Compromised nuclear envelope integrity drives tumor cell invasion

Abstract: While mutations leading to a fragile envelope of the cell nucleus are well known to cause diseases such as muscular dystrophies or accelerated aging, the pathophysiological consequences of the recently discovered mechanically induced nuclear envelope ruptures in cells harboring no mutation are less known. Here we show that repeated loss of nuclear envelope integrity in nuclei experiencing mechanical constraints promotes senescence in nontransformed cells, and induces an invasive phenotype including increased c… Show more

“…Consistent with this idea, p53 has been reported to mediate replication stress and restart DNA replication at stalled forks, thereby preventing replication fork collapse and associated DNA damage. 60 At the same time, differences in the susceptibility of cells to NE rupture-induced DNA damage could be due to differences in the expression of cytoplasmic nucleases 21,23 or other factors.…”

“…Taken together, these findings indicate that NE rupture-induced DNA damage occurs independent of cell cycle stage, consistent with it resulting from the influx of cytoplasmic nucleases, which would attack DNA irrespective of cell cycle stage ( Figure 6). [21][22][23] In contrast, deformation-induced DNA damage occurs primarily in the S/G2 phase of the cell cycle, suggesting that it is linked to DNA replication.…”

“…[9][10][11][12][13][14][15][16] Transient loss of NE integrity allows uncontrolled exchange between the nucleoplasm and cytoplasm; exposes the genomic DNA to cytoplasmic components, such as nucleases; and leads to DNA damage. [9][10][11]13,15,[17][18][19][20][21][22][23] Although cells rapidly repair their NE and continue to survive and migrate, 10,11,13 the acquired DNA damage can increase genomic instability in these cancer cells, 9,14,15,19,23,24 which could further enhance their metastatic potential and resistance to therapies.…”

“…Recent reports have implicated loss of DNA repair factors during NE rupture or local exclusion of repair factors due to nuclear deformation as possible mechanisms. [15][16][17][18][19] Exposure to cytoplasmic DNases, such as TREX1, following NE rupture [21][22][23] and mislocalization of organelles like mitochondria post-NE rupture 25 have also been suggested as cause of DNA damage. Contributing to the uncertainty about the molecular mechanism responsible for the confined migration-induced DNA damage is that previous studies have provided at times conflicting results on the association between DNA damage and NE rupture.…”

Nuclear Deformation Causes DNA Damage by Increasing Replication Stress

“…Consistent with this idea, p53 has been reported to mediate replication stress and restart DNA replication at stalled forks, thereby preventing replication fork collapse and associated DNA damage. 60 At the same time, differences in the susceptibility of cells to NE rupture-induced DNA damage could be due to differences in the expression of cytoplasmic nucleases 21,23 or other factors.…”

“…Taken together, these findings indicate that NE rupture-induced DNA damage occurs independent of cell cycle stage, consistent with it resulting from the influx of cytoplasmic nucleases, which would attack DNA irrespective of cell cycle stage ( Figure 6). [21][22][23] In contrast, deformation-induced DNA damage occurs primarily in the S/G2 phase of the cell cycle, suggesting that it is linked to DNA replication.…”

“…[9][10][11][12][13][14][15][16] Transient loss of NE integrity allows uncontrolled exchange between the nucleoplasm and cytoplasm; exposes the genomic DNA to cytoplasmic components, such as nucleases; and leads to DNA damage. [9][10][11]13,15,[17][18][19][20][21][22][23] Although cells rapidly repair their NE and continue to survive and migrate, 10,11,13 the acquired DNA damage can increase genomic instability in these cancer cells, 9,14,15,19,23,24 which could further enhance their metastatic potential and resistance to therapies.…”

“…Recent reports have implicated loss of DNA repair factors during NE rupture or local exclusion of repair factors due to nuclear deformation as possible mechanisms. [15][16][17][18][19] Exposure to cytoplasmic DNases, such as TREX1, following NE rupture [21][22][23] and mislocalization of organelles like mitochondria post-NE rupture 25 have also been suggested as cause of DNA damage. Contributing to the uncertainty about the molecular mechanism responsible for the confined migration-induced DNA damage is that previous studies have provided at times conflicting results on the association between DNA damage and NE rupture.…”

Nuclear Deformation Causes DNA Damage by Increasing Replication Stress

“…Data Fig. 1d ) 15 . Additionally, DNA bridges were not found to elicit significant cGAS/STING signaling in an analogous model of telomere crisis in cGAS-positive MCF10A cells 16 .…”

APOBEC3-dependent kataegis and TREX1-driven chromothripsis during telomere crisis

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