Hydroxyurea Induces Hydroxyl Radical-Mediated Cell Death in Escherichia coli

The nuclear envelope (NE) aids in organizing the interphase genome by tethering chromatin to the nuclear periphery. During mitotic entry, NE–chromatin contacts are broken. Here, we report on the consequences of impaired NE removal from chromatin for cell division of human cells. Using a membrane–chromatin tether that cannot be dissociated when cells enter mitosis, we show that a failure in breaking membrane–chromatin interactions impairs mitotic chromatin organization, chromosome segregation and cytokinesis, and induces an aberrant NE morphology in postmitotic cells. In contrast, chromosome segregation and cell division proceed successfully when membrane attachment to chromatin is induced during metaphase, after chromosomes have been singularized and aligned at the metaphase plate. These results indicate that the separation of membranes and chromatin is critical during prometaphase to allow for proper chromosome compaction and segregation. We propose that one cause of these defects is the multivalency of membrane–chromatin interactions.

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Torsin ATPases influence chromatin interaction of the Torsin regulator LAP1

Luithle

Bos

Hovius

et al. 2020

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The inner nuclear membrane is functionalized by diverse transmembrane proteins that associate with nuclear lamins and/or chromatin. When cells enter mitosis, membrane-chromatin contacts must be broken to allow for proper chromosome segregation; yet how this occurs remains ill-understood. Unexpectedly, we observed that an imbalance in the levels of the lamina-associated polypeptide 1 (LAP1), an activator of ER-resident Torsin AAA+-ATPases, causes a failure in membrane removal from mitotic chromatin, accompanied by chromosome segregation errors and changes in post-mitotic nuclear morphology. These defects are dependent on a hitherto unknown chromatin-binding region of LAP1 that we have delineated. LAP1-induced NE abnormalities are efficiently suppressed by expression of wild-type but not ATPase-deficient Torsins. Furthermore, a dominant-negative Torsin induces chromosome segregation defects in a LAP1-dependent manner. These results indicate that association of LAP1 with chromatin in the nucleus can be modulated by Torsins in the perinuclear space, shedding new light on the LAP1-Torsin interplay.

show abstract

Torsin ATPases influence chromatin interaction of the Torsin regulator LAP1

Luithle

Bos

Hovius

et al. 2020

Preprint

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Author response: Torsin ATPases influence chromatin interaction of the Torsin regulator LAP1

Luithle

Bos

Hovius

et al. 2020

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Naemi Luithle

Dissociation of membrane–chromatin contacts is required for proper chromosome segregation in mitosis

Torsin ATPases influence chromatin interaction of the Torsin regulator LAP1

Torsin ATPases influence chromatin interaction of the Torsin regulator LAP1

Author response: Torsin ATPases influence chromatin interaction of the Torsin regulator LAP1

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