Antagonistic contributions of A-type and B-type lamins to LBR localization and dynamics

Lamin B receptor (LBR) is an inner nuclear membrane (INM) protein that plays crucial roles in maintaining nuclear architecture and organization of peripheral heterochromatin. Lamins and LBR both contribute to chromatin tethering at the nuclear periphery, and the expression of LBR and A-type lamins is tightly regulated during development to ensure a faithful transition between different chromatin tethering modalities. Despite its well-established association with B-type lamins, the contributions of individual lamin isoforms to LBR localization and anchorage have not been systematically examined. Here, we used mouse embryonic fibroblasts (MEFs) lacking all endogenous lamins (triple lamin knockout: TKO) to assess how specific lamin isoforms and domains regulate LBR subcellular localization and mobility. Whereas ectopic expression of either lamin B1 or lamin B2 was sufficient to tether LBR to the nuclear envelope in TKO cells, expression of lamin A increased the lateral mobility of LBR at the nuclear membrane, resulting in its displacement from the nuclear envelope to the ER. The lamin A-induced displacement of LBR was mediated by phosphorylation of LBR. Overexpression of lamin A in wild-type MEFs similarly increased LBR phosphorylation and promoted its displacement from the nuclear envelope. Collectively, these findings define isoform-specific and antagonistic roles for A-type and B-type lamins in regulating LBR anchorage at the nuclear envelope. In addition, they indicate a lamin A-dependent mechanism that may reflect a broader developmental process, since LBR and lamin A sequentially tether peripheral heterochromatin during development.