Increased Sensitivity to Seizures in Mice Lacking Cellular Prion Protein

Abstract: Summary:Purpose: The physiologic role of the cellular prion protein (PrP') is unknown. Mice devoid of PrPC develop normally and show only minor deficits. However, electrophysiologic and histologic alterations found in these mice suggest a possible role for PrP" in seizure threshold andor epilepsy.Methods: We tested the sensitivity of PrP" knockout mice to seizures induced by single convulsant or repeated subconvulsant (kindling) doses of pentylenetetrazol (PTZ), and to status epilepticus (SE) induced by kainic… Show more

“…Current evidence suggests that the mechanism underlying the neuroprotective properties of PrP c involves a copper-binding activity that protects cells from oxidative damage (Brown et al, 1997a(Brown et al, , 2002. In support of this hypothesis, cerebellar cell cultures from PrP c null mice are more susceptible to oxidative stress than wild-type mice (Brown et al, 1997b), and PrP c null mice are more susceptible to acute seizures and kindling induced by different protocols than their wild-type counterparts (Walz et al, 1999). Such a neuroprotective function may indicate a possible reason why we observed PrP c to be highly upregulated in the dentate gyrus after TBI in this study.…”

Neuron-Specific mRNA Complexity Responses during Hippocampal Apoptosis after Traumatic Brain Injury

“…Current evidence suggests that the mechanism underlying the neuroprotective properties of PrP c involves a copper-binding activity that protects cells from oxidative damage (Brown et al, 1997a(Brown et al, , 2002. In support of this hypothesis, cerebellar cell cultures from PrP c null mice are more susceptible to oxidative stress than wild-type mice (Brown et al, 1997b), and PrP c null mice are more susceptible to acute seizures and kindling induced by different protocols than their wild-type counterparts (Walz et al, 1999). Such a neuroprotective function may indicate a possible reason why we observed PrP c to be highly upregulated in the dentate gyrus after TBI in this study.…”

Neuron-Specific mRNA Complexity Responses during Hippocampal Apoptosis after Traumatic Brain Injury

“…In addition, both lines showed deficits in synaptic transmission (Collinge et al, 1994;Herms et al, 1995) and increased sensitivity to oxidative stress (Brown et al, 2002). Recent studies indicate that these mice also show increased susceptibility to glutamate excitotoxicity (Khosravani et al, 2008a;Rangel et al, 2007;Walz et al, 1999;Walz et al, 2002) as a result of changes in the expression of glutamate receptor subunits (Khosravani et al, 2008a;Lledo et al, 1996;Rangel et al, 2007). More recently, a conditional knockout of PrP c has been generated (Mallucci et al, 2002).…”

New insights into cellular prion protein (PrPc) functions: The “ying and yang” of a relevant protein

“…For example, deletion of PrP C increased neuronal predisposition to damage by modulating susceptibility to apoptosis 9,10 and the negative consequences of oxidative stress. [11][12][13] Furthermore, in vivo studies demonstrated that PrP C -deficient mice were more prone to seizure induction, 14 and exhibited an increased extent of cerebral damage following an ischemic challenge. 15 In contrast, adenovirus-mediated PrP C overexpression reduced CNS damage in a rat model of cerebral ischemia.…”

Absence of the Cellular Prion Protein Exacerbates and Prolongs Neuroinflammation in Experimental Autoimmune Encephalomyelitis