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Neuron Dysfunction Is Induced by Prion Protein with an Insertional Mutation via a Fyn Kinase and Reversed by Sirtuin Activation in<i>Caenorhabditis elegans</i>

Nicolas Bizat, Jean‐Michel Peyrin, Stéphane Haı̈k, Véronique Cochois, Patrick Beaudry, Jean Laplanche, Christian Néri

Journal of Neuroscience · 2010 · ▲ 44 citations

Abstract

Although prion propagation is well understood, the signaling pathways activated by neurotoxic forms of prion protein (PrP) and those able to mitigate pathological phenotypes remain largely unknown. Here, we identify src-2, a Fyn-related kinase, as a gene required for human PrP with an insertional mutation to be neurotoxic in Caenorhabditis elegans, and the longevity modulator sir-2.1/SIRT1, a sirtuin deacetylase, as a modifier of prion neurotoxicity. The expression of octarepeat-expanded PrP in C. elegans mechanosensory neurons led to a progressive loss of response to touch without causing cell death, whereas wild-type PrP expression did not alter behavior. Transgenic PrP molecules showed expression at the plasma membrane, with protein clusters, partial resistance to proteinase K (PK), and protein insolubility detected for mutant PrP. Loss of function (LOF) of src-2 greatly reduced mutant PrP neurotoxicity without reducing PK-resistant PrP levels. Increased sir-2.1 dosage reversed mutant PrP neurotoxicity, whereas sir-2.1 LOF showed aggravation, and these effects did not alter PK-resistant PrP. Resveratrol, a polyphenol known to act through sirtuins for neuroprotection, reversed mutant PrP neurotoxicity in a sir-2.1-dependent manner. Additionally, resveratrol reversed cell death caused by mutant PrP in cerebellar granule neurons from prnp-null mice. These results suggest that Fyn mediates mutant PrP neurotoxicity in addition to its role in cellular PrP signaling and reveal that sirtuin activation mitigates these neurotoxic effects. Sirtuin activators may thus have therapeutic potential to protect from prion neurotoxicity and its effects on intracellular signaling.

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Provenance

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OpenAlex
DOI
10.1523/jneurosci.5831-09.2010
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2026-06-22 MST

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APA
Bizat, N., Peyrin, J., Haı̈k, S., Cochois, V., Beaudry, P., Laplanche, J., &amp; Néri, C. (2010). Neuron Dysfunction Is Induced by Prion Protein with an Insertional Mutation via a Fyn Kinase and Reversed by Sirtuin Activation in<i>Caenorhabditis elegans</i>. <em>Journal of Neuroscience</em>. https://doi.org/10.1523/jneurosci.5831-09.2010
Vancouver
Bizat N, Peyrin J, Haı̈k S, Cochois V, Beaudry P, Laplanche J, et al. Neuron Dysfunction Is Induced by Prion Protein with an Insertional Mutation via a Fyn Kinase and Reversed by Sirtuin Activation in<i>Caenorhabditis elegans</i>. Journal of Neuroscience. 2010. doi:10.1523/jneurosci.5831-09.2010.
BibTeX
@article{nicolas2010Neuron, title = {Neuron Dysfunction Is Induced by Prion Protein with an Insertional Mutation via a Fyn Kinase and Reversed by Sirtuin Activation in<i>Caenorhabditis elegans</i>}, author = {Nicolas Bizat and Jean‐Michel Peyrin and Stéphane Haı̈k and Véronique Cochois and Patrick Beaudry and Jean Laplanche and Christian Néri}, journal = {Journal of Neuroscience}, year = {2010}, doi = {10.1523/jneurosci.5831-09.2010}, }

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