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 Furthermore we provide unpublished data underscoring the requirement of posttranslational CaaX-box processing for proper protein localization at the nuclear envelope.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  - 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  - GEN
A1  - Batsios, Petros
A1  - Ren, Xiang
A1  - Baumann, Otto
A1  - Larochelle, Denis A.
A1  - Gräf, Ralph
T1  - Src1 is a Protein of the Inner Nuclear Membrane Interacting with the Dictyostelium Lamin NE81
N2  - The nuclear envelope (NE) consists of the outer and inner nuclear membrane (INM), whereby the latter is bound to the nuclear lamina. Src1 is a Dictyostelium homologue of the helix-extension-helix family of proteins, which also includes the human lamin-binding protein MAN1. Both endogenous Src1 and GFP-Src1 are localized to the NE during the entire cell cycle. Immuno-electron microscopy and light microscopy after differential detergent treatment indicated that Src1 resides in the INM. FRAP experiments with GFP-Src1 cells suggested that at least a fraction of the protein could be stably engaged in forming the nuclear lamina together with the Dictyostelium lamin NE81. Both a BioID proximity assay and mis-localization of soluble, truncated mRFP-Src1 at cytosolic clusters consisting of an intentionally mis-localized mutant of GFP-NE81 confirmed an interaction of Src1 and NE81. Expression GFP-Src11–646, a fragment C-terminally truncated after the first transmembrane domain, disrupted interaction of nuclear membranes with the nuclear lamina, as cells formed protrusions of the NE that were dependent on cytoskeletal pulling forces. Protrusions were dependent on intact microtubules but not actin filaments. Our results indicate that Src1 is required for integrity of the NE and highlight Dictyostelium as a promising model for the evolution of nuclear architecture.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 263 
KW  - Dictyostelium
KW  - HeH-protein
KW  - LEM-domain protein
KW  - lamin
KW  - nuclear lamina
KW  - nucleolus
KW  - nucleus
Y1  - 2016
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-97033
ER  - 
TY  - JOUR
A1  - Batsios, Petros
A1  - Ren, Xiang
A1  - Baumann, Otto
A1  - Larochelle, Denis A.
A1  - Gräf, Ralph
T1  - Src1 is a Protein of the Inner Nuclear Membrane Interacting with the Dictyostelium Lamin NE81
JF  - Cells
N2  - The nuclear envelope (NE) consists of the outer and inner nuclear membrane (INM), whereby the latter is bound to the nuclear lamina. Src1 is a Dictyostelium homologue of the helix-extension-helix family of proteins, which also includes the human lamin-binding protein MAN1. Both endogenous Src1 and GFP-Src1 are localized to the NE during the entire cell cycle. Immuno-electron microscopy and light microscopy after differential detergent treatment indicated that Src1 resides in the INM. FRAP experiments with GFP-Src1 cells suggested that at least a fraction of the protein could be stably engaged in forming the nuclear lamina together with the Dictyostelium lamin NE81. Both a BioID proximity assay and mis-localization of soluble, truncated mRFP-Src1 at cytosolic clusters consisting of an intentionally mis-localized mutant of GFP-NE81 confirmed an interaction of Src1 and NE81. Expression GFP-Src11–646, a fragment C-terminally truncated after the first transmembrane domain, disrupted interaction of nuclear membranes with the nuclear lamina, as cells formed protrusions of the NE that were dependent on cytoskeletal pulling forces. Protrusions were dependent on intact microtubules but not actin filaments. Our results indicate that Src1 is required for integrity of the NE and highlight Dictyostelium as a promising model for the evolution of nuclear architecture.
KW  - Dictyostelium
KW  - lamin
KW  - nuclear lamina
KW  - nucleus
KW  - nucleolus
KW  - HeH-protein
KW  - LEM-domain protein
Y1  - 2016
U6  - https://doi.org/10.3390/cells5010013
SN  - 2073-4409
VL  - 5
IS  - 1
PB  - MDPI
CY  - Basel
ER  - 
TY  - GEN
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
T2  - Potsprint der Universität Potsdam Mathematisch-Naturwissenschaftliche Reihe
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.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 682 
KW  - lamin
KW  - NE81
KW  - Dictyostelium
KW  - nuclear envelope
KW  - nuclear lamina
KW  - expansion microscopy
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-425976
SN  - 1866-8372
IS  - 682
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  -