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Extranuclear DNA accumulates in aged cells and contributes to senescence and inflammation
by
Heather, James M.
, Lieb, David
, Hacohen, Nir
, Raychowdhury, Raktima
, Eisenhaure, Thomas
, Lan, Yuk Yuen
, Garris, Christopher Stuart
in
Aging
/ Animals
/ Ataxia
/ Cell Nucleus - metabolism
/ Cells, Cultured
/ Cellular Senescence
/ Cytosol
/ Deoxyribonucleic acid
/ DNA
/ DNA - metabolism
/ DNA damage
/ Dnase2a
/ Endodeoxyribonucleases - deficiency
/ Endodeoxyribonucleases - metabolism
/ Enzymatic activity
/ Extrachromosomal DNA
/ extranuclear DNA
/ Heart diseases
/ Humans
/ Immune response
/ Inflammation
/ Inflammation - metabolism
/ Innate immunity
/ Leptomycin B
/ Mice
/ Mice, Knockout
/ Original Paper
/ Original Papers
/ Phenotypes
/ premature aging
/ Progeria
/ Senescence
/ STING pathway
2019
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Extranuclear DNA accumulates in aged cells and contributes to senescence and inflammation
by
Heather, James M.
, Lieb, David
, Hacohen, Nir
, Raychowdhury, Raktima
, Eisenhaure, Thomas
, Lan, Yuk Yuen
, Garris, Christopher Stuart
in
Aging
/ Animals
/ Ataxia
/ Cell Nucleus - metabolism
/ Cells, Cultured
/ Cellular Senescence
/ Cytosol
/ Deoxyribonucleic acid
/ DNA
/ DNA - metabolism
/ DNA damage
/ Dnase2a
/ Endodeoxyribonucleases - deficiency
/ Endodeoxyribonucleases - metabolism
/ Enzymatic activity
/ Extrachromosomal DNA
/ extranuclear DNA
/ Heart diseases
/ Humans
/ Immune response
/ Inflammation
/ Inflammation - metabolism
/ Innate immunity
/ Leptomycin B
/ Mice
/ Mice, Knockout
/ Original Paper
/ Original Papers
/ Phenotypes
/ premature aging
/ Progeria
/ Senescence
/ STING pathway
2019
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Extranuclear DNA accumulates in aged cells and contributes to senescence and inflammation
by
Heather, James M.
, Lieb, David
, Hacohen, Nir
, Raychowdhury, Raktima
, Eisenhaure, Thomas
, Lan, Yuk Yuen
, Garris, Christopher Stuart
in
Aging
/ Animals
/ Ataxia
/ Cell Nucleus - metabolism
/ Cells, Cultured
/ Cellular Senescence
/ Cytosol
/ Deoxyribonucleic acid
/ DNA
/ DNA - metabolism
/ DNA damage
/ Dnase2a
/ Endodeoxyribonucleases - deficiency
/ Endodeoxyribonucleases - metabolism
/ Enzymatic activity
/ Extrachromosomal DNA
/ extranuclear DNA
/ Heart diseases
/ Humans
/ Immune response
/ Inflammation
/ Inflammation - metabolism
/ Innate immunity
/ Leptomycin B
/ Mice
/ Mice, Knockout
/ Original Paper
/ Original Papers
/ Phenotypes
/ premature aging
/ Progeria
/ Senescence
/ STING pathway
2019
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Extranuclear DNA accumulates in aged cells and contributes to senescence and inflammation
Journal Article
Extranuclear DNA accumulates in aged cells and contributes to senescence and inflammation
2019
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Overview
Systemic inflammation is central to aging‐related conditions. However, the intrinsic factors that induce inflammation are not well understood. We previously identified a cell‐autonomous pathway through which damaged nuclear DNA is trafficked to the cytosol where it activates innate cytosolic DNA sensors that trigger inflammation. These results led us to hypothesize that DNA released after cumulative damage contributes to persistent inflammation in aging cells through a similar mechanism. Consistent with this notion, we found that older cells harbored higher levels of extranuclear DNA compared to younger cells. Extranuclear DNA was exported by a leptomycin B‐sensitive process, degraded through the autophagosome–lysosomal pathway and triggered innate immune responses through the DNA‐sensing cGAS‐STING pathway. Patient cells from the aging diseases ataxia and progeria also displayed extranuclear DNA accumulation, increased pIRF3 and pTBK1, and STING‐dependent p16 expression. Removing extranuclear DNA in old cells using DNASE2A reduced innate immune responses and senescence‐associated (SA) β‐gal enzyme activity. Cells and tissues of Dnase2a−/− mice with defective DNA degradation exhibited slower growth, higher activity of β‐gal, or increased expression of HP‐1β and p16 proteins, while Dnase2a−/−;Sting−/− cells and tissues were rescued from these phenotypes, supporting a role for extranuclear DNA in senescence. We hypothesize a direct role for excess DNA in aging‐related inflammation and in replicative senescence, and propose DNA degradation as a therapeutic approach to remove intrinsic DNA and revert inflammation associated with aging.
Publisher
John Wiley & Sons, Inc,John Wiley and Sons Inc
Subject
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