GSK-3β-DN or through the use of specific GSK-3 inhibitors, also exacerbated hippocampal damage and increased seizure severity during status epilepticus. In conclusion, our results demonstrate that the brain has limited tolerance for modulation of GSK-3 activity in the setting of epileptic brain injury. These findings caution against targeting GSK-3 as a treatment strategy for epilepsy or other neurologic disorders where neuronal hyperexcitability is an underlying pathomechanism.

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Section: Resultsmentioning

confidence: 99%

Bi-directional genetic modulation of GSK-3β exacerbates hippocampal neuropathology in experimental status epilepticus

et al. 2018

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“…We have shown that experimental status epilepticus leads to an inhibition of the ubiquitin‐proteasome system (UPS), thereby potentially increasing P2Y 1 levels. UPS function is also altered during chronic epilepsy in mice . Seizure‐induced changes in receptor stability or internalization may also account for the increase in P2Y 1 levels .…”

Section: Discussionmentioning

confidence: 99%

Expression and function of the metabotropic purinergic P2Y receptor family in experimental seizure models and patients with drug‐refractory epilepsy

et al. 2017

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“…RNA extraction and qPCR. RNA extraction was performed using the Trizol method, as described previously (Engel et al, 2017b). Quantity and quality of RNA were measured using a Nanodrop Spectrophotometer (Thermo Fisher Scientific).…”

Section: Methodsmentioning

confidence: 99%

“…Western blot analysis. Western blot analysis was performed as described previously (Engel et al, 2017b). Lysis buffer containing phosphatase and protease inhibitors was used to homogenize hippocampal tissue and extract protein, which was quantified using a Tecan plate reader at 560 nm; 30 g of protein samples was loaded onto an acrylamide gel and separated by SDS-PAGE.…”

Section: Methodsmentioning

confidence: 99%

Context-Specific Switch from Anti- to Pro-epileptogenic Function of the P2Y₁ Receptor in Experimental Epilepsy

et al. 2019

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Extracellular ATP activates inflammatory responses to tissue injury. It is also implicated in establishing lasting network hyperexcitability in the brain by acting upon independent receptor systems. Whereas the fast-acting P2X channels have well-established roles driving neuroinflammation and increasing hyperexcitability, the slower-acting metabotropic P2Y receptors have received much less attention. Recent studies of P2Y 1 receptor function in seizures and epilepsy have produced contradictory results, suggesting that the role of this receptor during seizure pathology may be highly sensitive to context. Here, by using male mice, we demonstrate that the metabotropic P2Y 1 receptor mediates either proconvulsive or anticonvulsive responses, dependent on the time point of activation in relation to the induction of status epilepticus. P2Y 1 deficiency or a P2Y 1 antagonist (MRS2500) administered before a chemoconvulsant, exacerbates epileptiform activity, whereas a P2Y 1 agonist (MRS2365) administered at this time point is anticonvulsant. When these drugs are administered after the onset of status epilepticus, however, their effect on seizure severity is reversed, with the antagonist now anticonvulsant and the agonist proconvulsant. This result was consistent across two different mouse models of status epilepticus (intraamygdala kainic acid and intraperitoneal pilocarpine). Pharmacologic P2Y 1 blockade during status epilepticus reduces also associated brain damage, delays the development of epilepsy and, when applied during epilepsy, suppresses spontaneous seizures, in mice. Our data show a context-specific role for P2Y 1 during seizure pathology and demonstrate that blocking P2Y 1 after status epilepticus and during epilepsy has potent anticonvulsive effects, suggesting that P2Y 1 may be a novel candidate for the treatment of drug-refractory status epilepticus and epilepsy. This is the first study to fully characterize the contribution of a metabotropic purinergic P2Y receptor during acute seizures and epilepsy. The findings suggest that targeting P2Y 1 may offer a potential novel treatment strategy for drug-refractory status epilepticus and epilepsy. Our data demonstrate a context-specific role of P2Y 1 activation during seizures, switching from a proconvulsive to an anticonvulsive role depending on physiopathological context. Thus, our study provides a possible explanation for seemingly conflicting results obtained between studies of different brain diseases where P2Y 1 targeting has been proposed as a potential treatment strategy and highlights that the timing of pharmacological interventions is of critical importance to the understanding of how receptors contribute to the generation of seizures and the development of epilepsy.

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Spatiotemporal progression of ubiquitin-proteasome system inhibition after status epilepticus suggests protective adaptation against hippocampal injury

Cited by 23 publications

References 79 publications

Bi-directional genetic modulation of GSK-3β exacerbates hippocampal neuropathology in experimental status epilepticus

Bi-directional genetic modulation of GSK-3β exacerbates hippocampal neuropathology in experimental status epilepticus

Expression and function of the metabotropic purinergic P2Y receptor family in experimental seizure models and patients with drug‐refractory epilepsy

Context-Specific Switch from Anti- to Pro-epileptogenic Function of the P2Y₁ Receptor in Experimental Epilepsy

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Spatiotemporal progression of ubiquitin-proteasome system inhibition after status epilepticus suggests protective adaptation against hippocampal injury

Cited by 23 publications

References 79 publications

Bi-directional genetic modulation of GSK-3β exacerbates hippocampal neuropathology in experimental status epilepticus

Bi-directional genetic modulation of GSK-3β exacerbates hippocampal neuropathology in experimental status epilepticus

Expression and function of the metabotropic purinergic P2Y receptor family in experimental seizure models and patients with drug‐refractory epilepsy

Context-Specific Switch from Anti- to Pro-epileptogenic Function of the P2Y1 Receptor in Experimental Epilepsy

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Context-Specific Switch from Anti- to Pro-epileptogenic Function of the P2Y₁ Receptor in Experimental Epilepsy