TY - JOUR A1 - Batsios, Petros A1 - Gräf, Ralph A1 - Koonce, Michael P. A1 - Larochelle, Denis A. A1 - Meyer, Irene T1 - Nuclear envelope organization in Dictyostelium discoideum JF - The international journal of developmental biology N2 - The nuclear envelope consists of the outer and the inner nuclear membrane, the nuclear lamina and the nuclear pore complexes, which regulate nuclear import and export.The major constituent of the nuclear lamina of Dictyostelium is the lamin NE81. It can form filaments like B-type lamins and it interacts with Sun 1, as well as with the LEM/HeH-family protein Src1. Sun 1 and Src1 are nuclear envelope transmembrane proteins involved in the centrosome-nucleus connection and nuclear envelope stability at the nucleolar regions, respectively. In conjunction with a KASH-domain protein, Sun 1 usually forms a so-called LINC complex.Two proteins with functions reminiscent of KASH-domain proteins at the outer nuclear membrane of Dictyostelium are known; interaptin which serves as an actin connector and the kinesin Kif9 which plays a role in the microtubule-centrosome connector. However, both of these lack the conserved KASH-domain. The link of the centrosome to the nuclear envelope is essential for the insertion of the centrosome into the nuclear envelope and the appropriate spindle formation. Moreover, centrosome insertion is involved in perm eabilization of the mitotic nucleus, which ensures access of tubulin dimers and spindle assembly factors. Our recent progress in identifying key molecular players at the nuclear envelope of Dictyostelium promises further insights into the mechanisms of nuclear envelope dynamics. KW - nuclear envelop KW - Dictyostelium KW - lamin KW - NET KW - centrosome KW - centromere Y1 - 2019 U6 - https://doi.org/10.1387/ijdb.190184rg SN - 0214-6282 SN - 1696-3547 VL - 63 IS - 8-10 SP - 509 EP - 519 PB - UBC Pr CY - Bilbao ER - TY - JOUR A1 - Batsios, Petros A1 - Peter, Tatjana A1 - Baumann, Otto A1 - Stick, Reimer A1 - Meyer, Irene A1 - Gräf, Ralph T1 - A lamin in lower eukaryotes? JF - Nucleus N2 - Lamins are the major components of the nuclear lamina and serve not only as a mechanical support, but are also involved in chromatin organization, epigenetic regulation, transcription and mitotic events. Despite these universal tasks, lamins have so far been found only in metazoans. Yet, recently we have identified Dictyostelium NE81 as the first lamin-like protein in a lower eukaryote. Based on the current knowledge, we draw a model for nuclear envelope organization in Dictyostelium in this Extra View and we review the experimental data that justified this classification. Furthermore we provide unpublished data underscoring the requirement of posttranslational CaaX-box processing for proper protein localization at the nuclear envelope. Sequence comparison of NE81 sequences from four Dictyostelia with bona fide lamins illustrates the evolutional relationship between these proteins. Under certain conditions these usually unicellular social amoebae congregate to form a multicellular body. We propose that the evolution of the lamin-like NE81 went along with the invention of multicellularity. KW - dictyostelium KW - lamin KW - intermediate filament KW - centrosome KW - nucleus Y1 - 2012 U6 - https://doi.org/10.4161/nucl.20149 SN - 1949-1034 VL - 3 IS - 3 SP - 237 EP - 243 PB - Landes Bioscience CY - Austin ER - TY - JOUR A1 - Grafe, Marianne A1 - Batsios, Petros A1 - Meyer, Irene A1 - Lisin, Daria A1 - Baumann, Otto A1 - Goldberg, Martin W. A1 - Gräf, Ralph T1 - Supramolecular Structures of the Dictyostelium Lamin NE81 JF - Cells N2 - Nuclear lamins are nucleus-specific intermediate filaments (IF) found at the inner nuclear membrane (INM) of the nuclear envelope (NE). Together with nuclear envelope transmembrane proteins, they form the nuclear lamina and are crucial for gene regulation and mechanical robustness of the nucleus and the whole cell. Recently, we characterized Dictyostelium NE81 as an evolutionarily conserved lamin-like protein, both on the sequence and functional level. Here, we show on the structural level that the Dictyostelium NE81 is also capable of assembling into filaments, just as metazoan lamin filament assemblies. Using field-emission scanning electron microscopy, we show that NE81 expressed in Xenopous oocytes forms filamentous structures with an overall appearance highly reminiscent of Xenopus lamin B2. The in vitro assembly properties of recombinant His-tagged NE81 purified from Dictyostelium extracts are very similar to those of metazoan lamins. Super-resolution stimulated emission depletion (STED) and expansion microscopy (ExM), as well as transmission electron microscopy of negatively stained purified NE81, demonstrated its capability of forming filamentous structures under low-ionic-strength conditions. These results recommend Dictyostelium as a non-mammalian model organism with a well-characterized nuclear envelope involving all relevant protein components known in animal cells. KW - lamin KW - NE81 KW - Dictyostelium KW - nuclear envelope KW - nuclear lamina KW - expansion microscopy Y1 - 2019 U6 - https://doi.org/10.3390/cells8020162 SN - 2073-4409 VL - 8 IS - 2 PB - Molecular Diversity Preservation International CY - Basel ER - TY - JOUR A1 - Grafe, Marianne A1 - Hofmann, Phillip A1 - Batsios, Petros A1 - Meyer, Irene A1 - Gräf, Ralph T1 - In vivo assembly of a Dictyostelium lamin mutant induced by light, mechanical stress, and pH JF - Cells : open access journal N2 - We expressedDictyosteliumlamin (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-Delta NLS Delta CLIM. 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 theDictyosteliumlamin, they are likely relevant also for wild-type lamin. KW - lamin KW - NE81 KW - Dictyostelium KW - nuclear envelope KW - nuclear lamina Y1 - 2020 U6 - https://doi.org/10.3390/cells9081834 SN - 2073-4409 VL - 9 IS - 8 PB - MDPI CY - Basel ER - TY - JOUR A1 - Grafe, Marianne A1 - Hofmann, Phillip A1 - Batsios, Petros A1 - Meyer, Irene A1 - Gräf, Ralph T1 - In vivo assembly of a Dictyostelium lamin mutant induced by light, mechanical stress, and pH JF - Cells N2 - 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-∆NLS∆CLIM. 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. KW - lamin KW - NE81 KW - Dictyostelium KW - nuclear envelope KW - nuclear lamina Y1 - 2020 VL - 9 IS - 8 PB - MDPI CY - Basel ER - TY - JOUR A1 - Gräf, Ralph A1 - Batsios, Petros A1 - Meyer, Irene T1 - Evolution of centrosomes and the nuclear lamina: Amoebozoan assets JF - European journal of cell biology N2 - The current eukaryotic tree of life groups most eukaryotes into one of five supergroups, the Opisthokonta, Amoebozoa, Archaeplastida, Excavata and SAR (Stramenopile, Alveolata, Rhizaria). Molecular and comparative morphological analyses revealed that the last eukaryotic common ancestor (LECA) already contained a rather sophisticated equipment of organelles including a mitochondrion, an endomembrane system, a nucleus with a lamina, a microtubule-organizing center (MTOC), and a flagellar apparatus. Recent studies of MTOCs, basal bodies/centrioles, and nuclear envelope organization of organisms in different supergroups have clarified our picture of how the nucleus and MTOCs co-evolved from LECA to extant eukaryotes. In this review we summarize these findings with special emphasis on valuable contributions of research on a lamin-like protein, nuclear envelope proteins, and the MTOC in the amoebozoan model organism Dictyostelium discoideum. (C) 2015 Elsevier GmbH. All rights reserved. KW - LINC complex KW - Sun1 KW - Nuclear lamina KW - Lamin KW - Nuclear envelope KW - Centrosome KW - Basal body KW - Centriole KW - LEM-domain Y1 - 2015 U6 - https://doi.org/10.1016/j.ejcb.2015.04.004 SN - 0171-9335 SN - 1618-1298 VL - 94 IS - 6 SP - 249 EP - 256 PB - Elsevier CY - Jena ER - TY - JOUR A1 - Gräf, Ralph A1 - Grafe, Marianne A1 - Meyer, Irene A1 - Mitic, Kristina A1 - Pitzen, Valentin T1 - The dictyostelium centrosome JF - Cells : open access journal N2 - The centrosome of Dictyostelium amoebae contains no centrioles and consists of a cylindrical layered core structure surrounded by a corona harboring microtubule-nucleating gamma-tubulin complexes. It is the major centrosomal model beyond animals and yeasts. Proteomics, protein interaction studies by BioID and superresolution microscopy methods led to considerable progress in our understanding of the composition, structure and function of this centrosome type. We discuss all currently known components of the Dictyostelium centrosome in comparison to other centrosomes of animals and yeasts. KW - microtubule-organizing center KW - microtubule-organization KW - centrosome KW - Dictyostelium KW - mitosis Y1 - 2021 U6 - https://doi.org/10.3390/cells10102657 SN - 2073-4409 VL - 10 IS - 10 PB - MDPI CY - Basel ER - TY - JOUR A1 - Krüger, Anne A1 - Batsios, Petros A1 - Baumann, Otto A1 - Luckert, Eva A1 - Schwarz, Heinz A1 - Stick, Reimer A1 - Meyer, Irene A1 - Gräf, Ralph T1 - Characterization of NE81, the first lamin-like nucleoskeleton protein in a unicellular organism JF - Molecular biology of the cell : the official publication of the American Society for Cell Biology N2 - Lamins build the nuclear lamina and are required for chromatin organization, gene expression, cell cycle progression, and mechanical stabilization. Despite these universal functions, lamins have so far been found only in metazoans. We have identified protein NE81 in Dictyostelium, which has properties that justify its denomination as a lamin-like protein in a lower eukaryote. This is based on its primary structure, subcellular localization, and regulation during mitosis, and its requirement of the C-terminal CaaX box as a posttranslational processing signal for proper localization. Our knockout and overexpression mutants revealed an important role for NE81 in nuclear integrity, chromatin organization, and mechanical stability of cells. All our results are in agreement with a role for NE81 in formation of a nuclear lamina. This function is corroborated by localization of Dictyostelium NE81 at the nuclear envelope in human cells. The discovery of a lamin-like protein in a unicellular organism is not only intriguing in light of evolution, it may also provide a simple experimental platform for studies of the molecular basis of laminopathies. Y1 - 2012 U6 - https://doi.org/10.1091/mbc.E11-07-0595 SN - 1059-1524 VL - 23 IS - 2 SP - 360 EP - 370 PB - American Society for Cell Biology CY - Bethesda ER - TY - JOUR A1 - Kuhnert, Oliver A1 - Baumann, Otto A1 - Meyer, Irene A1 - Gräf, Ralph T1 - CP55, a novel key component of centrosomal organization in dictyostelium JF - Cellular and molecular life sciences N2 - Dictyostelium centrosomes consist of a layered core structure surrounded by a microtubule-nucleating corona. At the G2/M transition, the corona dissociates and the core structure duplicates, yielding two spindle pole bodies. Finally, in telophase, the spindle poles mature into two new, complete centrosomes. CP55 was identified in a centrosomal proteome analysis. It is a component of the centrosomal core structure, and persists at the centrosome throughout the entire cell cycle. FRAP experiments revealed that during interphase the majority of centrosomal GFP-CP55 is immobile, which indicates a structural task of CP55 at the centrosome. The CP55null mutant is characterized by increased ploidy, a less structured, slightly enlarged corona, and by supernumerary, cytosolic MTOCs, containing only corona proteins and lacking a core structure. Live cell imaging showed that supernumerary MTOCs arise in telophase. Lack of CP55 also caused premature recruitment of the corona organizer CP148 to mitotic spindle poles, already in metaphase instead of telophase. Forces transmitted through astral microtubules may expel prematurely acquired or loosely attached corona fragments into the cytosol, where they act as independent MTOCs. CP55null cells were also impaired in growth, most probably due to difficulties in centrosome splitting during prophase. Furthermore, although they were still capable of phagocytosis, they appeared unable to utilize phagocytosed nutrients. This inability may be attributed to their partially disorganized Golgi apparatus. KW - Dictyostelium KW - Corona KW - Microtubules KW - Centrosome KW - Nucleus Y1 - 2012 U6 - https://doi.org/10.1007/s00018-012-1040-3 SN - 1420-682X VL - 69 IS - 21 SP - 3651 EP - 3664 PB - Springer CY - Basel ER - TY - JOUR A1 - Kuhnert, Oliver A1 - Baumann, Otto A1 - Meyer, Irene A1 - Gräf, Ralph T1 - Functional characterization of CP148, a novel key component for centrosome integrity in Dictyostelium JF - Cellular and molecular life sciences N2 - The centrosome consists of a layered core structure surrounded by a microtubule-nucleating corona. A tight linkage through the nuclear envelope connects the cytosolic centrosome with the clustered centromeres within the nuclear matrix. At G2/M the corona dissociates, and the core structure duplicates, yielding two spindle poles. CP148 is a novel coiled coil protein of the centrosomal corona. GFP-CP148 exhibited cell cycle-dependent presence and absence at the centrosome, which correlates with dissociation of the corona in prophase and its reformation in late telophase. During telophase, GFP-CP148 formed cytosolic foci, which coalesced and joined the centrosome. This explains the hypertrophic appearance of the corona upon strong overexpression of GFP-CP148. Depletion of CP148 by RNAi caused virtual loss of the corona and disorganization of interphase microtubules. Surprisingly, formation of the mitotic spindle and astral microtubules was unaffected. Thus, microtubule nucleation complexes associate with centrosomal core components through different means during interphase and mitosis. Furthermore, CP148 RNAi caused dispersal of centromeres and altered Sun1 distribution at the nuclear envelope, suggesting a role of CP148 in the linkage between centrosomes and centromeres. Taken together, CP148 is an essential factor for the formation of the centrosomal corona, which in turn is required for centrosome/centromere linkage. KW - Dictyostelium KW - Corona KW - Microtubules KW - Centrosome KW - Nucleus Y1 - 2012 U6 - https://doi.org/10.1007/s00018-011-0904-2 SN - 1420-682X VL - 69 IS - 11 SP - 1875 EP - 1888 PB - Springer CY - Basel ER -