Your search keyword '"Wouter Van Gool"' showing total 4 results

1. Loss of zebrafish atp6v1e1b, encoding a subunit of vacuolar ATPase, recapitulates human ARCL type 2C syndrome and identifies multiple pathobiological signatures

Author

Michiel Vanhooydonck, Geert Goeminne, Andreja Rajkovic, Lore Pottie, Wouter Van Gool, Bert Callewaert, Franz-Georg Hanisch, Paul Coucke, Patrick Sips, and Urban, Zsolt

Subjects

Life Cycles, Cancer Research, LYSOSOMAL PH, Gene Expression, PROTEIN, Mitochondrion, QH426-470, Biochemistry, Cutis Laxa, Oxidative Phosphorylation, Transcriptome, PATHWAY, Larvae, 0302 clinical medicine, Cell Signaling, Macromolecular Structure Analysis, Medicine and Health Sciences, Protein Isoforms, Genetics(clinical), Zebrafish, Energy-Producing Organelles, Genetics (clinical), Skin, Notch Signaling, 0303 health sciences, Lipid Analysis, biology, Ecology, Eukaryota, Animal Models, Syndrome, Lipidome, Hypotonia, Mitochondria, 3. Good health, Cell biology, Experimental Organism Systems, Osteichthyes, Larva, Vertebrates, Metabolome, Cellular Structures and Organelles, medicine.symptom, Research Article, Signal Transduction, KEY ROLE, Vacuolar Proton-Translocating ATPases, Evolution, Longevity, Endosomes, Bioenergetics, Research and Analysis Methods, 03 medical and health sciences, Model Organisms, Behavior and Systematics, medicine, Genetics, Animals, Metabolomics, Humans, Abnormalities, Multiple, Vesicles, RENAL TUBULAR-ACIDOSIS, Molecular Biology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, MUTATIONS, Organisms, Biology and Life Sciences, V-ATPASE, Epithelial Cells, Cell Biology, Zebrafish Proteins, medicine.disease, biology.organism_classification, Sphingolipid, GENE, Disease Models, Animal, Fish, Metabolism, Gene Expression Regulation, Lipidomics, Animal Studies, INTERNALIZATION, Lysosomes, Zoology, 030217 neurology & neurosurgery, MENTAL-RETARDATION, Developmental Biology, Cutis laxa

Abstract

The inability to maintain a strictly regulated endo(lyso)somal acidic pH through the proton-pumping action of the vacuolar-ATPases (v-ATPases) has been associated with various human diseases including heritable connective tissue disorders. Autosomal recessive (AR) cutis laxa (CL) type 2C syndrome is associated with genetic defects in the ATP6V1E1 gene and is characterized by skin wrinkles or loose redundant skin folds with pleiotropic systemic manifestations. The underlying pathological mechanisms leading to the clinical presentations remain largely unknown. Here, we show that loss of atp6v1e1b in zebrafish leads to early mortality, associated with craniofacial dysmorphisms, vascular anomalies, cardiac dysfunction, N-glycosylation defects, hypotonia, and epidermal structural defects. These features are reminiscent of the phenotypic manifestations in ARCL type 2C patients. Our data demonstrates that loss of atp6v1e1b alters endo(lyso)somal protein levels, and interferes with non-canonical v-ATPase pathways in vivo. In order to gain further insights into the processes affected by loss of atp6v1e1b, we performed an untargeted analysis of the transcriptome, metabolome, and lipidome in early atp6v1e1b-deficient larvae. We report multiple affected pathways including but not limited to oxidative phosphorylation, sphingolipid, fatty acid, and energy metabolism together with profound defects on mitochondrial respiration. Taken together, our results identify complex pathobiological effects due to loss of atp6v1e1b in vivo., Author summary Cutis laxa syndromes are pleiotropic disorders of the connective tissue, characterized by skin redundancy and variable systemic manifestations. Cutis laxa syndromes are caused by pathogenic variants in genes encoding structural and regulatory components of the extracellular matrix or in genes encoding components of cellular trafficking, metabolism, and mitochondrial function. Pathogenic variants in genes coding for vacuolar-ATPases, a multisubunit complex responsible for the acidification of multiple intracellular vesicles, cause type 2 cutis laxa syndromes, a group of cutis laxa subtypes further characterized by neurological, skeletal, and rarely cardiopulmonary manifestations. To investigate the pathomechanisms of vacuolar-ATPase dysfunction, we generated zebrafish models that lack a crucial subunit of the vacuolar-ATPases. The mutant zebrafish models show morphological and functional features reminiscent of the phenotypic manifestations in cutis laxa patients carrying pathogenic variants in ATP6V1E1. In-depth analysis at multiple -omic levels identified biological signatures that indicate impairment of signaling pathways, lipid metabolism, and mitochondrial respiration. We anticipate that these data will contribute to a better understanding of the pathogenesis of cutis laxa syndromes and other disorders involving defective v-ATPase function, which may eventually improve patient treatment and management.

Published

2021

2. Characterising ChIP-seq binding patterns by model-based peak shape deconvolution

Author

Marco Antonio Mendoza-Parra, Malgorzata Nowicka, Hinrich Gronemeyer, Wouter Van Gool, Equipe labellisée Ligue contre le Cancer, This work was supported by funds from the Ligue National Contre le Cancer (équipe labellisée), the Association pour la Recherche sur le Cancer, the Institut National du Cancer (INCa), the European Community contracts LSHC-CT-2005-518417 ' EPITRON ' and HEALTH-F4-2009-221952 ' ATLAS ' and the AVIESAN/ITMO Cancer. W.v.G. was supported by the FRM (aide aux projets innovants), European Project, BMC, Ed., and uropean Community contracts LSHC-CT-2005-518417 ' EPITRON ' and HEALTH-F4-2009-221952 ' ATLAS ' and - INCOMING

Subjects

Chromatin Immunoprecipitation, Computational biology, Biology, Proteomics, Genome, Sensitivity and Specificity, DNA sequencing, 03 medical and health sciences, 0302 clinical medicine, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], Genetics, 030304 developmental biology, 0303 health sciences, Internet, Massive parallel sequencing, Binding Sites, Computational Biology, High-Throughput Nucleotide Sequencing, Nuclear Proteins, Reproducibility of Results, Quality control, Chromatin, ChIP-seq, 030220 oncology & carcinogenesis, Next-generation sequencing, [SDV.BBM.GTP] Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], Deconvolution, DNA microarray, Chromatin immunoprecipitation, Algorithms, Software, Massive parallel sequenci, Biotechnology, Protein Binding

Abstract

Background Chromatin immunoprecipitation combined with massive parallel sequencing (ChIP-seq) is widely used to study protein-chromatin interactions or chromatin modifications at genome-wide level. Sequence reads that accumulate locally at the genome (peaks) reveal loci of selectively modified chromatin or specific sites of chromatin-binding factors. Computational approaches (peak callers) have been developed to identify the global pattern of these sites, most of which assess the deviation from background by applying distribution statistics. Results We have implemented MeDiChISeq, a regression-based approach, which - by following a learning process - defines a representative binding pattern from the investigated ChIP-seq dataset. Using this model MeDiChISeq identifies significant genome-wide patterns of chromatin-bound factors or chromatin modification. MeDiChISeq has been validated for various publicly available ChIP-seq datasets and extensively compared with other peak callers. Conclusions MeDiChI-Seq has a high resolution when identifying binding events, a high degree of peak-assessment reproducibility in biological replicates, a low level of false calls and a high true discovery rate when evaluated in the context of gold-standard benchmark datasets. Importantly, this approach can be applied not only to ‘sharp’ binding patterns - like those retrieved for transcription factors (TFs) - but also to the broad binding patterns seen for several histone modifications. Notably, we show that at high sequencing depths, MeDiChISeq outperforms other algorithms due to its powerful peak shape recognition capacity which facilitates discerning significant binding events from spurious background enrichment patterns that are enhanced with increased sequencing depths. Electronic supplementary material The online version of this article (doi:10.1186/1471-2164-14-834) contains supplementary material, which is available to authorized users.

Published

2013

3. A quality control system for profiles obtained by ChIP sequencing

Author

Danilo Guillermo Ceschin, Hinrich Gronemeyer, Marco Antonio Mendoza-Parra, Wouter Van Gool, and Mohamed Ashick Mohamed Saleem

Subjects

Cancer genome sequencing, Genetics, Quality Control, 0303 health sciences, Chromatin Immunoprecipitation, Massive parallel sequencing, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA, Biology, ChIP-on-chip, ChIP-sequencing, 03 medical and health sciences, 0302 clinical medicine, Methods Online, Computer Simulation, Methylated DNA immunoprecipitation, RIP-Chip, 030217 neurology & neurosurgery, ChIP-exo, Illumina dye sequencing, 030304 developmental biology

Abstract

The absence of a quality control (QC) system is a major weakness for the comparative analysis of genome-wide profiles generated by next-generation sequencing (NGS). This concerns particularly genome binding/occupancy profiling assays like chromatin immunoprecipitation (ChIP-seq) but also related enrichment-based studies like methylated DNA immunoprecipitation/methylated DNA binding domain sequencing, global run on sequencing or RNA-seq. Importantly, QC assessment may significantly improve multidimensional comparisons that have great promise for extracting information from combinatorial analyses of the global profiles established for chromatin modifications, the bindings of epigenetic and chromatin-modifying enzymes/machineries, RNA polymerases and transcription factors and total, nascent or ribosome-bound RNAs. Here we present an approach that associates global and local QC indicators to ChIP-seq data sets as well as to a variety of enrichment-based studies by NGS. This QC system was used to certify >5600 publicly available data sets, hosted in a database for data mining and comparative QC analyses.

Published

2013

4. Single-tube linear DNA amplification for genome-wide studies using a few thousand cells

Author

Hinrich Gronemeyer, Pattabhiraman Shankaranarayanan, Marco Antonio Mendoza-Parra, Luisa M. Trindade, and Wouter Van Gool

Subjects

Chromatin Immunoprecipitation, Transcription, Genetic, t7 rna-polymerase, Plasmodium falciparum, domain, limited numbers, challenges, Computational biology, principles, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Laboratorium voor Plantenveredeling, samples, chip-seq, Polymerase, 030304 developmental biology, Base Composition, 0303 health sciences, Massive parallel sequencing, biology, Genomics, Sequence Analysis, DNA, ChIP-on-chip, Molecular biology, Chromatin, ChIP-sequencing, Plant Breeding, displacement amplification, Histone, chemistry, biology.protein, chromatin, methylation, EPS, Nucleic Acid Amplification Techniques, Chromatin immunoprecipitation, 030217 neurology & neurosurgery, DNA

Abstract

Linear amplification of DNA (LinDA) by T7 polymerase is a versatile and robust method for generating sufficient amounts of DNA for genome-wide studies with minute amounts of cells. LinDA can be coupled to a great number of global profiling technologies. Indeed, chromatin immunoprecipitation coupled to massive parallel sequencing (ChIP-seq) has been achieved for transcription factors and epigenetic modification of chromatin histones with 1,000 to 5,000 cells. LinDA largely simplifies reChIP-seq experiments to monitor co-binding at chromatin target sites. The single-tube design of LinDA is ideal for handling ultrasmall amounts of DNA (

Published

2012