Progerin reduces LAP2α-telomere association in hutchinson-gilford progeria

Alexandre Chojnowski; Peh Fern Ong; Esther S.M. Wong; John S.Y. Lim; Rafidah A. Mutalif; Raju Navasankari; Bamaprasad Dutta; Henry Yang; Yi Y. Liow; Siu K. Sze; Thomas Boudier; Graham D. Wright; Alan Colman; Brian Burke; Colin L. Stewart; Oliver Dreesen

doi:10.7554/eLife.07759

Progerin reduces LAP2α-telomere association in hutchinson-gilford progeria

Alexandre Chojnowski, Peh Fern Ong, Esther S.M. Wong, John S.Y. Lim, Rafidah A. Mutalif, Raju Navasankari, Bamaprasad Dutta, Henry Yang, Yi Y. Liow, Siu K. Sze, Thomas Boudier, Graham D. Wright, Alan Colman, Brian Burke, Colin L. Stewart, Oliver Dreesen

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

102 Citations (Scopus)

Abstract

Hutchinson-Gilford progeria (HGPS) is a premature ageing syndrome caused by a mutation in LMNA, resulting in a truncated form of lamin A called progerin. Progerin triggers loss of the heterochromatic marker H3K27me3, and premature senescence, which is prevented by telomerase. However, the mechanism how progerin causes disease remains unclear. Here, we describe an inducible cellular system to model HGPS and find that LAP2α (lamina-associated polypeptide-α) interacts with lamin A, while its interaction with progerin is significantly reduced. Super-resolution microscopy revealed that over 50% of telomeres localize to the lamina and that LAP2α association with telomeres is impaired in HGPS. This impaired interaction is central to HGPS since increasing LAP2α levels rescues progerin-induced proliferation defects and loss of H3K27me3, whereas lowering LAP2 levels exacerbates progerin-induced defects. These findings provide novel insights into the pathophysiology underlying HGPS, and how the nuclear lamina regulates proliferation and chromatin organization.

Original language	English
Article number	e07759
Pages (from-to)	1-21
Number of pages	21
Journal	eLife
Volume	4
Issue number	AUGUST2015
DOIs	https://doi.org/10.7554/eLife.07759
Publication status	Published - 27 Aug 2015
Externally published	Yes

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10.7554/eLife.07759

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Chojnowski, A., Ong, P. F., Wong, E. S. M., Lim, J. S. Y., Mutalif, R. A., Navasankari, R., Dutta, B., Yang, H., Liow, Y. Y., Sze, S. K., Boudier, T., Wright, G. D., Colman, A., Burke, B., Stewart, C. L., & Dreesen, O. (2015). Progerin reduces LAP2α-telomere association in hutchinson-gilford progeria. eLife, 4(AUGUST2015), 1-21. Article e07759. https://doi.org/10.7554/eLife.07759

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title = "Progerin reduces LAP2α-telomere association in hutchinson-gilford progeria",

abstract = "Hutchinson-Gilford progeria (HGPS) is a premature ageing syndrome caused by a mutation in LMNA, resulting in a truncated form of lamin A called progerin. Progerin triggers loss of the heterochromatic marker H3K27me3, and premature senescence, which is prevented by telomerase. However, the mechanism how progerin causes disease remains unclear. Here, we describe an inducible cellular system to model HGPS and find that LAP2α (lamina-associated polypeptide-α) interacts with lamin A, while its interaction with progerin is significantly reduced. Super-resolution microscopy revealed that over 50\% of telomeres localize to the lamina and that LAP2α association with telomeres is impaired in HGPS. This impaired interaction is central to HGPS since increasing LAP2α levels rescues progerin-induced proliferation defects and loss of H3K27me3, whereas lowering LAP2 levels exacerbates progerin-induced defects. These findings provide novel insights into the pathophysiology underlying HGPS, and how the nuclear lamina regulates proliferation and chromatin organization.",

author = "Alexandre Chojnowski and Ong, \{Peh Fern\} and Wong, \{Esther S.M.\} and Lim, \{John S.Y.\} and Mutalif, \{Rafidah A.\} and Raju Navasankari and Bamaprasad Dutta and Henry Yang and Liow, \{Yi Y.\} and Sze, \{Siu K.\} and Thomas Boudier and Wright, \{Graham D.\} and Alan Colman and Brian Burke and Stewart, \{Colin L.\} and Oliver Dreesen",

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doi = "10.7554/eLife.07759",

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AU - Chojnowski, Alexandre

AU - Ong, Peh Fern

AU - Wong, Esther S.M.

AU - Lim, John S.Y.

AU - Mutalif, Rafidah A.

AU - Navasankari, Raju

AU - Dutta, Bamaprasad

AU - Yang, Henry

AU - Liow, Yi Y.

AU - Sze, Siu K.

AU - Boudier, Thomas

AU - Wright, Graham D.

AU - Colman, Alan

AU - Burke, Brian

AU - Stewart, Colin L.

AU - Dreesen, Oliver

PY - 2015/8/27

Y1 - 2015/8/27

N2 - Hutchinson-Gilford progeria (HGPS) is a premature ageing syndrome caused by a mutation in LMNA, resulting in a truncated form of lamin A called progerin. Progerin triggers loss of the heterochromatic marker H3K27me3, and premature senescence, which is prevented by telomerase. However, the mechanism how progerin causes disease remains unclear. Here, we describe an inducible cellular system to model HGPS and find that LAP2α (lamina-associated polypeptide-α) interacts with lamin A, while its interaction with progerin is significantly reduced. Super-resolution microscopy revealed that over 50% of telomeres localize to the lamina and that LAP2α association with telomeres is impaired in HGPS. This impaired interaction is central to HGPS since increasing LAP2α levels rescues progerin-induced proliferation defects and loss of H3K27me3, whereas lowering LAP2 levels exacerbates progerin-induced defects. These findings provide novel insights into the pathophysiology underlying HGPS, and how the nuclear lamina regulates proliferation and chromatin organization.

AB - Hutchinson-Gilford progeria (HGPS) is a premature ageing syndrome caused by a mutation in LMNA, resulting in a truncated form of lamin A called progerin. Progerin triggers loss of the heterochromatic marker H3K27me3, and premature senescence, which is prevented by telomerase. However, the mechanism how progerin causes disease remains unclear. Here, we describe an inducible cellular system to model HGPS and find that LAP2α (lamina-associated polypeptide-α) interacts with lamin A, while its interaction with progerin is significantly reduced. Super-resolution microscopy revealed that over 50% of telomeres localize to the lamina and that LAP2α association with telomeres is impaired in HGPS. This impaired interaction is central to HGPS since increasing LAP2α levels rescues progerin-induced proliferation defects and loss of H3K27me3, whereas lowering LAP2 levels exacerbates progerin-induced defects. These findings provide novel insights into the pathophysiology underlying HGPS, and how the nuclear lamina regulates proliferation and chromatin organization.

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Progerin reduces LAP2α-telomere association in hutchinson-gilford progeria

Abstract

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