Emerin prevents BAF-mediated aggregation of lamin A on chromosomes in telophase to allow nuclear membrane expansion and nuclear lamina formation

Several studies have suggested a role for the LEM-domain protein emerin and the DNA binding factor BAF in nuclear envelope reformation after mitosis, but the exact molecular mechanisms are not understood. Using HeLa cells deficient for emerin or both emerin and lamin A, we show that emerin deficiency induces abnormal aggregation of lamin A at the nuclear periphery in telophase. As a result, nuclear membrane expansion is impaired and BAF accumulates at the core region, the middle part of telophase nuclei. Aggregates do not form when lamin A carries the mutation R435C in the immunoglobulin fold known to prevent interaction of lamin A with BAF suggesting that aggregation is caused by a stabilized association of lamin A with BAF bound to chromosomal DNA. Reintroduction of emerin in the cells prevents formation of lamin A clusters and BAF accumulation at the core region. Therefore emerin is required for the expansion of the nuclear membrane at the core region to enclose the nucleus and for the rapid reformation of the nuclear lamina based on lamin A/C in telophase. Finally, we show that LEM-domain and lumenal domain are required for the targeting of emerin to exert its function at the core region.