Nuclear blebs are associated with destabilized chromatin-packing domains.

IF 3.3 3区生物学 Q3 CELL BIOLOGY Journal of cell science Pub Date : 2025-02-01 Epub Date: 2025-02-11 DOI:10.1242/jcs.262161

Emily M Pujadas Liwag, Nicolas Acosta, Luay Matthew Almassalha, Yuanzhe Patrick Su, Ruyi Gong, Masato T Kanemaki, Andrew D Stephens, Vadim Backman

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Abstract

Disrupted nuclear shape is associated with multiple pathological processes including premature aging disorders, cancer-relevant chromosomal rearrangements and DNA damage. Nuclear blebs (i.e. herniations of the nuclear envelope) can be induced by (1) nuclear compression, (2) nuclear migration (e.g. cancer metastasis), (3) actin contraction, (4) lamin mutation or depletion, and (5) heterochromatin enzyme inhibition. Recent work has shown that chromatin transformation is a hallmark of bleb formation, but the transformation of higher-order structures in blebs is not well understood. As higher-order chromatin has been shown to assemble into nanoscopic packing domains, we investigated whether (1) packing domain organization is altered within nuclear blebs and (2) whether alteration in packing domain structure contributed to bleb formation. Using dual-partial wave spectroscopic microscopy, we show that chromatin-packing domains within blebs are transformed both by B-type lamin depletion and the inhibition of heterochromatin enzymes compared to what is seen in the nuclear body. Pairing these results with single-molecule localization microscopy of constitutive heterochromatin, we show fragmentation of nanoscopic heterochromatin domains within bleb domains. Overall, these findings indicate that chromatin within blebs is associated with a fragmented higher-order chromatin structure.

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