Project description:This SuperSeries is composed of the SubSeries listed below. This research was funded in whole or in part by the Austrian Science Fund (FWF) to Roland Foisner: P32512-B/DOI:10.55776/P36503 https://www.doi.org/10.55776/P36503 P36503-B/DOI:10.55776/P32512 https://www.doi.org/10.55776/P32512

Project description:A-type lamins form a filamentous meshwork beneath the nuclear membrane that anchors large heterochromatic chromatin domains at the nuclear envelope. They also exist as a more dynamic, non-filamentous pool in the nuclear interior, where they interact with gene-rich euchromatin. Lamin-associated polypeptide 2 alpha (LAP2alpha) binds to and maintains the nucleoplasmic lamin pool, but the functional significance of this interaction is poorly understood. Here we investigate the genome-wide chromatin association of A-type lamins during myogenic differentiation in the presence and absence of LAP2alpha. We find that A-type lamins are significantly reorganized on chromatin upon depletion of LAP2alpha, spreading towards active chromatin and accumulating at regions of active H3K27ac and H3K4me3 histone marks close to the genes whose expression is impaired in the absence of LAP2alpha. This reorganization of A-type lamins on chromatin is accompanied by depletion of the active chromatin mark H3K27ac and a significant delay of myogenic differentiation. Thus, the interplay of lamins and LAP2alpha is crucial for proper positioning of intranuclear lamins on chromatin to allow normal myogenic differentiation. This research was funded in whole or in part by the Austrian Science Fund (FWF) to Roland Foisner: P32512-B/DOI:10.55776/P36503 https://www.doi.org/10.55776/P36503 P36503-B/DOI:10.55776/P32512 https://www.doi.org/10.55776/P32512

Project description:A-type lamins form a filamentous meshwork beneath the nuclear membrane that anchors large heterochromatic chromatin domains at the nuclear envelope. They also exist as a more dynamic, non-filamentous pool in the nuclear interior, where they interact with gene-rich euchromatin. Lamin-associated polypeptide 2 alpha (LAP2alpha) binds to and maintains the nucleoplasmic lamin pool, but the functional significance of this interaction is poorly understood. Here we investigate the genome-wide chromatin association of A-type lamins during myogenic differentiation in the presence and absence of LAP2alpha. We find that A-type lamins are significantly reorganized on chromatin upon depletion of LAP2alpha, spreading towards active chromatin and accumulating at regions of active H3K27ac and H3K4me3 histone marks close to the genes whose expression is impaired in the absence of LAP2alpha. This reorganization of A-type lamins on chromatin is accompanied by depletion of the active chromatin mark H3K27ac and a significant delay of myogenic differentiation. Thus, the interplay of lamins and LAP2alpha is crucial for proper positioning of intranuclear lamins on chromatin to allow normal myogenic differentiation. This research was funded in whole or in part by the Austrian Science Fund (FWF) to Roland Foisner: P32512-B/DOI:10.55776/P36503 https://www.doi.org/10.55776/P36503 P36503-B/DOI:10.55776/P32512 https://www.doi.org/10.55776/P32512

Project description:Jiangsu Agriculture Science and Technology Innovation Fund

Project description:Endothelial defects significantly contribute to cardiovascular pathology in the premature aging disease Hutchinson-Gilford progeria syndrome (HGPS). Using an endothelium-specific progeria mouse model, we identify a novel, endothelium-specific microRNA (miR) signature linked to the p53-senescence pathway and a senescence-associated secretory phenotype (SASP). Progerin-expressing endothelial cells exert profound cell-non-autonomous effects initiating senescence in non-endothelial cell populations and causing immune cell infiltrates around blood vessels. Comparative miR expression analyses revealed unique upregulation of senescence-associated miR34a-5p in endothelial cells with strong accumulation at atheroprone aortic arch regions but also, in whole cardiac- and lung tissues as well as in the circulation of progeria mice. Mechanistically, miR34a-5p knockdown reduced not only p53 levels but also late-stage senescence regulator p16 with no effect on p21 levels, while p53 knockdown reduced miR34a-5p and partially rescued p21-mediated cell cycle inhibition with a moderate effect on SASP. These data demonstrate that miR34a-5p reinforces two separate senescence regulating branches in progerin-expressing endothelial cells, the p53- and p16-associated pathways, which synergistically maintain a senescence phenotype that contributes to cardiovascular pathology. Thus, the key function of circulatory miR34a-5p in endothelial dysfunction-linked cardiovascular pathology offers novel routes for diagnosis, prognosis and treatment for cardiovascular aging in HGPS and potentially geriatric patients. This research was supported by by the Austrian Science Fund grant [P 32595 /Grant DOI: 10.55776/P32595] to Selma Osmanagic-Myers, and (I 4694-B) to Roland Foisner, the latter under the frame of EJP RD, the European Joint Programme on Rare Diseases. In addition, this project has received funding from the European Union’s Horizon 2020 research and innovation programme under the EJP RD COFUND-EJP N 825575. https://www.doi.org/10.55776/P32595

Project description:Comprehensive RNA-seq experiments to measure the expression of homoeologs across different tissues, as a part of the Xenopus laevis genome project. This work is funded by Agency Japanese Ministry of Education, Culture, Sports, Science and Technology (MEXT; "Genome Science" Grant ID 221S0002).

Project description:Comprehensive RNA-seq experiments to measure the expression of homoeologs across different developmental stages, as a part of the Xenopus laevis genome project. This work is funded by Agency Japanese Ministry of Education, Culture, Sports, Science and Technology (MEXT; "Genome Science" Grant ID 221S0002).

Project description:How gene positioning to the nuclear periphery regulates transcription remains largely unclear. We have previously observed the differential compartmentalization of transcription factors and histone modifications at the nuclear periphery in mouse C2C12 myoblasts. Here, we have integrated high throughput DNA sequencing into the DNA adenine methyltransferase identification (DamID) assay, and have identified ~15, 000 sequencing-based Lamina-Associated Domains (sLADs) in mouse 3T3 fibroblasts and C2C12 myoblasts. These genomic regions range from a few kb to over 1 Mb and cover ~30% of the genome, and are spatially proximal to the nuclear lamina (NL). Active histone modifications such as H3K4me2, H3K9Ac, H3K36me3 and H3K79me2 are all localized away from the nuclear periphery microscopically, and distributed predominantly out of sLADs genome-wide. Therefore, the spatial compartmentalization of active histone modifications likely characterizes a major portion of chromatin at the nuclear periphery in mammalian cells. Genomic regions around transcription start sites of expressed sLAD genes display reduced associations with the NL and possess active histone modifications; in contrast, gene bodies of expressed sLAD genes possess very low levels of active histone modifications. Our genome-wide analyses of NL-associated chromatin have enabled functional and mechanistic dissections of gene positioning on transcription regulation. generate DamID maps of genome-NL interaction for mouse 3T3 fibroblasts and C2C12 myoblasts

Project description:This SuperSeries is composed of the following subset Series: GSE10697: Self-Self Hybridisation were used to set confidence 99% intervals GSE10698: The effects of artificial tethering of chromosomes to the nuclear periphery using LacI/lap2b anchorage constructs 1 GSE10699: The effects of artificial tethering of chromosomes to the nuclear periphery using LacI/lap2b anchorage constructs 2 Background: The spatial organisation of the genome in the nucleus has a role in the regulation of gene expression. In mammals, chromosomal regions with low gene-density are located close to the nuclear periphery. Correlations have also been made between the transcriptional state of some genes and their location near the nuclear periphery. However, a crucial issue is whether this level of nuclear organisation directly affects gene function, rather than merely reflecting it. Methodology: To directly investigate whether proximity to the nuclear periphery can influence gene expression in mammalian cells. here we relocate specific human chromosomes to the nuclear periphery by tethering them to a protein of the inner nuclear membrane. Principal findings: We show that this can reversibly suppress the expression of some endogenous human genes located near the tethering sites, and even genes further away. However, the expression of many other genes is not detectably reduced and we show that location at the nuclear periphery is not incompatible with active transcription. The dampening of gene expression around the nuclear periphery is dependent on the activity of histone deacetylases. Significance: Our data show that the radial position within the nucleus can influence the expression of some, but not all, genes. This is compatible with the suggestion that re-localisation of genes to the peripheral zone of the nucleus could be used by metazoans to modulate the expression of selected genes during development and differentiation. Keywords: SuperSeries Refer to individual Series

Project description:How gene positioning to the nuclear periphery regulates transcription remains largely unclear. We have previously observed the differential compartmentalization of transcription factors and histone modifications at the nuclear periphery in mouse C2C12 myoblasts. Here, we have integrated high throughput DNA sequencing into the DNA adenine methyltransferase identification (DamID) assay, and have identified ~15, 000 sequencing-based Lamina-Associated Domains (sLADs) in mouse 3T3 fibroblasts and C2C12 myoblasts. These genomic regions range from a few kb to over 1 Mb and cover ~30% of the genome, and are spatially proximal to the nuclear lamina (NL). Active histone modifications such as H3K4me2, H3K9Ac, H3K36me3 and H3K79me2 are all localized away from the nuclear periphery microscopically, and distributed predominantly out of sLADs genome-wide. Therefore, the spatial compartmentalization of active histone modifications likely characterizes a major portion of chromatin at the nuclear periphery in mammalian cells. Genomic regions around transcription start sites of expressed sLAD genes display reduced associations with the NL and possess active histone modifications; in contrast, gene bodies of expressed sLAD genes possess very low levels of active histone modifications. Our genome-wide analyses of NL-associated chromatin have enabled functional and mechanistic dissections of gene positioning on transcription regulation.