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Combined Pharmacological Induction of Hsp70 Suppresses Prion Protein Neurotoxicity in Drosophila

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  • Yan Zhang
  • Sergio Casas-Tinto
  • Diego E Rincon-Limas
  • Pedro Fernandez-Funez

Abstract

Prion diseases are rare and aggressive neurodegenerative disorders caused by the accumulation of misfolded, toxic conformations of the prion protein (PrP). Therapeutic strategies directed at reducing the levels of PrP offer the best chance of delaying or halting disease progression. The challenge, though, is to define pharmacologic targets that result in reduced PrP levels. We previously reported that expression of wild type hamster PrP in flies induces progressive locomotor dysfunction and accumulation of pathogenic PrP conformations, while co-expression of human Hsp70 delayed these changes. To validate the therapeutic potential of Hsp70, we treated flies with drugs known to induce Hsp70 expression, including the Hsp90 inhibitor 17-DMAG and the glucocorticoid dexamethasone. Although the individual treatment with these compounds produced no significant benefits, their combination significantly increased the level of inducible Hsp70, decreased the level of total PrP, reduced the accumulation of pathogenic PrP conformers, and improved locomotor activity. Thus, the combined action of two pharmacological activators of Hsp70 with distinct targets results in sustained high levels of inducible Hsp70 with improved behavioral output. These findings can have important therapeutic applications for the devastating prion diseases and other related proteinopathies.

Suggested Citation

  • Yan Zhang & Sergio Casas-Tinto & Diego E Rincon-Limas & Pedro Fernandez-Funez, 2014. "Combined Pharmacological Induction of Hsp70 Suppresses Prion Protein Neurotoxicity in Drosophila," PLOS ONE, Public Library of Science, vol. 9(2), pages 1-10, February.
    • Handle: RePEc:plo:pone00:0088522
    DOI: 10.1371/journal.pone.0088522
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    References listed on IDEAS

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    1. Malin K. Sandberg & Huda Al-Doujaily & Bernadette Sharps & Anthony R. Clarke & John Collinge, 2011. "Prion propagation and toxicity in vivo occur in two distinct mechanistic phases," Nature, Nature, vol. 470(7335), pages 540-542, February.
    2. Tiziana Sonati & Regina R. Reimann & Jeppe Falsig & Pravas Kumar Baral & Tracy O’Connor & Simone Hornemann & Sine Yaganoglu & Bei Li & Uli S. Herrmann & Barbara Wieland & Mridula Swayampakula & Muhamm, 2013. "The toxicity of antiprion antibodies is mediated by the flexible tail of the prion protein," Nature, Nature, vol. 501(7465), pages 102-106, September.
    3. C. Korth & B. Stierli & P. Streit & M. Moser & O. Schaller & R. Fischer & W. Schulz-Schaeffer & H. Kretzschmar & A. Raeber & U. Braun & F. Ehrensperger & S. Hornemann & R. Glockshuber & R. Riek & M. B, 1997. "Prion (PrPSc)-specific epitope defined by a monoclonal antibody," Nature, Nature, vol. 390(6655), pages 74-77, November.
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