Drug screening on Hutchinson Gilford progeria pluripotent stem cells reveals aminopyrimidines as new modulators of farnesylation

S. Blondel; A. L. Egesipe; P. Picardi; A. L. Jaskowiak; M. Notarnicola; J. Ragot; J. Tournois; A. Le Corf; B. Brinon; P. Poydenot; P. Georges; C. Navarro; P. R. Pitrez; L. Ferreira; G. Bollot; C. Bauvais; D. Laustriat; A. Mejat; A. De Sandre-Giovannoli; N. Levy; M. Bifulco; M. Peschanski; X. Nissan

doi:10.1038/cddis.2015.374

Drug screening on Hutchinson Gilford progeria pluripotent stem cells reveals aminopyrimidines as new modulators of farnesylation

S. Blondel, A. L. Egesipe, P. Picardi, A. L. Jaskowiak, M. Notarnicola, J. Ragot, J. Tournois, A. Le Corf, B. Brinon, P. Poydenot, P. Georges, C. Navarro, P. R. Pitrez, L. Ferreira, G. Bollot, C. Bauvais, D. Laustriat, A. Mejat, A. De Sandre-Giovannoli, N. LevyM. Bifulco, M. Peschanski, X. Nissan

Ente Ospedaliero Specializzato in Gastroenterologia "Saverio de Bellis"

Research output: Contribution to journal › Article › peer-review

Abstract

Hutchinson-Gilford progeria syndrome (HGPS) is a rare genetic disorder characterized by a dramatic appearance of premature aging. HGPS is due to a single-base substitution in exon 11 of the LMNA gene (c.1824C>T) leading to the production of a toxic form of the prelamin A protein called progerin. Because farnesylation process had been shown to control progerin toxicity, in this study we have developed a screening method permitting to identify new pharmacological inhibitors of farnesylation. For this, we have used the unique potential of pluripotent stem cells to have access to an unlimited and relevant biological resource and test 21 608 small molecules. This study identified several compounds, called monoaminopyrimidines, which target two key enzymes of the farnesylation process, farnesyl pyrophosphate synthase and farnesyl transferase, and rescue in vitro phenotypes associated with HGPS. Our results opens up new therapeutic possibilities for the treatment of HGPS by identifying a new family of protein farnesylation inhibitors, and which may also be applicable to cancers and diseases associated with mutations that involve farnesylated proteins.

Original language	English
Article number	e2105
Journal	Cell Death and Disease
Volume	7
Issue number	2
DOIs	https://doi.org/10.1038/cddis.2015.374
Publication status	Published - 2016

ASJC Scopus subject areas

Cell Biology
Immunology
Cancer Research
Cellular and Molecular Neuroscience

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Blondel, S., Egesipe, A. L., Picardi, P., Jaskowiak, A. L., Notarnicola, M., Ragot, J., Tournois, J., Le Corf, A., Brinon, B., Poydenot, P., Georges, P., Navarro, C., Pitrez, P. R., Ferreira, L., Bollot, G., Bauvais, C., Laustriat, D., Mejat, A., De Sandre-Giovannoli, A., ... Nissan, X. (2016). Drug screening on Hutchinson Gilford progeria pluripotent stem cells reveals aminopyrimidines as new modulators of farnesylation. Cell Death and Disease, 7(2), [e2105]. https://doi.org/10.1038/cddis.2015.374

Blondel, S, Egesipe, AL, Picardi, P, Jaskowiak, AL, Notarnicola, M, Ragot, J, Tournois, J, Le Corf, A, Brinon, B, Poydenot, P, Georges, P, Navarro, C, Pitrez, PR, Ferreira, L, Bollot, G, Bauvais, C, Laustriat, D, Mejat, A, De Sandre-Giovannoli, A, Levy, N, Bifulco, M, Peschanski, M & Nissan, X 2016, 'Drug screening on Hutchinson Gilford progeria pluripotent stem cells reveals aminopyrimidines as new modulators of farnesylation', Cell Death and Disease, vol. 7, no. 2, e2105. https://doi.org/10.1038/cddis.2015.374

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title = "Drug screening on Hutchinson Gilford progeria pluripotent stem cells reveals aminopyrimidines as new modulators of farnesylation",

abstract = "Hutchinson-Gilford progeria syndrome (HGPS) is a rare genetic disorder characterized by a dramatic appearance of premature aging. HGPS is due to a single-base substitution in exon 11 of the LMNA gene (c.1824C>T) leading to the production of a toxic form of the prelamin A protein called progerin. Because farnesylation process had been shown to control progerin toxicity, in this study we have developed a screening method permitting to identify new pharmacological inhibitors of farnesylation. For this, we have used the unique potential of pluripotent stem cells to have access to an unlimited and relevant biological resource and test 21 608 small molecules. This study identified several compounds, called monoaminopyrimidines, which target two key enzymes of the farnesylation process, farnesyl pyrophosphate synthase and farnesyl transferase, and rescue in vitro phenotypes associated with HGPS. Our results opens up new therapeutic possibilities for the treatment of HGPS by identifying a new family of protein farnesylation inhibitors, and which may also be applicable to cancers and diseases associated with mutations that involve farnesylated proteins.",

author = "S. Blondel and Egesipe, {A. L.} and P. Picardi and Jaskowiak, {A. L.} and M. Notarnicola and J. Ragot and J. Tournois and {Le Corf}, A. and B. Brinon and P. Poydenot and P. Georges and C. Navarro and Pitrez, {P. R.} and L. Ferreira and G. Bollot and C. Bauvais and D. Laustriat and A. Mejat and {De Sandre-Giovannoli}, A. and N. Levy and M. Bifulco and M. Peschanski and X. Nissan",

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AU - Blondel, S.

AU - Egesipe, A. L.

AU - Picardi, P.

AU - Jaskowiak, A. L.

AU - Notarnicola, M.

AU - Ragot, J.

AU - Tournois, J.

AU - Le Corf, A.

AU - Brinon, B.

AU - Poydenot, P.

AU - Georges, P.

AU - Navarro, C.

AU - Pitrez, P. R.

AU - Ferreira, L.

AU - Bollot, G.

AU - Bauvais, C.

AU - Laustriat, D.

AU - Mejat, A.

AU - De Sandre-Giovannoli, A.

AU - Levy, N.

AU - Bifulco, M.

AU - Peschanski, M.

AU - Nissan, X.

PY - 2016

Y1 - 2016

N2 - Hutchinson-Gilford progeria syndrome (HGPS) is a rare genetic disorder characterized by a dramatic appearance of premature aging. HGPS is due to a single-base substitution in exon 11 of the LMNA gene (c.1824C>T) leading to the production of a toxic form of the prelamin A protein called progerin. Because farnesylation process had been shown to control progerin toxicity, in this study we have developed a screening method permitting to identify new pharmacological inhibitors of farnesylation. For this, we have used the unique potential of pluripotent stem cells to have access to an unlimited and relevant biological resource and test 21 608 small molecules. This study identified several compounds, called monoaminopyrimidines, which target two key enzymes of the farnesylation process, farnesyl pyrophosphate synthase and farnesyl transferase, and rescue in vitro phenotypes associated with HGPS. Our results opens up new therapeutic possibilities for the treatment of HGPS by identifying a new family of protein farnesylation inhibitors, and which may also be applicable to cancers and diseases associated with mutations that involve farnesylated proteins.

AB - Hutchinson-Gilford progeria syndrome (HGPS) is a rare genetic disorder characterized by a dramatic appearance of premature aging. HGPS is due to a single-base substitution in exon 11 of the LMNA gene (c.1824C>T) leading to the production of a toxic form of the prelamin A protein called progerin. Because farnesylation process had been shown to control progerin toxicity, in this study we have developed a screening method permitting to identify new pharmacological inhibitors of farnesylation. For this, we have used the unique potential of pluripotent stem cells to have access to an unlimited and relevant biological resource and test 21 608 small molecules. This study identified several compounds, called monoaminopyrimidines, which target two key enzymes of the farnesylation process, farnesyl pyrophosphate synthase and farnesyl transferase, and rescue in vitro phenotypes associated with HGPS. Our results opens up new therapeutic possibilities for the treatment of HGPS by identifying a new family of protein farnesylation inhibitors, and which may also be applicable to cancers and diseases associated with mutations that involve farnesylated proteins.

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Drug screening on Hutchinson Gilford progeria pluripotent stem cells reveals aminopyrimidines as new modulators of farnesylation

Abstract

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