SIRT6 represses LINE1 retrotransposons by ribosylating KAP1 but this repression fails with stress and age

Michael Van Meter; Mehr Kashyap; Sarallah Rezazadeh; Anthony J. Geneva; Timothy D. Morello; Andrei Seluanov; Vera Gorbunova

doi:10.1038/ncomms6011

SIRT6 represses LINE1 retrotransposons by ribosylating KAP1 but this repression fails with stress and age

Michael Van Meter, Mehr Kashyap, Sarallah Rezazadeh, Anthony J. Geneva, Timothy D. Morello, Andrei Seluanov, Vera Gorbunova

Rutgers Camden, Biology

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

306 Scopus citations

Abstract

L1 retrotransposons are an abundant class of transposable elements that pose a threat to genome stability and may have a role in age-related pathologies such as cancer. Recent evidence indicates that L1s become more active in somatic tissues during the course of ageing; however the mechanisms underlying this phenomenon remain unknown. Here we report that the longevity regulating protein, SIRT6, is a powerful repressor of L1 activity. Specifically, SIRT6 binds to the 5′-UTR of L1 loci, where it mono-ADP ribosylates the nuclear corepressor protein, KAP1, and facilitates KAP1 interaction with the heterochromatin factor, HP1α, thereby contributing to the packaging of L1 elements into transcriptionally repressive heterochromatin. During the course of ageing, and also in response to DNA damage, however, we find that SIRT6 is depleted from L1 loci, allowing the activation of these previously silenced retroelements.

Original language	English (US)
Article number	5011
Journal	Nature communications
Volume	5
DOIs	https://doi.org/10.1038/ncomms6011
State	Published - Sep 23 2014

All Science Journal Classification (ASJC) codes

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

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title = "SIRT6 represses LINE1 retrotransposons by ribosylating KAP1 but this repression fails with stress and age",

abstract = "L1 retrotransposons are an abundant class of transposable elements that pose a threat to genome stability and may have a role in age-related pathologies such as cancer. Recent evidence indicates that L1s become more active in somatic tissues during the course of ageing; however the mechanisms underlying this phenomenon remain unknown. Here we report that the longevity regulating protein, SIRT6, is a powerful repressor of L1 activity. Specifically, SIRT6 binds to the 5′-UTR of L1 loci, where it mono-ADP ribosylates the nuclear corepressor protein, KAP1, and facilitates KAP1 interaction with the heterochromatin factor, HP1α, thereby contributing to the packaging of L1 elements into transcriptionally repressive heterochromatin. During the course of ageing, and also in response to DNA damage, however, we find that SIRT6 is depleted from L1 loci, allowing the activation of these previously silenced retroelements.",

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AU - Van Meter, Michael

AU - Kashyap, Mehr

AU - Rezazadeh, Sarallah

AU - Geneva, Anthony J.

AU - Morello, Timothy D.

AU - Seluanov, Andrei

AU - Gorbunova, Vera

PY - 2014/9/23

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N2 - L1 retrotransposons are an abundant class of transposable elements that pose a threat to genome stability and may have a role in age-related pathologies such as cancer. Recent evidence indicates that L1s become more active in somatic tissues during the course of ageing; however the mechanisms underlying this phenomenon remain unknown. Here we report that the longevity regulating protein, SIRT6, is a powerful repressor of L1 activity. Specifically, SIRT6 binds to the 5′-UTR of L1 loci, where it mono-ADP ribosylates the nuclear corepressor protein, KAP1, and facilitates KAP1 interaction with the heterochromatin factor, HP1α, thereby contributing to the packaging of L1 elements into transcriptionally repressive heterochromatin. During the course of ageing, and also in response to DNA damage, however, we find that SIRT6 is depleted from L1 loci, allowing the activation of these previously silenced retroelements.

AB - L1 retrotransposons are an abundant class of transposable elements that pose a threat to genome stability and may have a role in age-related pathologies such as cancer. Recent evidence indicates that L1s become more active in somatic tissues during the course of ageing; however the mechanisms underlying this phenomenon remain unknown. Here we report that the longevity regulating protein, SIRT6, is a powerful repressor of L1 activity. Specifically, SIRT6 binds to the 5′-UTR of L1 loci, where it mono-ADP ribosylates the nuclear corepressor protein, KAP1, and facilitates KAP1 interaction with the heterochromatin factor, HP1α, thereby contributing to the packaging of L1 elements into transcriptionally repressive heterochromatin. During the course of ageing, and also in response to DNA damage, however, we find that SIRT6 is depleted from L1 loci, allowing the activation of these previously silenced retroelements.

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SIRT6 represses LINE1 retrotransposons by ribosylating KAP1 but this repression fails with stress and age

Abstract

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