Abstract
We expressed Dictyostelium lamin (NE81) lacking both a functional nuclear localization signal and a CAAX-box for C-terminal lipid modification. This lamin mutant assembled into supramolecular, three-dimensional clusters in the cytosol that disassembled at the onset of mitosis and re-assembled in late telophase, thus mimicking the behavior of the endogenous protein. As disassembly is regulated by CDK1-mediated phosphorylation at serine 122, we generated a phosphomimetic S122E mutant called GFP-NE81-S122E-ΔNLSΔCLIM. Surprisingly, during imaging, the fusion protein assembled into cytosolic clusters, similar to the protein lacking the phosphomimetic mutation. Clusters disassembled again in the darkness. Assembly could be induced with blue but not green or near ultraviolet light, and it was independent of the fusion tag. Assembly similarly occurred upon cell flattening. Earlier reports and own observations suggested that both blue light and cell flattening could result in a decrease of intracellular pH. Indeed, keeping the cells at low pH also reversibly induced cluster formation. Our results indicate that lamin assembly can be induced by various stress factors and that these are transduced via intracellular acidification. Although these effects have been shown in a phosphomimetic CDK1 mutant of the Dictyostelium lamin, they are likely relevant also for wild-type lamin.
Highlights
Lamins are type V intermediate filaments and are the major component of the nuclear lamina
When we set out to study the phosphorylation dependency of mitotic NE81 disassembly by expression of point mutated GFP or HisMyc-tagged fusion proteins, we initially focused on the canonical CDK1 site known to be required for lamin disassembly in the course of nuclear envelope breakdown in animal cells (Figure 1A)
Our results show that lamin assembly can be induced by exposure to blue light, cell flattening and acidification of the medium
Summary
Lamins are type V intermediate filaments and are the major component of the nuclear lamina. They are composed of a short head domain, a long α-helical rod domain (370 amino acids) and a tail domain. CaaX box (= cysteine, two aliphatic aa and X = aa specifying the type of isoprene moiety) [1]. The latter acts as a prenylation signal, which is modified in sequential enzymatic reactions catalyzed by farnesyl transferase, a protease (Ras-converting enzyme 1 or ZMPSTE24) and isoprenyl cysteine methyl transferase (ICMT).
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