Prelamin A impairs 53BP1 nuclear entry by mislocalizing NUP153 and disrupting the Ran gradient

Andrew M. Cobb; Delphine Larrieu; Derek T. Warren; Yiwen Liu; Sonal Srivastava; Andrew J O Smith; Richard P. Bowater; Stephen P. Jackson; Catherine M. Shanahan

doi:10.1111/acel.12506

Prelamin A impairs 53BP1 nuclear entry by mislocalizing NUP153 and disrupting the Ran gradient

Andrew M. Cobb, Delphine Larrieu, Derek T. Warren, Yiwen Liu, Sonal Srivastava, Andrew J O Smith, Richard P. Bowater, Stephen P. Jackson, Catherine M. Shanahan^*

^*Corresponding author for this work

Cardiovascular Sciences

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

45 Citations (Scopus)

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Abstract

The nuclear lamina is essential for the proper structure and organization of the nucleus. Deregulation of A-type lamins can compromise genomic stability, alter chromatin organization and cause premature vascular aging. Here, we show that accumulation of the lamin A precursor, prelamin A, inhibits 53BP1 recruitment to sites of DNA damage and increases basal levels of DNA damage in aged vascular smooth muscle cells. We identify that this genome instability arises through defective nuclear import of 53BP1 as a consequence of abnormal topological arrangement of nucleoporin NUP153. We show for the first time that this nucleoporin is important for the nuclear localization of Ran and that the deregulated Ran gradient is likely to be compromising the nuclear import of 53BP1. Importantly, many of the defects associated with prelamin A expression were significantly reduced upon treatment with Remodelin, a small molecule recently reported to reverse deficiencies associated with abnormal nuclear lamina.

Original language	English
Pages (from-to)	1039-1050
Number of pages	12
Journal	AGING CELL
Volume	15
Issue number	6
Early online date	27 Jul 2016
DOIs	https://doi.org/10.1111/acel.12506
Publication status	Published - 1 Dec 2016

Keywords

53BP1
cytoplasmic–nuclear trafficking
NUP153
prelamin A
Ran gradient
vascular disease

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Prelamin A impairs 53BP1_COBB_Published 1 December 2016_GOLD_VoR (CC BY)Final published version, 2.85 MBLicence: CC BY

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title = "Prelamin A impairs 53BP1 nuclear entry by mislocalizing NUP153 and disrupting the Ran gradient",

abstract = "The nuclear lamina is essential for the proper structure and organization of the nucleus. Deregulation of A-type lamins can compromise genomic stability, alter chromatin organization and cause premature vascular aging. Here, we show that accumulation of the lamin A precursor, prelamin A, inhibits 53BP1 recruitment to sites of DNA damage and increases basal levels of DNA damage in aged vascular smooth muscle cells. We identify that this genome instability arises through defective nuclear import of 53BP1 as a consequence of abnormal topological arrangement of nucleoporin NUP153. We show for the first time that this nucleoporin is important for the nuclear localization of Ran and that the deregulated Ran gradient is likely to be compromising the nuclear import of 53BP1. Importantly, many of the defects associated with prelamin A expression were significantly reduced upon treatment with Remodelin, a small molecule recently reported to reverse deficiencies associated with abnormal nuclear lamina.",

keywords = "53BP1, cytoplasmic–nuclear trafficking, NUP153, prelamin A, Ran gradient, vascular disease",

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AU - Cobb, Andrew M.

AU - Larrieu, Delphine

AU - Warren, Derek T.

AU - Liu, Yiwen

AU - Srivastava, Sonal

AU - Smith, Andrew J O

AU - Bowater, Richard P.

AU - Jackson, Stephen P.

AU - Shanahan, Catherine M.

PY - 2016/12/1

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N2 - The nuclear lamina is essential for the proper structure and organization of the nucleus. Deregulation of A-type lamins can compromise genomic stability, alter chromatin organization and cause premature vascular aging. Here, we show that accumulation of the lamin A precursor, prelamin A, inhibits 53BP1 recruitment to sites of DNA damage and increases basal levels of DNA damage in aged vascular smooth muscle cells. We identify that this genome instability arises through defective nuclear import of 53BP1 as a consequence of abnormal topological arrangement of nucleoporin NUP153. We show for the first time that this nucleoporin is important for the nuclear localization of Ran and that the deregulated Ran gradient is likely to be compromising the nuclear import of 53BP1. Importantly, many of the defects associated with prelamin A expression were significantly reduced upon treatment with Remodelin, a small molecule recently reported to reverse deficiencies associated with abnormal nuclear lamina.

AB - The nuclear lamina is essential for the proper structure and organization of the nucleus. Deregulation of A-type lamins can compromise genomic stability, alter chromatin organization and cause premature vascular aging. Here, we show that accumulation of the lamin A precursor, prelamin A, inhibits 53BP1 recruitment to sites of DNA damage and increases basal levels of DNA damage in aged vascular smooth muscle cells. We identify that this genome instability arises through defective nuclear import of 53BP1 as a consequence of abnormal topological arrangement of nucleoporin NUP153. We show for the first time that this nucleoporin is important for the nuclear localization of Ran and that the deregulated Ran gradient is likely to be compromising the nuclear import of 53BP1. Importantly, many of the defects associated with prelamin A expression were significantly reduced upon treatment with Remodelin, a small molecule recently reported to reverse deficiencies associated with abnormal nuclear lamina.

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KW - cytoplasmic–nuclear trafficking

KW - NUP153

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KW - Ran gradient

KW - vascular disease

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Prelamin A impairs 53BP1 nuclear entry by mislocalizing NUP153 and disrupting the Ran gradient

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Keywords

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