Your search keyword '"Indenbirken D"' showing total 3 results

1. RNF40 regulates gene expression in an epigenetic context-dependent manner

Author

Xie W, Nagarajan S, Sj, Baumgart, Robyn Laura Kosinsky, Najafova Z, Kari V, Hennion M, Indenbirken D, Bonn S, Grundhoff A, Wegwitz F, Mansouri A, and Sa, Johnsen

Subjects

Transcriptional Activation, FOXL2, Broad H3K4me3, metabolism [Histones], Transcription Elongation, Genetic, Transcription, Genetic, RNF20 protein, mouse, Ubiquitin-Protein Ligases, RNF40, Epigenesis, Genetic, Histones, Mice, metabolism [Ubiquitin-Protein Ligases], ddc:570, genetics [Enhancer of Zeste Homolog 2 Protein], Animals, Enhancer of Zeste Homolog 2 Protein, Ezh2, Mice, Knockout, H2Bub1, Research, Genes, Homeobox, Ubiquitination, genetics [Organ Specificity], Fibroblasts, Cyclin-Dependent Kinase 9, Enhancer Elements, Genetic, Gene Expression Regulation, Ezh2 protein, mouse, Organ Specificity, Epigenetics, metabolism [Cyclin-Dependent Kinase 9], metabolism [Fibroblasts], Enhancer, Protein Binding

Abstract

Background Monoubiquitination of H2B (H2Bub1) is a largely enigmatic histone modification that has been linked to transcriptional elongation. Because of this association, it has been commonly assumed that H2Bub1 is an exclusively positively acting histone modification and that increased H2Bub1 occupancy correlates with increased gene expression. In contrast, depletion of the H2B ubiquitin ligases RNF20 or RNF40 alters the expression of only a subset of genes. Results Using conditional Rnf40 knockout mouse embryo fibroblasts, we show that genes occupied by low to moderate amounts of H2Bub1 are selectively regulated in response to Rnf40 deletion, whereas genes marked by high levels of H2Bub1 are mostly unaffected by Rnf40 loss. Furthermore, we find that decreased expression of RNF40-dependent genes is highly associated with widespread narrowing of H3K4me3 peaks. H2Bub1 promotes the broadening of H3K4me3 to increase transcriptional elongation, which together lead to increased tissue-specific gene transcription. Notably, genes upregulated following Rnf40 deletion, including Foxl2, are enriched for H3K27me3, which is decreased following Rnf40 deletion due to decreased expression of the Ezh2 gene. As a consequence, increased expression of some RNF40-“suppressed” genes is associated with enhancer activation via FOXL2. Conclusion Together these findings reveal the complexity and context-dependency whereby one histone modification can have divergent effects on gene transcription. Furthermore, we show that these effects are dependent upon the activity of other epigenetic regulatory proteins and histone modifications. Electronic supplementary material The online version of this article (doi:10.1186/s13059-017-1159-5) contains supplementary material, which is available to authorized users.

Published

2017

2. Target capture sequencing reveals a monoclonal outbreak of respiratory syncytial virus B infections among adult hematologic patients.

Author

Baier C, Huang J, Reumann K, Indenbirken D, Thol F, Koenecke C, Ebadi E, Heim A, Bange FC, Haid S, Pietschmann T, and Fischer N

Subjects

Adult, Disease Outbreaks, Humans, Pandemics, COVID-19, Cross Infection prevention & control, Respiratory Syncytial Virus Infections epidemiology, Respiratory Syncytial Virus, Human genetics

Abstract

Background: Respiratory syncytial virus (RSV) causes community-acquired respiratory tract infections during winter. However, outbreaks in hospitals also occur repeatedly. In particular, patients with hematologic malignancies are at an increased risk for a severe and potentially fatal course of RSV infection. Here we present the investigation of an RSV outbreak in a hematology ward for adults following the ORION statement., Methods: An epidemiologic and molecular outbreak analysis was performed. We developed and employed a minimal oligonucleotide probe set in target capture probe sequencing that allows cost-effective RSV-A or -B capturing to reconstruct RSV genomes from clinical samples., Results: Four adult patients were involved in the outbreak caused by RSV-B in March 2019. The enforcement of the pre-existing infection control measures by effective training of hospital staff contributed to a successful containment. PCR-based RSV screening on the ward enabled early detection of new cases and rapid isolation measures. The molecular analysis demonstrated that the outbreak sequences were highly related and distinct to other RSV-B strains circulating at the same time., Conclusions: A multimodal infection control concept is essential for the timely detection and control of RSV outbreaks in patients with hematological disease. Among other measures, preventive screening for respiratory viruses is recommended. Furthermore, the integration of conventional and molecular epidemiology, such as whole-genome sequencing and variant calling, significantly contributes to the understanding of transmission pathways. Based on this, appropriate conclusions can be drawn for targeted prevention measures that have prepared us for the COVID-19 pandemic beyond the RSV approach described here., (© 2022. The Author(s).)

Published

2022

3. The transcriptional coactivator and histone acetyltransferase CBP regulates neural precursor cell development and migration.

Author

Schoof M, Launspach M, Holdhof D, Nguyen L, Engel V, Filser S, Peters F, Immenschuh J, Hellwig M, Niesen J, Mall V, Ertl-Wagner B, Hagel C, Spohn M, Lutz B, Sedlacik J, Indenbirken D, Merk DJ, and Schüller U

Subjects

Animals, CREB-Binding Protein genetics, Child, Preschool, Female, Humans, Infant, Male, Mice, Mice, Knockout, Mice, Transgenic, Retrospective Studies, Rubinstein-Taybi Syndrome diagnostic imaging, Rubinstein-Taybi Syndrome genetics, CREB-Binding Protein deficiency, Cell Movement physiology, Neural Stem Cells metabolism, Rubinstein-Taybi Syndrome metabolism, Transcriptional Activation physiology

Abstract

CREB (cyclic AMP response element binding protein) binding protein (CBP, CREBBP) is a ubiquitously expressed transcription coactivator with intrinsic histone acetyltransferase (KAT) activity. Germline mutations within the CBP gene are known to cause Rubinstein-Taybi syndrome (RSTS), a developmental disorder characterized by intellectual disability, specific facial features and physical anomalies. Here, we investigate mechanisms of CBP function during brain development in order to elucidate morphological and functional mechanisms underlying the development of RSTS. Due to the embryonic lethality of conventional CBP knockout mice, we employed a tissue specific knockout mouse model (hGFAP-cre::CBP Fl/Fl , mutant mouse) to achieve a homozygous deletion of CBP in neural precursor cells of the central nervous system.Our findings suggest that CBP plays a central role in brain size regulation, correct neural cell differentiation and neural precursor cell migration. We provide evidence that CBP is both important for stem cell viability within the ventricular germinal zone during embryonic development and for unhindered establishment of adult neurogenesis. Prominent histological findings in adult animals include a significantly smaller hippocampus with fewer neural stem cells. In the subventricular zone, we observe large cell aggregations at the beginning of the rostral migratory stream due to a migration deficit caused by impaired attraction from the CBP-deficient olfactory bulb. The cerebral cortex of mutant mice is characterized by a shorter dendrite length, a diminished spine number, and a relatively decreased number of mature spines as well as a reduced number of synapses.In conclusion, we provide evidence that CBP is important for neurogenesis, shaping neuronal morphology, neural connectivity and that it is involved in neuronal cell migration. These findings may help to understand the molecular basis of intellectual disability in RSTS patients and may be employed to establish treatment options to improve patients' quality of life.

Published

2019