Disease Modifying Effects of the Spider Toxin Parawixin2 in the Experimental Epilepsy Model

Disease Modifying Effects of the Spider Toxin Parawixin2 in the Experimental Epilepsy Model

(1) Background: Temporal lobe epilepsy (TLE) is the most common type of epilepsy in adults. It is also the one with the highest percentage of drug-resistance to the current available anti-epileptic drugs (AED). Additionaly, most antiepileptic drugs are only able to control seizures in epileptogenesi...

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Main Authors: Lívea Dornela Godoy, José Luiz Liberato, Marcus Vinícius Batista Celani, Leonardo Gobbo-Neto, Norberto Peporine Lopes, Wagner Ferreira dos Santos
Format: Article
Language:English
Published: MDPI AG 2017-08-01
Series:Toxins
Subjects:
lithium-pilocarpine model
temporal lobe epilepsy
Parvalbumin
GABA transporter inhibitor
neuroprotection
hippocampus
Spider toxin
Parawixia bistriata
Tiagabine
Online Access:https://www.mdpi.com/2072-6651/9/9/262
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spelling doaj-5850076e00ae467a93a3344be41874552020-11-25T00:16:49ZengMDPI AGToxins2072-66512017-08-019926210.3390/toxins9090262toxins9090262Disease Modifying Effects of the Spider Toxin Parawixin2 in the Experimental Epilepsy ModelLívea Dornela Godoy0José Luiz Liberato1Marcus Vinícius Batista Celani2Leonardo Gobbo-Neto3Norberto Peporine Lopes4Wagner Ferreira dos Santos5Laboratório de Neurobiologia e Peçonhas (LNP), Faculdade de Filosofia, Ciências e Letras de Ribeirão Preto, Universidade de São Paulo, Av. Bandeirantes, 3900, CEP 14040-901 Ribeirão Preto, São Paulo, BrazilLaboratório de Neurobiologia e Peçonhas (LNP), Faculdade de Filosofia, Ciências e Letras de Ribeirão Preto, Universidade de São Paulo, Av. Bandeirantes, 3900, CEP 14040-901 Ribeirão Preto, São Paulo, BrazilLaboratório de Neurobiologia e Peçonhas (LNP), Faculdade de Filosofia, Ciências e Letras de Ribeirão Preto, Universidade de São Paulo, Av. Bandeirantes, 3900, CEP 14040-901 Ribeirão Preto, São Paulo, BrazilNúcleo de Pesquisas em Produtos Naturais e Sintéticos (NPPNS), Faculdade de Ciências Farmacêuticas de Ribeirão Preto, Universidade de São Paulo, Av. do Cafe s/n, CEP 14040-903 Ribeirão Preto, São Paulo, BrazilNúcleo de Pesquisas em Produtos Naturais e Sintéticos (NPPNS), Faculdade de Ciências Farmacêuticas de Ribeirão Preto, Universidade de São Paulo, Av. do Cafe s/n, CEP 14040-903 Ribeirão Preto, São Paulo, BrazilLaboratório de Neurobiologia e Peçonhas (LNP), Faculdade de Filosofia, Ciências e Letras de Ribeirão Preto, Universidade de São Paulo, Av. Bandeirantes, 3900, CEP 14040-901 Ribeirão Preto, São Paulo, Brazil(1) Background: Temporal lobe epilepsy (TLE) is the most common type of epilepsy in adults. It is also the one with the highest percentage of drug-resistance to the current available anti-epileptic drugs (AED). Additionaly, most antiepileptic drugs are only able to control seizures in epileptogenesis, but do not decrease the hippocampal neurodegenerative process. TLE patients have a reduced population of interneuronal cells, which express Parvalbumin (PV) proteins. This reduction is directly linked to seizure frequency and severity in the chronic period of epilepsy. There is therefore a need to seek new therapies with a disease-modifying profile, and with efficient antiepileptic and neuroprotective properties. Parawixin2, a compound isolated from the venom of the spider Parawixia bistriata, has been shown to inhibit GABA transporters (GAT) and to have acute anticonvulsant effects in rats. (2) Methods: In this work, we studied the effects of Parawixin2 and Tiagabine (an FDA- approved GAT inhibitor), and compared these effects in a TLE model. Rats were subjected to lithium-pilocarpine TLE model and the main features were evaluated over a chronic period including: (a) spontaneous recurrent seizures (SRS), (b) neuronal loss, and (c) PV cell density in different regions of the hippocampus (CA1, CA3, DG and Hilus). (3) Results: Parawixin2 treatment reduced SRS frequency whereas Tiagabine did not. We also found a significant reduction in neuronal loss in CA3 and in the hilus regions of the hippocampus, in animals treated with Parawixin2. Noteworthy, Parawixin2 significantly reversed PV cell loss observed particularly in DG layers. (4) Conclusions: Parawixin2 exerts a promising neuroprotective and anti-epileptic effect and has potential as a novel agent in drug design.https://www.mdpi.com/2072-6651/9/9/262lithium-pilocarpine modeltemporal lobe epilepsyParvalbuminGABA transporter inhibitorneuroprotectionhippocampusSpider toxinParawixia bistriataTiagabine
collection DOAJ
language English
format Article
sources DOAJ
author Lívea Dornela Godoy
José Luiz Liberato
Marcus Vinícius Batista Celani
Leonardo Gobbo-Neto
Norberto Peporine Lopes
Wagner Ferreira dos Santos
spellingShingle Lívea Dornela Godoy
José Luiz Liberato
Marcus Vinícius Batista Celani
Leonardo Gobbo-Neto
Norberto Peporine Lopes
Wagner Ferreira dos Santos
Disease Modifying Effects of the Spider Toxin Parawixin2 in the Experimental Epilepsy Model
Toxins
lithium-pilocarpine model
temporal lobe epilepsy
Parvalbumin
GABA transporter inhibitor
neuroprotection
hippocampus
Spider toxin
Parawixia bistriata
Tiagabine
author_facet Lívea Dornela Godoy
José Luiz Liberato
Marcus Vinícius Batista Celani
Leonardo Gobbo-Neto
Norberto Peporine Lopes
Wagner Ferreira dos Santos
author_sort Lívea Dornela Godoy
title Disease Modifying Effects of the Spider Toxin Parawixin2 in the Experimental Epilepsy Model
title_short Disease Modifying Effects of the Spider Toxin Parawixin2 in the Experimental Epilepsy Model
title_full Disease Modifying Effects of the Spider Toxin Parawixin2 in the Experimental Epilepsy Model
title_fullStr Disease Modifying Effects of the Spider Toxin Parawixin2 in the Experimental Epilepsy Model
title_full_unstemmed Disease Modifying Effects of the Spider Toxin Parawixin2 in the Experimental Epilepsy Model
title_sort disease modifying effects of the spider toxin parawixin2 in the experimental epilepsy model
publisher MDPI AG
series Toxins
issn 2072-6651
publishDate 2017-08-01
description (1) Background: Temporal lobe epilepsy (TLE) is the most common type of epilepsy in adults. It is also the one with the highest percentage of drug-resistance to the current available anti-epileptic drugs (AED). Additionaly, most antiepileptic drugs are only able to control seizures in epileptogenesis, but do not decrease the hippocampal neurodegenerative process. TLE patients have a reduced population of interneuronal cells, which express Parvalbumin (PV) proteins. This reduction is directly linked to seizure frequency and severity in the chronic period of epilepsy. There is therefore a need to seek new therapies with a disease-modifying profile, and with efficient antiepileptic and neuroprotective properties. Parawixin2, a compound isolated from the venom of the spider Parawixia bistriata, has been shown to inhibit GABA transporters (GAT) and to have acute anticonvulsant effects in rats. (2) Methods: In this work, we studied the effects of Parawixin2 and Tiagabine (an FDA- approved GAT inhibitor), and compared these effects in a TLE model. Rats were subjected to lithium-pilocarpine TLE model and the main features were evaluated over a chronic period including: (a) spontaneous recurrent seizures (SRS), (b) neuronal loss, and (c) PV cell density in different regions of the hippocampus (CA1, CA3, DG and Hilus). (3) Results: Parawixin2 treatment reduced SRS frequency whereas Tiagabine did not. We also found a significant reduction in neuronal loss in CA3 and in the hilus regions of the hippocampus, in animals treated with Parawixin2. Noteworthy, Parawixin2 significantly reversed PV cell loss observed particularly in DG layers. (4) Conclusions: Parawixin2 exerts a promising neuroprotective and anti-epileptic effect and has potential as a novel agent in drug design.
topic lithium-pilocarpine model
temporal lobe epilepsy
Parvalbumin
GABA transporter inhibitor
neuroprotection
hippocampus
Spider toxin
Parawixia bistriata
Tiagabine
url https://www.mdpi.com/2072-6651/9/9/262
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AT marcusviniciusbatistacelani diseasemodifyingeffectsofthespidertoxinparawixin2intheexperimentalepilepsymodel
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