Nuclear growth and import can be uncoupled

What drives nuclear growth? Studying nuclei assembled in egg extract and focusing on importin α/β-mediated nuclear import, we show that, while import is required for nuclear growth, nuclear growth and import can be uncoupled when chromatin structure is manipulated. Nuclei treated with micrococcal nu...

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Bibliographic Details
Published in:Molecular biology of the cell 2024-01, Vol.35 (1), p.ar1-ar1
Main Authors: Chen, Pan, Mishra, Sampada, Prabha, Haritha, Sengupta, Sourabh, Levy, Daniel L
Format: Article
Language:English
Subjects:
Animals
Cell development (Biology)
Cell nuclei
Cell Nucleus - metabolism
Cell research
Chromatin - metabolism
DNA - metabolism
Growth
Lamins - metabolism
Nuclear Envelope - metabolism
Xenopus laevis - metabolism
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Summary:What drives nuclear growth? Studying nuclei assembled in egg extract and focusing on importin α/β-mediated nuclear import, we show that, while import is required for nuclear growth, nuclear growth and import can be uncoupled when chromatin structure is manipulated. Nuclei treated with micrococcal nuclease to fragment DNA grew slowly despite exhibiting little to no change in import rates. Nuclei assembled around axolotl chromatin with 20-fold more DNA than grew larger but imported more slowly. Treating nuclei with reagents known to alter histone methylation or acetylation caused nuclei to grow less while still importing to a similar extent or to grow larger without significantly increasing import. Nuclear growth but not import was increased in live sea urchin embryos treated with the DNA methylator N-nitrosodimethylamine. These data suggest that nuclear import is not the primary driving force for nuclear growth. Instead, we observed that nuclear blebs expanded preferentially at sites of high chromatin density and lamin addition, whereas small Benzonase-treated nuclei lacking DNA exhibited reduced lamin incorporation into the nuclear envelope. In summary, we report experimental conditions where nuclear import is not sufficient to drive nuclear growth, hypothesizing that this uncoupling is a result of altered chromatin structure.
ISSN:1059-1524
1939-4586
DOI:10.1091/mbc.E23-04-0138