The plant nuclear lamina disassembles to regulate genome folding in stress conditions

The nuclear lamina is a complex network of nuclear lamins and lamin-associated nuclear membrane proteins, which scaffold the nucleus to maintain structural integrity. In Arabidopsis thaliana, nuclear matrix constituent proteins (NMCPs) are essential components of the nuclear lamina and are required to maintain the structural integrity of the nucleus and specific perinuclear chromatin anchoring. At the nuclear periphery, suppressed chromatin overlapping with repetitive sequences and inactive protein-coding genes are enriched. At a chromosomal level, plant chromatin organization in interphase nuclei is flexible and responds to various developmental cues and environmental stimuli. On the basis of these observations in Arabidopsis, and given the role of NMCP genes (CRWN1 and CRWN4) in organizing chromatin positioning at the nuclear periphery, one can expect considerable changes in chromatin-nuclear lamina interactions when the global chromatin organization patterns are being altered in plants. Here we report the highly flexible nature of the plant nuclear lamina, which disassembles substantially under various stress conditions. Focusing on heat stress, we reveal that chromatin domains, initially tethered to the nuclear envelope, remain largely associated with CRWN1 and become scattered in the inner nuclear space. By investigating the three-dimensional chromatin contact network, we further reveal that CRWN1 proteins play a structural role in shaping the changes in genome folding under heat stress. Also, CRWN1 acts as a negative transcriptional coregulator to modulate the shift of the plant transcriptome profile in response to heat stress. The nuclear lamina in Arabidopsis, a protein meshwork beneath the nuclear envelope, disassembles under various abiotic stresses, modulating changes in three-dimensional genome organization and gene transcription in stress response.

Automated summary

The nuclear lamina is a complex network of proteins that scaffolds the nucleus and maintains its structural integrity. In Arabidopsis, nuclear matrix constituent proteins (NMCPs) are essential for the nuclear lamina and play a role in organizing chromatin positioning. The nuclear lamina disassembles under various stresses, impacting genome organization and gene transcription.