P. Winter scite author profile

Background and purpose:A functional link between seizure-induced P-glycoprotein overexpression at the blood-brain barrier and therapeutic failure has been suggested by several studies using rodent epilepsy models and human epileptic tissue. Recently, we reported that interference with the mechanisms that up-regulate P-glycoprotein in response to seizure activity might provide a novel approach to control its expression in the epileptic brain. Based on these data, we hypothesized that blocking the appropriate signalling cascade by cyclooxygenase-2 inhibition should improve brain penetration of antiepileptic drugs and help to overcome drug resistance. Experimental approach: Effects of the selective cyclooxygenase-2 inhibitor celecoxib on the response to the P-glycoprotein substrate, phenobarbital, was evaluated in a chronic model of drug-resistant temporal lobe epilepsy in rats. Drug-resistant rats selected from this model exhibit a marked overexpression of P-glycoprotein in the hippocampus and other limbic brain regions. Key results: Responders and non-responders were selected from a group of rats with spontaneous recurrent seizures after prolonged treatment with phenobarbital at maximum tolerated doses. The efficacy of phenobarbital was re-evaluated following a 6 day treatment with celecoxib and the frequency of spontaneous recurrent seizures was significantly reduced in both groups of rats, phenobarbital responders or non-responders selected from the previous drug trial. Conclusions and implications:Pretreatment with the cyclooxygenase-2 inhibitor restored the anticonvulsant activity of phenobarbital in rats that failed to exhibit a relevant response before celecoxib treatment. Our data provide further support for a novel therapeutic approach to overcome transporter-mediated drug resistance in epilepsies.

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Uptake and binding of the serotonin 5-HT1A antagonist [18F]-MPPF in brain of rats: Effects of the novel P-glycoprotein inhibitor tariquidar

Fougère

Böning

Bartmann

et al. 2010

NeuroImage

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Imaging of P‐glycoprotein–mediated pharmacoresistance in the hippocampus: Proof‐of‐concept in a chronic rat model of temporal lobe epilepsy

et al. 2010

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SUMMARYPurpose: Based on experimental findings, overexpression of P-glycoprotein at the blood-brain barrier has been suggested to be a contributor to pharmacoresistance of the epileptic brain. We test a technique for evaluation of interindividual differences of elevated transporter function, through microPET analysis of the impact of the P-glycoprotein modulator tariquidar. The preclinical study is intended for eventual translation to clinical research of patients with pharmacoresistant seizure disorders. Methods: We made a microPET evaluation of the effects of tariquidar on the brain kinetics of the P-glycoprotein substrate [18 F]MPPF in a rat model with spontaneous recurrent seizures, in which it has previously been demonstrated that phenobarbital nonresponders exhibit higher P-glycoprotein expression than do phenobarbital responders.

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Identification and Characterization of Genes for Polypeptides of the Thylakoid Membrane

Herrmann

Westhoff

Alt

et al. 1983

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The Plastid Chromosomes of Several Dicotyledons

Herrmann

Seyer²,

Schedel

et al. 1980

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P. Winter

Celecoxib treatment restores pharmacosensitivity in a rat model of pharmacoresistant epilepsy

Uptake and binding of the serotonin 5-HT1A antagonist [18F]-MPPF in brain of rats: Effects of the novel P-glycoprotein inhibitor tariquidar

Imaging of P‐glycoprotein–mediated pharmacoresistance in the hippocampus: Proof‐of‐concept in a chronic rat model of temporal lobe epilepsy

Identification and Characterization of Genes for Polypeptides of the Thylakoid Membrane

The Plastid Chromosomes of Several Dicotyledons

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