Lentivector-mediated RNAi efficiently suppresses prion protein and prolongs survival of scrapie-infected mice
Alexander Pfeifer, … , Uwe Bertsch, Hans Kretzschmar
Alexander Pfeifer, … , Uwe Bertsch, Hans Kretzschmar
Published December 1, 2006
Citation Information: J Clin Invest. 2006;116(12):3204-3210. https://doi.org/10.1172/JCI29236.
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Research Article Neuroscience

Lentivector-mediated RNAi efficiently suppresses prion protein and prolongs survival of scrapie-infected mice

Abstract

Prion diseases are fatal neurodegenerative diseases characterized by the accumulation of PrPSc, the infectious and protease-resistant form of the cellular prion protein (PrPC). We generated lentivectors expressing PrPC-specific short hairpin RNAs (shRNAs) that efficiently silenced expression of the prion protein gene (Prnp) in primary neuronal cells. Treatment of scrapie-infected neuronal cells with these lentivectors resulted in an efficient and stable suppression of PrPSc accumulation. After intracranial injection, lentiviral shRNA reduced PrPC expression in transgenic mice carrying multiple copies of Prnp. To test the therapeutic potential of lentiviral shRNA, we used what we believe to be a novel approach in which the clinical situation was mimicked. We generated chimeric mice derived from lentivector-transduced embryonic stem cells. Depending on the degree of chimerism, these animals carried the lentiviral shRNAs in a certain percentage of brain cells and expressed reduced levels of PrPC. Importantly, in highly chimeric mice, survival after scrapie infection was significantly extended. Taken together, these data suggest that lentivector-mediated RNA interference could be an approach for the treatment of prion disease.

Authors

Alexander Pfeifer, Sabina Eigenbrod, Saba Al-Khadra, Andreas Hofmann, Gerda Mitteregger, Markus Moser, Uwe Bertsch, Hans Kretzschmar

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Figure 1

Targeting of PrPC by lentivector-mediated RNAi.

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Targeting of PrPC by lentivector-mediated RNAi. (A) The ...
(A) The HIV-based lentivector (LVshPrPC, top) used carries an H1 promoter–driven shRNA cassette and a PGK-EGFP expression cassette. Ψ, packaging signal; ppt, polypurine tract; WPRE, woodchuck hepatitis virus posttranscriptional regulatory element; triangle, self-inactivating mutation; arrows, direction of transcription. The lentivector-encoded anti-PrPC shRNA (shPrPC, bottom) consists of 19- or 21-bp stems separated by a loop. (B) Representative bright-field (left) and fluorescence microscope (right) images of N2a cells 72 hours after transduction with LVshPrPC. (C) LVshPrPC-induced knock down of PrPC in N2a cells. Control, uninfected cells. (D) PrPC expression in N2a cells infected with a low (×1) and high (×10) concentration of LVsh512 and LVshscr. (E) Analysis of PrPC expression in granule cells 72 hours after infection with LVsh512 or a control vector carrying only the EGFP expression cassette (LVEGFP). Western blots (CE) were probed with the indicated antibodies. (F) Effect of LVsh512 on the accumulation of protease K–resistant (PK-resistant) PrPSc in ScN2a cells. Western blot analysis 72 hours after transduction with the indicated lentivectors. (G and H) Intracranial injection of LVshscr (G) and LVsh512 (H) in tga20 mice overexpressing PrPC. Analysis of EGFP (left) and PrPC (right) expression 3 weeks after injection. Arrows indicate the lentivector-transduced area.