Loss of lamin A function increases chromatin dynamics in the nuclear interior

I. Bronshtein; E. Kepten; I. Kanter; S. Berezin; M. Lindner; Abena B. Redwood; S. Mai; S. Gonzalo; R. Foisner; Y. Shav-Tal; Y. Garini

doi:10.1038/ncomms9044

Loss of lamin A function increases chromatin dynamics in the nuclear interior

I. Bronshtein, E. Kepten, I. Kanter, S. Berezin, M. Lindner, Abena B. Redwood, S. Mai, S. Gonzalo, R. Foisner, Y. Shav-Tal, Y. Garini

Cancer Biology

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

185 Scopus citations

Abstract

Chromatin is organized in a highly ordered yet dynamic manner in the cell nucleus, but the principles governing this organization remain unclear. Similarly, it is unknown whether, and how, various proteins regulate chromatin motion and as a result influence nuclear organization. Here by studying the dynamics of different genomic regions in the nucleus of live cells, we show that the genome has highly constrained dynamics. Interestingly, depletion of lamin A strikingly alters genome dynamics, inducing a dramatic transition from slow anomalous diffusion to fast and normal diffusion. In contrast, depletion of LAP2α, a protein that interacts with lamin A and chromatin, has no such effect on genome dynamics. We speculate that chromosomal inter-chain interactions formed by lamin A throughout the nucleus contribute to chromatin dynamics, and suggest that the molecular regulation of chromatin diffusion by lamin A in the nuclear interior is critical for the maintenance of genome organization.

Original language	English (US)
Article number	8044
Journal	Nature communications
Volume	6
DOIs	https://doi.org/10.1038/ncomms9044
State	Published - Aug 24 2015

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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title = "Loss of lamin A function increases chromatin dynamics in the nuclear interior",

abstract = "Chromatin is organized in a highly ordered yet dynamic manner in the cell nucleus, but the principles governing this organization remain unclear. Similarly, it is unknown whether, and how, various proteins regulate chromatin motion and as a result influence nuclear organization. Here by studying the dynamics of different genomic regions in the nucleus of live cells, we show that the genome has highly constrained dynamics. Interestingly, depletion of lamin A strikingly alters genome dynamics, inducing a dramatic transition from slow anomalous diffusion to fast and normal diffusion. In contrast, depletion of LAP2α, a protein that interacts with lamin A and chromatin, has no such effect on genome dynamics. We speculate that chromosomal inter-chain interactions formed by lamin A throughout the nucleus contribute to chromatin dynamics, and suggest that the molecular regulation of chromatin diffusion by lamin A in the nuclear interior is critical for the maintenance of genome organization.",

author = "I. Bronshtein and E. Kepten and I. Kanter and S. Berezin and M. Lindner and Redwood, {Abena B.} and S. Mai and S. Gonzalo and R. Foisner and Y. Shav-Tal and Y. Garini",

note = "Funding Information: We gratefully acknowledge fruitful discussions with Yitzhak Rabin and Eli Barkai (Bar Ilan University), Thomas Dechat and Kevin Gesson (Max F. Perutz Laboratories, Vienna), and Ian T. Young (Delft University). This work was supported in part by the Israel Centers of Research Excellence (ICORE) No. 1902/12 and Israel Science Foundation No. 51/12 (Y.G.); by the European Research Council (Y.S.T); by the Austrian Science Fund (FWF) grant P26492-B20 (R.F.); by the NIGMS Grant RO1 GM094513-01, DOD BCRP Idea Award BC110089 and Presidential Research Award, St Louis University (S.G.) and by the Canadian Institutes of Health Research—CIHR (S.M.).",

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AU - Bronshtein, I.

AU - Kepten, E.

AU - Kanter, I.

AU - Berezin, S.

AU - Lindner, M.

AU - Redwood, Abena B.

AU - Mai, S.

AU - Gonzalo, S.

AU - Foisner, R.

AU - Shav-Tal, Y.

AU - Garini, Y.

N1 - Funding Information: We gratefully acknowledge fruitful discussions with Yitzhak Rabin and Eli Barkai (Bar Ilan University), Thomas Dechat and Kevin Gesson (Max F. Perutz Laboratories, Vienna), and Ian T. Young (Delft University). This work was supported in part by the Israel Centers of Research Excellence (ICORE) No. 1902/12 and Israel Science Foundation No. 51/12 (Y.G.); by the European Research Council (Y.S.T); by the Austrian Science Fund (FWF) grant P26492-B20 (R.F.); by the NIGMS Grant RO1 GM094513-01, DOD BCRP Idea Award BC110089 and Presidential Research Award, St Louis University (S.G.) and by the Canadian Institutes of Health Research—CIHR (S.M.).

PY - 2015/8/24

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N2 - Chromatin is organized in a highly ordered yet dynamic manner in the cell nucleus, but the principles governing this organization remain unclear. Similarly, it is unknown whether, and how, various proteins regulate chromatin motion and as a result influence nuclear organization. Here by studying the dynamics of different genomic regions in the nucleus of live cells, we show that the genome has highly constrained dynamics. Interestingly, depletion of lamin A strikingly alters genome dynamics, inducing a dramatic transition from slow anomalous diffusion to fast and normal diffusion. In contrast, depletion of LAP2α, a protein that interacts with lamin A and chromatin, has no such effect on genome dynamics. We speculate that chromosomal inter-chain interactions formed by lamin A throughout the nucleus contribute to chromatin dynamics, and suggest that the molecular regulation of chromatin diffusion by lamin A in the nuclear interior is critical for the maintenance of genome organization.

AB - Chromatin is organized in a highly ordered yet dynamic manner in the cell nucleus, but the principles governing this organization remain unclear. Similarly, it is unknown whether, and how, various proteins regulate chromatin motion and as a result influence nuclear organization. Here by studying the dynamics of different genomic regions in the nucleus of live cells, we show that the genome has highly constrained dynamics. Interestingly, depletion of lamin A strikingly alters genome dynamics, inducing a dramatic transition from slow anomalous diffusion to fast and normal diffusion. In contrast, depletion of LAP2α, a protein that interacts with lamin A and chromatin, has no such effect on genome dynamics. We speculate that chromosomal inter-chain interactions formed by lamin A throughout the nucleus contribute to chromatin dynamics, and suggest that the molecular regulation of chromatin diffusion by lamin A in the nuclear interior is critical for the maintenance of genome organization.

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Loss of lamin A function increases chromatin dynamics in the nuclear interior

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