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1. Fate mapping of hematopoietic stem cells reveals two pathways of native thrombopoiesis

Author

Mina N. F. Morcos, Congxin Li, Clara M. Munz, Alessandro Greco, Nicole Dressel, Susanne Reinhardt, Katrin Sameith, Andreas Dahl, Nils B. Becker, Axel Roers, Thomas Höfer, and Alexander Gerbaulet

Subjects
Science
Abstract

Hematopoietic stem cells produce diverse cell lineages. Here, the authors apply single-cell RNA-seq, computational integration of non-perturbative approaches for fate-mapping, and mitotic tracking to chart lineage decisions in native hematopoiesis and identify megakaryocyte progenitors that directly link HSCs to megakaryocytes.

Published
2022
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2. Corrigendum: The aryl hydrocarbon receptor regulates lipid mediator production in alveolar macrophages

Author

Ann-Marie Maier, Karsten Huth, Francesca Alessandrini, Fiona Henkel, Benjamin Schnautz, Anela Arifovic, Fabien Riols, Mark Haid, Anja Koegler, Katrin Sameith, Carsten B. Schmidt-Weber, Julia Esser-von-Bieren, and Caspar Ohnmacht

Subjects
macrophage, aryl hydrocarbon receptor, eicosanoids, leukotriene, prostaglandin, Immunologic diseases. Allergy, RC581-607
Published
2023
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3. The aryl hydrocarbon receptor regulates lipid mediator production in alveolar macrophages

Author

Ann-Marie Maier, Karsten Huth, Francesca Alessandrini, Fiona Henkel, Benjamin Schnautz, Anela Arifovic, Fabien Riols, Mark Haid, Anja Koegler, Katrin Sameith, Carsten B. Schmidt-Weber, Julia Esser-von-Bieren, and Caspar Ohnmacht

Subjects
macrophage, aryl hydrocarbon receptor, eicosanoids, leukotriene, prostaglandin, Immunologic diseases. Allergy, RC581-607
Abstract

Allergic inflammation of the airways such as allergic asthma is a major health problem with growing incidence world-wide. One cardinal feature in severe type 2-dominated airway inflammation is the release of lipid mediators of the eicosanoid family that can either promote or dampen allergic inflammation. Macrophages are key producers of prostaglandins and leukotrienes which play diverse roles in allergic airway inflammation and thus require tight control. Using RNA- and ATAC-sequencing, liquid chromatography coupled to mass spectrometry (LC-MS/MS), enzyme immunoassays (EIA), gene expression analysis and in vivo models, we show that the aryl hydrocarbon receptor (AhR) contributes to this control via transcriptional regulation of lipid mediator synthesis enzymes in bone marrow-derived as well as in primary alveolar macrophages. In the absence or inhibition of AhR activity, multiple genes of both the prostaglandin and the leukotriene pathway were downregulated, resulting in lower synthesis of prostanoids, such as prostaglandin E2 (PGE2), and cysteinyl leukotrienes, e.g., Leukotriene C4 (LTC4). These AhR-dependent genes include PTGS1 encoding for the enzyme cyclooxygenase 1 (COX1) and ALOX5 encoding for the arachidonate 5-lipoxygenase (5-LO) both of which major upstream regulators of the prostanoid and leukotriene pathway, respectively. This regulation is independent of the activation stimulus and partially also detectable in unstimulated macrophages suggesting an important role of basal AhR activity for eicosanoid production in steady state macrophages. Lastly, we demonstrate that AhR deficiency in hematopoietic but not epithelial cells aggravates house dust mite induced allergic airway inflammation. These results suggest an essential role for AhR-dependent eicosanoid regulation in macrophages during homeostasis and inflammation.

Published
2023
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4. Phenotype loss is associated with widespread divergence of the gene regulatory landscape in evolution

Author

Juliana G. Roscito, Katrin Sameith, Genis Parra, Bjoern E. Langer, Andreas Petzold, Claudia Moebius, Marc Bickle, Miguel Trefaut Rodrigues, and Michael Hiller

Subjects
Science
Abstract

Cis-regulatory elements are important factors for morphological changes. Here, the authors show widespread divergence of limb and eye regulatory elements in limb loss in snakes and eye degeneration in subterranean mammals respectively.

Published
2018
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6. Activation of beta-adrenergic receptor signaling prevents glucocorticoid-induced obesity and adipose tissue dysfunction in male mice

Author

Manuel Gado, Annett Heinrich, Denise Wiedersich, Katrin Sameith, Andreas Dahl, Vasileia I. Alexaki, Michael M. Swarbrick, Ulrike Baschant, Ingo Grafe, Nikolaos Perakakis, Stefan R. Bornstein, Martina Rauner, Lorenz C. Hofbauer, and Holger Henneicke

Subjects
Physiology, Physiology (medical), Endocrinology, Diabetes and Metabolism
Abstract

Elevated serum concentrations of glucocorticoids (GCs) result in excessive lipid accumulation in white adipose tissue (WAT) as well as dysfunction of thermogenic brown adipose tissue (BAT) - ultimately leading to the development of obesity and metabolic disease. Here, we hypothesized that activation of the sympathetic nervous system either via cold exposure or use of a selective β3-adrenergic receptor (β3-AR) agonist alleviates the adverse metabolic effects of chronic GC exposure in rodents. To this end, male 10-week-old C57BL/6NRj mice were treated with corticosterone via drinking water or placebo for 4 weeks while being maintained at 29°C (thermoneutrality), 22°C (room temperature) or 13°C (cold temperature); in a follow-up study mice received a selective β3-AR agonist or placebo with and without corticosterone while maintained at room temperature. Body weight and food intake were monitored throughout the study. Histological and molecular analyses were performed on white and brown adipose depots. Cold exposure not only preserved the thermogenic function of brown adipose tissue, but also reversed GC-induced lipid accumulation in white adipose tissue and corrected GC-driven obesity, hyperinsulinemia and hyperglycemia. The metabolic benefits of cold exposure were associated with enhanced sympathetic activity in adipose tissue, thus potentially linking an increase in sympathetic signaling to the observed metabolic benefits. In line with this concept, chronic administration of a selective β3-AR agonist reproduced the beneficial metabolic effects of cold adaption during exposure to exogenous GCs. This preclinical study demonstrates the potential of β3-AR as a therapeutic target in the management and prevention of GC-induced metabolic disease.

Published
2023
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7. The aryl hydrocarbon receptor regulates lipid mediator production in alveolar macrophages

Author

Ann-Marie Maier, Karsten Huth, Francesca Alessandrini, Benjamin Schnautz, Anela Arifovic, Fabien Riols, Mark Haid, Anja Koegler, Katrin Sameith, Carsten B. Schmidt-Weber, Julia Esser-von-Bieren, and Caspar Ohnmacht

Subjects
Immunology, Immunology and Allergy, macrophage, aryl hydrocarbon receptor, eicosanoids, leukotriene, prostaglandin, ddc
Abstract

Allergic inflammation of the airways such as allergic asthma is a major health problem with growing incidence world-wide. One cardinal feature in severe type 2-dominated airway inflammation is the release of lipid mediators of the eicosanoid family that can either promote or dampen allergic inflammation. Macrophages are key producers of prostaglandins and leukotrienes which play diverse roles in allergic airway inflammation and thus require tight control. Using RNA- and ATAC-sequencing, liquid chromatography coupled to mass spectrometry (LC-MS/MS), enzyme immunoassays (EIA), gene expression analysis and in vivo models, we show that the aryl hydrocarbon receptor (AhR) contributes to this control via transcriptional regulation of lipid mediator synthesis enzymes in bone marrow-derived as well as in primary alveolar macrophages. In the absence or inhibition of AhR activity, multiple genes of both the prostaglandin and the leukotriene pathway were downregulated, resulting in lower synthesis of prostanoids, such as prostaglandin E2 (PGE2), and cysteinyl leukotrienes, e.g., Leukotriene C4 (LTC4). These AhR-dependent genes include PTGS1 encoding for the enzyme cyclooxygenase 1 (COX1) and ALOX5 encoding for the arachidonate 5-lipoxygenase (5-LO) both of which major upstream regulators of the prostanoid and leukotriene pathway, respectively. This regulation is independent of the activation stimulus and partially also detectable in unstimulated macrophages suggesting an important role of basal AhR activity for eicosanoid production in steady state macrophages. Lastly, we demonstrate that AhR deficiency in hematopoietic but not epithelial cells aggravates house dust mite induced allergic airway inflammation. These results suggest an essential role for AhR-dependent eicosanoid regulation in macrophages during homeostasis and inflammation.

Published
2022

9. Cohesin SMC1β promotes closed chromatin and controls TERRA expression at spermatocyte telomeres

Author

Uddipta Biswas, Tanaya Deb Mallik, Johannes Pschirer, Matthias Lesche, Katrin Sameith, and Rolf Jessberger

Subjects
Ecology, Health, Toxicology and Mutagenesis, Plant Science, Biochemistry, Genetics and Molecular Biology (miscellaneous)
Abstract

Previous data showed that meiotic cohesin SMC1β protects spermatocyte telomeres from damage. The underlying reason, however, remained unknown as the expressions of telomerase and shelterin components were normal inSmc1β−/−spermatocytes. Here. we report that SMC1β restricts expression of the long noncoding RNA TERRA (telomeric repeat containing RNA) in spermatocytes. In somatic cell lines increased TERRA was reported to cause telomere damage through altering telomere chromatin structure. InSmc1β−/−spermatocytes, we observed strongly increased levels of TERRA which accumulate on damaged chromosomal ends, where enhanced R-loop formation was found. This suggested a more open chromatin configuration near telomeres inSmc1β−/−spermatocytes, which was confirmed by ATAC-seq. Telomere-distal regions were not affected by the absence of SMC1β but RNA-seq revealed increased transcriptional activity in telomere-proximal regions. Thus, SMC1β promotes closed chromatin specifically near telomeres and limits TERRA expression in spermatocytes.

Published
2023
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12. Convergent and lineage-specific genomic differences in limb regulatory elements in limbless reptile lineages

Author

Juliana Gusson Roscito, Katrin Sameith, Bogdan Mikhailovich Kirilenko, Nikolai Hecker, Sylke Winkler, Andreas Dahl, Miguel Trefaut Rodrigues, and Michael Hiller

Subjects
Science & Technology, GENE-REGULATION, DNA ELEMENTS, Reptiles, Extremities, Cell Biology, Genomics, Regulatory Sequences, Nucleic Acid, Biological Evolution, General Biochemistry, Genetics and Molecular Biology, EVOLUTION, ENHANCER, BODY-FORM, SONIC-HEDGEHOG, MOLECULAR-BASIS, Animals, PHYLOGENETIC ANALYSIS, VERTEBRATE, Transcriptome, Life Sciences & Biomedicine, DEVELOPMENTAL BASIS, Phylogeny
Abstract

Loss of limbs evolved many times in squamate reptiles. Here we investigated the genomic basis of convergent limb loss in reptiles. We sequenced the genomes of a closely related pair of limbless-limbed gymnophthalmid lizards and performed a comparative genomic analysis including five snakes and the limbless glass lizard. Our analysis of these three independent limbless lineages revealed that signatures of shared sequence or transcription factor binding site divergence in individual limb regulatory elements are generally rare. Instead, shared divergence occurs more often at the level of signaling pathways, involving different regulatory elements associated with the same limb genes (such as Hand2 or Hox) and/or patterning mechanisms (such as Shh signaling). Interestingly, although snakes are known to have mutations in the Shh ZRS limb enhancer, this enhancer lacks relevant mutations in limbless lizards. Thus, different mechanisms could contribute to limb loss, and there are likely multiple evolutionary paths to limblessness in reptiles. ispartof: CELL REPORTS vol:38 issue:3 ispartof: location:United States status: published

Published
2021

13. Phenotype loss is associated with widespread divergence of the gene regulatory landscape in evolution

Author

Michael Hiller, Juliana G. Roscito, Genís Parra, Claudia Moebius, Miguel Trefaut Rodrigues, Katrin Sameith, Andreas Petzold, Bjoern E. Langer, and Marc Bickle

Subjects
0301 basic medicine, genetic structures, Science, Gene regulatory network, General Physics and Astronomy, Genomics, Biology, Eye, Genome, Article, General Biochemistry, Genetics and Molecular Biology, DNA sequencing, 03 medical and health sciences, 0302 clinical medicine, Animals, Gene Regulatory Networks, lcsh:Science, Gene, Conserved Sequence, Mammals, Regulation of gene expression, Binding Sites, Multidisciplinary, Genetic Variation, Extremities, Lizards, Molecular Sequence Annotation, Snakes, Sequence Analysis, DNA, General Chemistry, Biological Evolution, Phenotype, eye diseases, Living matter, body regions, 030104 developmental biology, Gene Expression Regulation, Evolutionary biology, DNA, Intergenic, lcsh:Q, sense organs, Functional genomics, 030217 neurology & neurosurgery, Transcription Factors
Abstract

Detecting the genomic changes underlying phenotypic changes between species is a main goal of evolutionary biology and genomics. Evolutionary theory predicts that changes in cis-regulatory elements are important for morphological changes. We combined genome sequencing, functional genomics and genome-wide comparative analyses to investigate regulatory elements in lineages that lost morphological traits. We first show that limb loss in snakes is associated with widespread divergence of limb regulatory elements. We next show that eye degeneration in subterranean mammals is associated with widespread divergence of eye regulatory elements. In both cases, sequence divergence results in an extensive loss of transcription factor binding sites. Importantly, diverged regulatory elements are associated with genes required for normal limb patterning or normal eye development and function, suggesting that regulatory divergence contributed to the loss of these phenotypes. Together, our results show that genome-wide decay of the phenotype-specific cis-regulatory landscape is a hallmark of lost morphological traits., Cis-regulatory elements are important factors for morphological changes. Here, the authors show widespread divergence of limb and eye regulatory elements in limb loss in snakes and eye degeneration in subterranean mammals respectively.

Published
2018
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15. Phenotype loss is associated with widespread divergence of the gene regulatory landscape in evolution

Author

Michael Hiller, Bjoern E. Langer, Andreas Petzold, Genís Parra, Katrin Sameith, Miguel Trefaut Rodrigues, and Juliana G. Roscito

Subjects
DNA binding site, Evolutionary biology, Eye development, Genomics, SEQUENCIAMENTO GENÉTICO, sense organs, Biology, Functional genomics, Phenotype, Gene, DNA sequencing, Function (biology)
Abstract

Detecting the genomic changes underlying phenotypic changes between species is a main goal of evolutionary biology and genomics. Evolutionary theory predicts that changes incis-regulatory elements are important for morphological changes. Here, we combine genome sequencing and functional genomics with genome-wide comparative analyses to investigate the fate of regulatory elements in lineages that lost morphological traits. We first show that limb loss in snakes is associated with widespread divergence of limb regulatory elements. We next show that eye degeneration in subterranean mammals is associated with widespread divergence of eye regulatory elements. In both cases, sequence divergence results in an extensive loss of relevant transcription factor binding sites. Importantly, diverged regulatory elements are associated with key genes required for normal limb patterning or normal eye development and function, suggesting that regulatory divergence contributed to the loss of these phenotypes. Together, our results provide the first evidence that genome-wide decay of the phenotype-specificcis-regulatory landscape is a hallmark of lost morphological traits.

Published
2017
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16. A central role for TFIID in the pluripotent transcription circuitry

Author

Hans R. Schöler, Daniel Esch, Erik van der Wal, Phillip Lijnzaad, H. T. Marc Timmers, Hermann vom Bruch, Katrin Sameith, Dong Wook Han, Guangming Wu, Sören Moritz, Nikolai Mischerikow, Atze J. Bergsma, Frank C. P. Holstege, A. F. Maarten Altelaar, Holm Zaehres, Albert J. R. Heck, W.W.M. Pim Pijnappel, Marijke P. Baltissen, Biomolecular Mass Spectrometry and Proteomics, Sub Biomol.Mass Spect. and Proteomics, Pediatrics, and Clinical Genetics

Subjects
Male, Pluripotent Stem Cells, Homeobox protein NANOG, Transcription, Genetic, Induced Pluripotent Stem Cells, Biology, Kruppel-Like Factor 4, Mice, SOX2, Animals, Humans, Tissue engineering and pathology Renal disorder [NCMLS 3], Promoter Regions, Genetic, Induced pluripotent stem cell, Transcription factor, Embryonic Stem Cells, Genetics, TATA-Binding Protein Associated Factors, Multidisciplinary, General transcription factor, fungi, Promoter, Fibroblasts, Cellular Reprogramming, TATA-Box Binding Protein, Chromatin, Cell biology, Female, Transcription Factor TFIID, RNA Polymerase II, Transcription factor II D, Reprogramming, Transcription Factors
Abstract

Item does not contain fulltext Embryonic stem (ES) cells are pluripotent and characterized by open chromatin and high transcription levels, achieved through auto-regulatory and feed-forward transcription factor loops. ES-cell identity is maintained by a core of factors including Oct4 (also known as Pou5f1), Sox2, Klf4, c-Myc (OSKM) and Nanog, and forced expression of the OSKM factors can reprogram somatic cells into induced pluripotent stem cells (iPSCs) resembling ES cells. These gene-specific factors for RNA-polymerase-II-mediated transcription recruit transcriptional cofactors and chromatin regulators that control access to and activity of the basal transcription machinery on gene promoters. How the basal transcription machinery is involved in setting and maintaining the pluripotent state is unclear. Here we show that knockdown of the transcription factor IID (TFIID) complex affects the pluripotent circuitry in mouse ES cells and inhibits reprogramming of fibroblasts. TFIID subunits and the OSKM factors form a feed-forward loop to induce and maintain a stable transcription state. Notably, transient expression of TFIID subunits greatly enhanced reprogramming. These results show that TFIID is critical for transcription-factor-mediated reprogramming. We anticipate that, by creating plasticity in gene expression programs, transcription complexes such as TFIID assist reprogramming into different cellular states.

Published
2013

17. The Specificity and Topology of Chromatin Interaction Pathways in Yeast

Author

Stephen Buratowski, Dik van Leenen, TaeSoo Kim, Michael S. Kobor, Nathalie Brabers, Sebastiaan van Heesch, Frank C. P. Holstege, Joris J. Benschop, Thomas Hentrich, Cheuk W. Ko, Patrick Kemmeren, Sander R. van Hooff, Katrin Sameith, Julia M. Schulze, Philip Lijnzaad, Mariel O. Brok, Thanasis Margaritis, Marian J. A. Groot Koerkamp, Loes A.L. van de Pasch, and Tineke L. Lenstra

Subjects
Histone-modifying enzymes, Mediator Complex, Saccharomyces cerevisiae Proteins, Transcription, Genetic, Nuclear Proteins, Saccharomyces cerevisiae, Cell Biology, Telomere, ChIP-on-chip, Biology, Topology, Chromatin, Histone Deacetylases, Article, Chromatin remodeling, ChIP-sequencing, Histones, Gene Expression Regulation, Fungal, Histone code, Gene Silencing, Molecular Biology, Metabolic Networks and Pathways, ChIA-PET, Bivalent chromatin
Abstract

Packaging of DNA into chromatin has a profound impact on gene expression. To understand how changes in chromatin influence transcription, we analyzed 165 mutants of chromatin machinery components in Saccharomyces cerevisiae. mRNA expression patterns change in 80% of mutants, always with specific effects, even for loss of widespread histone marks. The data are assembled into a network of chromatin interaction pathways. The network is function based, has a branched, interconnected topology, and lacks strict one-to-one relationships between complexes. Chromatin pathways are not separate entities for different gene sets, but share many components. The study evaluates which interactions are important for which genes and predicts additional interactions, for example between Paf1C and Set3C, as well as a role for Mediator in subtelomeric silencing. The results indicate the presence of gene-dependent effects that go beyond context-dependent binding of chromatin factors and provide a framework for understanding how specificity is achieved through regulating chromatin.

Published
2011
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18. Functional modules integrating essential cellular functions are predictive of the response of leukaemia cells to DNA damage

Author

Francesco Falciani, Nil Turan, Elliot Marston, Katrin Sameith, Philipp Antczak, Tanja Stankovic, and Dieter Maier

Subjects
Statistics and Probability, Supplementary data, DNA damage, Cellular functions, Computational biology, Protein degradation, Biology, Bioinformatics, Burkitt Lymphoma, Models, Biological, Biochemistry, Computer Science Applications, Computational Mathematics, chemistry.chemical_compound, Computational Theory and Mathematics, chemistry, Humans, Lymphoblastic leukaemia, Molecular Biology, DNA, DNA Damage
Abstract

Motivation: Childhood B-precursor lymphoblastic leukaemia (ALL) is the most common paediatric malignancy. Despite the fact that 80% of ALL patients respond to anti-cancer drugs, the patho-physiology of this disease is still not fully understood. mRNA expression-profiling studies that have been performed have not yet provided novel insights into the mechanisms behind cellular response to DNA damage. More powerful data analysis techniques may be required for identifying novel functional pathways involved in the cellular responses to DNA damage. Results: In order to explore the possibility that unforeseen biological processes may be involved in the response to DNA damage, we have developed and applied a novel procedure for the identification of functional modules in ALL cells. We have discovered that the overall activity of functional modules integrating protein degradation and mRNA processing is predictive of response to DNA damage. Availability: Supplementary material including R code, additional results, experimental datasets, as well as a detailed description of the methodology are available at http://www.bip.bham.ac.uk/vivo/fumo.html. Contact: f.falciani@bham.ac.uk Supplementary information: Supplementary data are available at Bioinformatics online.

Published
2008
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19. Models and computational strategies linking physiological response to molecular networks from large-scale data

Author

Francesco Falciani, Victor Trevino, Nil Turan, Marina Vannucci, Fernando Ortega, Russell M. Compton, and Katrin Sameith

Subjects
Databases, Factual, Physiology, General Mathematics, Systems biology, Complexity theory and organizations, General Physics and Astronomy, Context (language use), computer.software_genre, Machine learning, Models, Biological, Task (project management), Neoplasms, Humans, Computer Simulation, business.industry, Systems Biology, General Engineering, System identification, Computational Biology, Experimental data, Statistical model, Phenotype, Identification (biology), Data mining, Artificial intelligence, business, computer, Metabolic Networks and Pathways
Abstract

An important area of research in systems biology involves the analysis and integration of genome-wide functional datasets. In this context, a major goal is the identification of a putative molecular network controlling physiological response from experimental data. With very fragmentary mechanistic information, this is a challenging task. A number of methods have been developed, each one with the potential to address an aspect of the problem. Here, we review some of the most widely used methodologies and report new results in support of the usefulness of modularization and other modelling techniques in identifying components of the molecular networks that are predictive of physiological response. We also discuss how system identification in biology could be approached, using a combination of methodologies that aim to reconstruct the relationship between molecular pathways and physiology at different levels of the organizational complexity of the molecular network.

Published
2008
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20. Yeast glucose pathways converge on the transcriptional regulation of trehalose biosynthesis

Author

Linda V. Bakker, Nathalie Brabers, Thanasis Margaritis, Patrick Kemmeren, Katrin Sameith, Loes A.L. van de Pasch, Eva Apweiler, Dik van Leenen, and Frank C. P. Holstege

Subjects
Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, lcsh:QH426-470, Transcription, Genetic, lcsh:Biotechnology, ved/biology.organism_classification_rank.species, Epistasis and functional genomics, 03 medical and health sciences, chemistry.chemical_compound, Glucosyltransferases, lcsh:TP248.13-248.65, Transcriptional regulation, Genetics, Model organism, 030304 developmental biology, Oligonucleotide Array Sequence Analysis, Regulation of gene expression, 0303 health sciences, Trehalose biosynthesis, biology, ved/biology, 030302 biochemistry & molecular biology, Trehalose, Glucose signalling, biology.organism_classification, Regulatory networks, Gene expression profiling, Metabolic pathway, lcsh:Genetics, Glucose, chemistry, Biochemistry, Gene Expression Regulation, Biotechnology, Research Article
Abstract

Background Cellular glucose availability is crucial for the functioning of most biological processes. Our understanding of the glucose regulatory system has been greatly advanced by studying the model organism Saccharomyces cerevisiae, but many aspects of this system remain elusive. To understand the organisation of the glucose regulatory system, we analysed 91 deletion mutants of the different glucose signalling and metabolic pathways in Saccharomyces cerevisiae using DNA microarrays. Results In general, the mutations do not induce pathway-specific transcriptional responses. Instead, one main transcriptional response is discerned, which varies in direction to mimic either a high or a low glucose response. Detailed analysis uncovers established and new relationships within and between individual pathways and their members. In contrast to signalling components, metabolic components of the glucose regulatory system are transcriptionally more frequently affected. A new network approach is applied that exposes the hierarchical organisation of the glucose regulatory system. Conclusions The tight interconnection between the different pathways of the glucose regulatory system is reflected by the main transcriptional response observed. Tps2 and Tsl1, two enzymes involved in the biosynthesis of the storage carbohydrate trehalose, are predicted to be the most downstream transcriptional components. Epistasis analysis of tps2 Δ double mutants supports this prediction. Although based on transcriptional changes only, these results suggest that all changes in perceived glucose levels ultimately lead to a shift in trehalose biosynthesis.

Published
2012

21. Improving Functional Module Detection

Author

Francesco Falciani, K. J. Abraham, and Katrin Sameith

Subjects
Theoretical computer science, Exploit, Computer science, Functional module, Simulated annealing, Monte Carlo method, Genetic data, Probability density function, Mutual information, Cluster analysis, Algorithm
Abstract

There has been a great deal of recent interest in identifying functional modules from protein interaction and gene expression data. One commonly used computational technique is simulated annealing, which while asymptotically correct frequently suffers from slow convergence. In this paper we outline and exploit the analogy between finding functional modules and finding Haplotype Blocks from genetic data, to investigate a new technique for finding functional modules which does not rely on Monte Carlo methodology. We discuss circumstances under which our algorithm may work, but under which simulated annealing may not converge to known modules. We also suggest how our methodology might supplement, and improve the performance, of existing Monte Carlo searches.

Published
2009
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22. Stratification of pediatric ALL by in vitro cellular responses to DNA double-strand breaks provides insight into the molecular mechanisms underlying clinical response

Author

Katrin Sameith, Eliot Marston, Judith E. Powell, Pamela Kearns, Angelo Agathanggelou, Carmel McConville, Katie Mapp, Jennifer Jesson, Francesco Falciani, Esther N. Maina, Malcolm Taylor, Victoria J Weston, Sarah Lawson, Tatjana Stankovic, and Anna Skowronska

Subjects
Neoplasm, Residual, DNA damage, Poly ADP ribose polymerase, Immunology, Poly (ADP-Ribose) Polymerase-1, Caspase 3, Apoptosis, Biology, In Vitro Techniques, Biochemistry, Phosphatidylinositol 3-Kinases, PARP1, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma, Radiation, Ionizing, medicine, Humans, DNA Breaks, Double-Stranded, Phosphorylation, Child, Cells, Cultured, Caspase 7, Gene Expression Regulation, Leukemic, Gene Expression Profiling, Cell Biology, Hematology, medicine.disease, Minimal residual disease, Caspase 9, Gene expression profiling, Leukemia, Cancer research, Signal transduction, Poly(ADP-ribose) Polymerases, Blast Crisis, Proto-Oncogene Proteins c-akt, Signal Transduction
Abstract

The molecular basis of different outcomes in pediatric acute lymphoblastic leukemia (ALL) remains poorly understood. We addressed the clinical significance and mechanisms behind in vitro cellular responses to ionizing radiation (IR)–induced DNA double-strand breaks in 74 pediatric patients with ALL. We found an apoptosis-resistant response in 36% of patients characterized by failure to cleave caspase-3, -7, -9, and PARP1 by 24 hours after IR and an apoptosis-sensitive response with the cleavage of the same substrates in the remaining 64% of leukemias. Resistance to IR in vitro was associated with poor early blast clearance at day 7 or 15 and persistent minimal residual disease (MRD) at day 28 of induction treatment. Global gene expression profiling revealed abnormal up-regulation of multiple prosurvival pathways in response to IR in apoptosis-resistant leukemias and differential posttranscriptional activation of the PI3-Akt pathway was observed in representative resistant cases. Importantly, pharmacologic inhibition of selected prosurvival pathways sensitized apoptosis-resistant ALL cells to IR in vitro. We suggest that abnormal prosurvival responses to DNA damage provide one of the mechanisms of primary resistance in ALL, and that they should be considered as therapeutic targets in children with aggressive disease.

Published
2008

23. Models and computational strategies linking physiological response to molecular networks from large-scale data.

Author

Fernando Ortega, Katrin Sameith, Nil Turan, Russell Compton, Victor Trevino, Marina Vannucci, and Francesco Falciani

Subjects
*METHODOLOGY, *LIFE sciences, *CELL physiology, *BIOLOGICAL illustration
Abstract

An important area of research in systems biology involves the analysis and integration of genome-wide functional datasets. In this context, a major goal is the identification of a putative molecular network controlling physiological response from experimental data. With very fragmentary mechanistic information, this is a challenging task. A number of methods have been developed, each one with the potential to address an aspect of the problem. Here, we review some of the most widely used methodologies and report new results in support of the usefulness of modularization and other modelling techniques in identifying components of the molecular networks that are predictive of physiological response. We also discuss how system identification in biology could be approached, using a combination of methodologies that aim to reconstruct the relationship between molecular pathways and physiology at different levels of the organizational complexity of the molecular network. [ABSTRACT FROM AUTHOR]

Published
2008
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24. Functional Overlap and Regulatory Links Shape Genetic Interactions between Signaling Pathways

Author

Frank C. P. Holstege, Nevan J. Krogan, Ines J de Castro, Cheuk W. Ko, Patrick Kemmeren, Philip Lijnzaad, Thanasis Margaritis, Rodrigo Aldecoa, Tineke L. Lenstra, Joris J. Benschop, Mariel O. Brok, Like Fokkens, Berend Snel, Marian J. A. Groot Koerkamp, Virginia Taliadouros, Eva Apweiler, Loes A.L. van de Pasch, Linda V. Bakker, Nathalie Brabers, Sake van Wageningen, Dorothea Fiedler, Katrin Sameith, Antony J. Miles, Dik van Leenen, and Sander R. van Hooff

Subjects
Mutant, Epistasis and functional genomics, Context (language use), Saccharomyces cerevisiae, Biology, Article, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Redundancy (engineering), Phosphorylation, 030304 developmental biology, Genetics, 0303 health sciences, Biochemistry, Genetics and Molecular Biology(all), Gene Expression Profiling, Phosphotransferases, Epistasis, Genetic, Phosphoric Monoester Hydrolases, Gene expression profiling, SIGNALING, Epistasis, CELLBIO, DNA microarray, 030217 neurology & neurosurgery, Function (biology), Signal Transduction
Abstract

SummaryTo understand relationships between phosphorylation-based signaling pathways, we analyzed 150 deletion mutants of protein kinases and phosphatases in S. cerevisiae using DNA microarrays. Downstream changes in gene expression were treated as a phenotypic readout. Double mutants with synthetic genetic interactions were included to investigate genetic buffering relationships such as redundancy. Three types of genetic buffering relationships are identified: mixed epistasis, complete redundancy, and quantitative redundancy. In mixed epistasis, the most common buffering relationship, different gene sets respond in different epistatic ways. Mixed epistasis arises from pairs of regulators that have only partial overlap in function and that are coupled by additional regulatory links such as repression of one by the other. Such regulatory modules confer the ability to control different combinations of processes depending on condition or context. These properties likely contribute to the evolutionary maintenance of paralogs and indicate a way in which signaling pathways connect for multiprocess control.

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25. Fate mapping of hematopoietic stem cells reveals two pathways of native thrombopoiesis

Author

Mina N. F. Morcos, Congxin Li, Clara M. Munz, Alessandro Greco, Nicole Dressel, Susanne Reinhardt, Katrin Sameith, Andreas Dahl, Nils B. Becker, Axel Roers, Thomas Höfer, and Alexander Gerbaulet

Subjects
Myelopoiesis, Multidisciplinary, General Physics and Astronomy, Cell Differentiation, Cell Lineage, General Chemistry, Hematopoietic Stem Cells, General Biochemistry, Genetics and Molecular Biology, Thrombopoiesis
Abstract

Hematopoietic stem cells (HSCs) produce highly diverse cell lineages. Here, we chart native lineage pathways emanating from HSCs and define their physiological regulation by computationally integrating experimental approaches for fate mapping, mitotic tracking, and single-cell RNA sequencing. We find that lineages begin to split when cells leave the tip HSC population, marked by high Sca-1 and CD201 expression. Downstream, HSCs either retain high Sca-1 expression and the ability to generate lymphocytes, or irreversibly reduce Sca-1 level and enter into erythro-myelopoiesis or thrombopoiesis. Thrombopoiesis is the sum of two pathways that make comparable contributions in steady state, a long route via multipotent progenitors and CD48hi megakaryocyte progenitors (MkPs), and a short route from HSCs to developmentally distinct CD48−/lo MkPs. Enhanced thrombopoietin signaling differentially accelerates the short pathway, enabling a rapid response to increasing demand. In sum, we provide a blueprint for mapping physiological differentiation fluxes from HSCs and decipher two functionally distinct pathways of native thrombopoiesis.

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