The function of the normal conformational isoform of prion protein, PrP(C), remains unclear although lines of research have suggested a role in the cellular response to oxidative stress. Here we investigate the expression of PrP(C) in hypoxic brain tissues to examine whether PrP(C) is in part regulated by neuronal stress. Cases of adult cerebral ischemia and perinatal hypoxic-ischemic injury in humans were compared with control tissues. PrP(C) immunoreactivity accumulates within neuronal processes in the penumbra of hypoxic damage in adult brain, and within neuronal soma in cases of perinatal hypoxic-ischemic injury, and in situ hybridization analysis suggests an up-regulation of PrP mRNA during hypoxia. Rodents also showed an accumulation of PrP(C) in neuronal soma within the penumbra of ischemic lesions. Furthermore, the infarct size in PrP-null mice was significantly greater than in the wild type, supporting the proposed role for PrP(C) in the neuroprotective adaptive cellular response to hypoxic injury.
Presumptive centrifugal spread of PrP(Sc) from the brain through the optic nerve occurs in two major types of CJD. PrP(Sc) is a marker of CJD infectivity. Given that routine decontamination may not remove PrP(Sc) from surgical instruments, a careful risk assessment should be made of possible iatrogenic spread of sporadic and variant CJD after surgery to the retina or optic nerve.
Expression of the prion protein gene (Prnp) and production of the PrP protein are essential requirements for acquisition and spread of transmissible spongiform encephalopathies such as Creutzfeldt-Jakob disease (CJD) in humans. Here we have developed an in situ hybridization method for use on human post-mortem central nervous system (CNS) tissues in order to determine those cell which are transcribing the Prnp gene and thus expressing PrP mRNA. Tissues from 11 adult individuals (age range 21-79 years) were analysed. Similar to previous studies in other animal systems, it was shown that PrP production occurs primarily in neuronal populations throughout the human brain. Neurones of the hippocampus, cortex, thalamus, cerebellum and medulla all synthesize PrP mRNA at readily detectable levels. No age-related differences were observed between the cases studied. It was also found that the ependymal cells produced PrP mRNA; these were the only non-neuronal cell type expressing the Prnp gene in the CNS. It is hoped that the information produced here will be helpful in understanding the pathology associated with CJD and other prion diseases in humans.
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