Short‐Term Effects of Pilocarpine on Rat Hippocampal Neurons in Culture

Priel, Margareth Rose; Albuquerque, E X

doi:10.1046/j.1528-1157.43.s.5.18.x

Cited by 29 publications

(18 citation statements)

References 24 publications

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“…3). It has recently been demonstrated that, in presence of 1 to 10 \iM pilocarpine, cultured hippocampal neurones suffer an imbalance between inhibitory and excitatory transmission, which could be involved in the generation of repetitive seizures observed in rats during the acute phase of the pilocarpine model of epilepsy (Priel and Albuquerque, 2002). Unfortunately, no comparable information is available yet, regarding neocortical neurones.…”

Section: Discussionmentioning

confidence: 99%

Malnutrition and REM-sleep Deprivation Modulate in Rats the Impairment of Spreading Depression by a Single Sub-convulsing Dose of Pilocarpine

Vasconcelos¹,

Oliveira²,

Costa³

et al. 2004

Nutritional Neuroscience

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This study aimed to investigate the effect of a single injection of pilocarpine upon the phenomenon of cortical spreading depression (SD), in adult rats submitted to early malnutrition and/or to REM-sleep deprivation for 72h prior to the SD-recordings. The SD was recorded continuously for 3-4h in 13 well-nourished (W) and 15 early-malnourished (M) adult rats. One to two hours after the beginning of the recording session, a sub-convulsing intraperitoneal (i.p.) injection of pilocarpine (190mg/kg) was applied and its effects on SD were studied during the rest of the recording session. Pilocarpine reduced markedly the ECoG amplitudes in all animals and decreased the SD velocity of propagation in the M-, but not in the W-rats, as compared with the pre-drug values for the same animals. In additional 9W- and 10 M-animals, REM-sleep deprivation was induced during the 72 h preceding the SD-recording session. This condition enhanced the pilocarpine effects on SD in the W-, but not in the M-rats, as compared to the respective non-deprived (ND) groups. The results indicate an important acute cholinergic influence on SD, acting by means of pilocarpine-activated muscarinic receptors. This effect seems to be differentially modulated by sleep deprivation and malnutrition.

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Section: Discussionmentioning

confidence: 99%

Malnutrition and REM-sleep Deprivation Modulate in Rats the Impairment of Spreading Depression by a Single Sub-convulsing Dose of Pilocarpine

Vasconcelos¹,

Oliveira²,

Costa³

et al. 2004

Nutritional Neuroscience

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“…In this model, muscarinic acetylcholine receptor receptor 1 (M 1 ) was shown to be important for development of seizures, since mice lacking this receptor failed to develop seizures following pilocarpine injection (Hamilton et al, ). Downstream of M 1 receptor activation, the homeostatic balance of neuronal excitation–inhibition is tipped toward increased excitability presumably at least in part by increase in glutamate release and sustained NMDA receptor activation (Priel and Albuquerque, ; Smolders et al, ). Although beyond the scope of this review, further details of the mechanics and precise pathological features of these models can be found in several excellent reviews of the kainic acid and pilocarpine models of experimental seizures/epilepsy (Curia et al, ; Levesque and Avoli, ; Levesque et al, ; Turski et al, ).…”

Section: Epilepsy: a Global Neurological Disordermentioning

confidence: 99%

Microglia–Neuron Communication in Epilepsy

Eyo

Murugan

2016

Glia

214

196

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Epilepsy has remained a significant social concern and financial burden globally. Current therapeutic strategies are based primarily on neurocentric mechanisms that have not proven successful in at least a third of patients, raising the need for novel alternative and complementary approaches. Recent evidence implicates glial cells and neuroinflammation in pathogenesis of epilepsy with the promise of targeting these cells to complement existing strategies. Specifically, microglial involvement, as a major inflammatory cell in the epileptic brain, has been poorly studied. In this review, we highlight microglial reaction to experimental seizures, discuss microglial control of neuronal activities, and propose the functions of microglia during acute epileptic phenotypes, delayed neurodegeneration and aberrant neurogenesis. Future research that would help fill in the current gaps in our knowledge including epilepsy-induced alterations in basic microglial functions, neuro-microglial interactions during chronic epilepsy, and microglial contributions to developmental seizures. Studying the role of microglia in epilepsy could inform therapies to better alleviate the disease.

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“…After the initial period of SE, there is a “latent period” during which significant neural reorganization occurs followed by chronic life-long susceptibility to spontaneous, recurrent seizures (Cavalheiro et al, 1996; Curia et al, 2008; Müller et al, 2009; Perez-Mendes et al, 2011; Turski et al, 1989, 1984, 1983). The maintenance and generalization of SE and the development of spontaneous recurrent seizures (SRS) is thought to occur through hyperglutamatergic activity via NMDA receptors in the hippocampus (Nagao et al, 1996; Priel and Albuquerque, 2002; Smolders et al, 1997). Therefore, pilocarpine administration in wild-type mice provides the opportunity to assess novel therapies that interfere with excessive glutamate signaling.…”

Section: 1 Introductionmentioning

confidence: 99%

Activation of Group 2 metabotropic glutamate receptors reduces behavioral and electrographic correlates of pilocarpine induced status epilepticus

Caulder¹,

Riegle²,

Godwin³

2014

Epilepsy Research

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Novel treatments for epilepsy are necessary because many epilepsy patients are resistant to medication. Metabotropic glutamate receptors (mGluRs), specifically mGluR 2 and 3, may serve as antiepileptic targets because of their role in controlling synaptic release. In this study, we administered a Group 2 mGluR agonist, LY379268, one of two mGluR2-specific positive allosteric modulators, BINA or CBiPES, or a cocktail of both BINA and LY379268 in a series of experiments using the pilocarpine model of SE. In one study, groups received treatments 15 minutes prior to pilocarpine, while in a second study groups received treatments after SE had been initiated to determine whether the drugs could reduce development and progression of SE. We measured bouts of stage 5 seizures, latency to the first seizure, and the maximum Racine score to characterize the seizure severity. We analyzed mouse EEG with implanted electrodes using a power analysis. We found that pretreatment and posttreatment with LY379268 was effective at reducing both behavioral correlates and power in EEG bandwidths associated with seizure, while CBiPES was less effective and BINA was ineffective. These data generally support continued development of mGluR2 pharmacology for novel antiepileptic drugs, though further study with additional drugs and concentrations will be necessary.

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Short‐Term Effects of Pilocarpine on Rat Hippocampal Neurons in Culture

Cited by 29 publications

References 24 publications

Malnutrition and REM-sleep Deprivation Modulate in Rats the Impairment of Spreading Depression by a Single Sub-convulsing Dose of Pilocarpine

Malnutrition and REM-sleep Deprivation Modulate in Rats the Impairment of Spreading Depression by a Single Sub-convulsing Dose of Pilocarpine

Microglia–Neuron Communication in Epilepsy

Activation of Group 2 metabotropic glutamate receptors reduces behavioral and electrographic correlates of pilocarpine induced status epilepticus

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