Nuclear morphology is shaped by loop-extrusion programs.
Indumathi PattaMaryam ZandLindsay LeeShreya MishraAlexandra BortnickHanbin LuArpita PrustySara McArdleZbigniew MikulskiHuan-You WangChristine S ChengKathleen M FischMing HuCornelis MurrePublished in: Nature (2024)
It is well established that neutrophils adopt malleable polymorphonuclear shapes to migrate through narrow interstitial tissue spaces 1-3 . However, how polymorphonuclear structures are assembled remains unknown 4 . Here we show that in neutrophil progenitors, halting loop extrusion-a motor-powered process that generates DNA loops by pulling in chromatin 5 -leads to the assembly of polymorphonuclear genomes. Specifically, we found that in mononuclear neutrophil progenitors, acute depletion of the loop-extrusion loading factor nipped-B-like protein (NIPBL) induced the assembly of horseshoe, banded, ringed and hypersegmented nuclear structures and led to a reduction in nuclear volume, mirroring what is observed during the differentiation of neutrophils. Depletion of NIPBL also induced cell-cycle arrest, activated a neutrophil-specific gene program and conditioned a loss of interactions across topologically associating domains to generate a chromatin architecture that resembled that of differentiated neutrophils. Removing NIPBL resulted in enrichment for mega-loops and interchromosomal hubs that contain genes associated with neutrophil-specific enhancer repertoires and an inflammatory gene program. On the basis of these observations, we propose that in neutrophil progenitors, loop-extrusion programs produce lineage-specific chromatin architectures that permit the packing of chromosomes into geometrically confined lobular structures. Our data also provide a blueprint for the assembly of polymorphonuclear structures, and point to the possibility of engineering de novo nuclear shapes to facilitate the migration of effector cells in densely populated tumorigenic environments.
Keyphrases
- transcription factor
- cell cycle arrest
- genome wide
- high resolution
- cell death
- gene expression
- dna damage
- genome wide identification
- drug induced
- diabetic rats
- pi k akt
- public health
- high glucose
- copy number
- oxidative stress
- induced apoptosis
- dna methylation
- liver failure
- single cell
- respiratory failure
- cell proliferation
- signaling pathway
- binding protein
- circulating tumor
- dendritic cells
- hepatitis b virus
- quality improvement
- endothelial cells
- mass spectrometry
- circulating tumor cells
- immune response
- mechanical ventilation