Altered Expression of the Prion Gene in Rat Astrocyte and Neuron Cultures Treated with Prion Peptide 106–126

Abstract

Neuronal degeneration and astrogliosis are hallmarks of prion disease. Synthetic prion protein (PrP) peptide 106–126 (PrP106–126) can induce death of neurons and proliferation of astrocytes in vitro and this neurotoxic effect depends on the expression of cellular PrP (PrP^C) and is hence believed to be PrP^C -mediated. To further elucidate the involvement of PrP^C in PrP106–126-induced neurotoxicity, we determined the expression of PrP mRNA in primary culture of rat cortical neuron cells, cerebellar granule cells, and astrocytes following treatment with 50μM of PrP106–126 scrambled PrP106–126 by quantitative real-time RT-PCR. As shown by MTT test, PrP106–126 induced significant death of neuron cells and marked proliferation of astrocytes after 10 days of treatment. Under the same treatment regimens, the level of PrP gene expression was significantly down-regulated in cortical neuron cell cultures and cerebellar granule cell cultures and was up-regulated in astrocyte cultures. The altered PrP gene expression occurred as early as 3 days after the treatment. After 10 days of treatment, while the cultured cortical neurons underwent further apoptosis, their expression of PrP gene started to recover gradually. These findings indicate that PrP 106–126 regulates transcription of the PrP gene and this activity is associated with its neurotoxicity in primary rat neuronal cultures.