Your search keyword '"Georges Pierre Schmartz"' showing total 7 results

1. Experimental capture of miRNA targetomes: disease-specific 3′UTR library-based miRNA targetomics for Parkinson’s disease

Author

Martin Hart, Fabian Kern, Claudia Fecher-Trost, Lena Krammes, Ernesto Aparicio, Annika Engel, Pascal Hirsch, Viktoria Wagner, Verena Keller, Georges Pierre Schmartz, Stefanie Rheinheimer, Caroline Diener, Ulrike Fischer, Jens Mayer, Markus R. Meyer, Veit Flockerzi, Andreas Keller, and Eckart Meese

Subjects

Medicine, Biochemistry, QD415-436

Abstract

Abstract The identification of targetomes remains a challenge given the pleiotropic effect of miRNAs, the limited effects of miRNAs on individual targets, and the sheer number of estimated miRNA–target gene interactions (MTIs), which is around 44,571,700. Currently, targetome identification for single miRNAs relies on computational evidence and functional studies covering smaller numbers of targets. To ensure that the targetome analysis could be experimentally verified by functional assays, we employed a systematic approach and explored the targetomes of four miRNAs (miR-129-5p, miR-129-1-3p, miR-133b, and miR-873-5p) by analyzing 410 predicted target genes, both of which were previously associated with Parkinson’s disease (PD). After performing 13,536 transfections, we validated 442 of the 705 putative MTIs (62,7%) through dual luciferase reporter assays. These analyses increased the number of validated MTIs by at least 2.1-fold for miR-133b and by a maximum of 24.3-fold for miR-873-5p. Our study contributes to the experimental capture of miRNA targetomes by addressing i) the ratio of experimentally verified MTIs to predicted MTIs, ii) the sizes of disease-related miRNA targetomes, and iii) the density of MTI networks. A web service to support the analyses on the MTI level is available online ( https://ccb-web.cs.uni-saarland.de/utr-seremato ), and all the data have been added to the miRATBase database ( https://ccb-web.cs.uni-saarland.de/miratbase ).

Published

2024

2. Effects of Resistant Starch on Symptoms, Fecal Markers, and Gut Microbiota in Parkinson’s Disease — The RESISTA-PD Trial

Author

Anouck Becker, Georges Pierre Schmartz, Laura Gröger, Nadja Grammes, Valentina Galata, Hannah Philippeit, Jacqueline Weiland, Nicole Ludwig, Eckart Meese, Sascha Tierling, Jörn Walter, Andreas Schwiertz, Jörg Spiegel, Gudrun Wagenpfeil, Klaus Faßbender, Andreas Keller, and Marcus M. Unger

Subjects

Parkinson’s disease, Short-chain fatty acid, Microbiota, Metagenomics, Intestinal inflammation, Biology (General), QH301-705.5, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

The composition of the gut microbiota is linked to multiple diseases, including Parkinson’s disease (PD). Abundance of bacteria producing short-chain fatty acids (SCFAs) and fecal SCFA concentrations are reduced in PD. SCFAs exert various beneficial functions in humans. In the interventional, monocentric, open-label clinical trial “Effects of Resistant Starch on Bowel Habits, Short Chain Fatty Acids and Gut Microbiota in Parkinson’s Disease” (RESISTA-PD; ID: NCT02784145), we aimed at altering fecal SCFAs by an 8-week prebiotic intervention with resistant starch (RS). We enrolled 87 subjects in three study-arms: 32 PD patients received RS (PD + RS), 30 control subjects received RS, and 25 PD patients received solely dietary instructions. We performed paired-end 100 bp length metagenomic sequencing of fecal samples using the BGISEQ platform at an average of 9.9 GB. RS was well-tolerated. In the PD + RS group, fecal butyrate concentrations increased significantly, and fecal calprotectin concentrations dropped significantly after 8 weeks of RS intervention. Clinically, we observed a reduction in non-motor symptom load in the PD + RS group. The reference-based analysis of metagenomes highlighted stable alpha-diversity and beta-diversity across the three groups, including bacteria producing SCFAs. Reference-free analysis suggested punctual, yet pronounced differences in the metagenomic signature in the PD + RS group. RESISTA-PD highlights that a prebiotic treatment with RS is safe and well-tolerated in PD. The stable alpha-diversity and beta-diversity alongside altered fecal butyrate and calprotectin concentrations call for long-term studies, also investigating whether RS is able to modify the clinical course of PD.

Published

2022

3. Systematic Cross-biospecimen Evaluation of DNA Extraction Kits for Long- and Short-read Multi-metagenomic Sequencing Studies

Author

Jacqueline Rehner, Georges Pierre Schmartz, Laura Groeger, Jan Dastbaz, Nicole Ludwig, Matthias Hannig, Stefan Rupf, Berthold Seitz, Elias Flockerzi, Tim Berger, Matthias Christian Reichert, Marcin Krawczyk, Eckart Meese, Christian Herr, Robert Bals, Sören L. Becker, Andreas Keller, and Rolf Müller

Subjects

Whole-genome analysis, Comparative genomics, Short-read sequencing, Long-read sequencing, DNA extraction, Metagenomics, Biology (General), QH301-705.5, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

High-quality DNA extraction is a crucial step in metagenomic studies. Bias by different isolation kits impairs the comparison across datasets. A trending topic is, however, the analysis of multiple metagenomes from the same patients to draw a holistic picture of microbiota associated with diseases. We thus collected bile, stool, saliva, plaque, sputum, and conjunctival swab samples and performed DNA extraction with three commercial kits. For each combination of the specimen type and DNA extraction kit, 20-gigabase (Gb) metagenomic data were generated using short-read sequencing. While profiles of the specimen types showed close proximity to each other, we observed notable differences in the alpha diversity and composition of the microbiota depending on the DNA extraction kits. No kit outperformed all selected kits on every specimen. We reached consistently good results using the Qiagen QiAamp DNA Microbiome Kit. Depending on the specimen, our data indicate that over 10 Gb of sequencing data are required to achieve sufficient resolution, but DNA-based identification is superior to identification by mass spectrometry. Finally, long-read nanopore sequencing confirmed the results (correlation coefficient > 0.98). Our results thus suggest using a strategy with only one kit for studies aiming for a direct comparison of multiple microbiotas from the same patients.

Published

2022

4. Putative Antimicrobial Peptides Within Bacterial Proteomes Affect Bacterial Predominance: A Network Analysis Perspective

Author

Anastasis Oulas, Margarita Zachariou, Christos T. Chasapis, Marios Tomazou, Umer Z. Ijaz, Georges Pierre Schmartz, George M. Spyrou, and Alexios Vlamis-Gardikas

Subjects

putative antimicrobial peptides, interbacterial antagonism, network analysis, bioinformatics analysis, bacterial competition, Microbiology, QR1-502

Abstract

The predominance of bacterial taxa in the gut, was examined in view of the putative antimicrobial peptide sequences (AMPs) within their proteomes. The working assumption was that compatible bacteria would share homology and thus immunity to their putative AMPs, while competing taxa would have dissimilarities in their proteome-hidden AMPs. A network–based method (“Bacterial Wars”) was developed to handle sequence similarities of predicted AMPs among UniProt-derived protein sequences from different bacterial taxa, while a resulting parameter (“Die” score) suggested which taxa would prevail in a defined microbiome. T he working hypothesis was examined by correlating the calculated Die scores, to the abundance of bacterial taxa from gut microbiomes from different states of health and disease. Eleven publicly available 16S rRNA datasets and a dataset from a full shotgun metagenomics served for the analysis. The overall conclusion was that AMPs encrypted within bacterial proteomes affected the predominance of bacterial taxa in chemospheres.

Published

2021

5. Dysregulation of brain and choroid plexus cell types in severe COVID-19

Author

Julian A. Stein, Inma Cobos, Nannan Lu, Andrew C. Yang, Walter J. Schulz-Schaeffer, Andreas Keller, Nicole Ludwig, Ryan T. Vest, Daniela Berdnik, Nicholas Schaum, M. Windy McNerney, Tobias Fehlmann, Christina A. Maat, Maayan R. Agam, Fabian Kern, Tony Wyss-Coray, Davis P. Lee, Patricia Moran Losada, Oliver Hahn, Kruti Calcuttawala, David Gate, Divya Channappa, and Georges Pierre Schmartz

Subjects

Male, Cell type, Biology, Virus Replication, Article, Single-cell analysis, Cellular neuroscience, Cortex (anatomy), medicine, Humans, Aged, Aged, 80 and over, Cell Nucleus, Inflammation, Neurons, Multidisciplinary, Microglia, SARS-CoV-2, Brain, COVID-19, Middle Aged, Publisher Correction, medicine.anatomical_structure, Neuroimmunology, Astrocytes, Choroid Plexus, Female, Choroid plexus, Single-Cell Analysis, Transcriptome, Neuroscience, Astrocyte

Abstract

Although SARS-CoV-2 primarily targets the respiratory system, patients with and survivors of COVID-19 can suffer neurological symptoms1–3. However, an unbiased understanding of the cellular and molecular processes that are affected in the brains of patients with COVID-19 is missing. Here we profile 65,309 single-nucleus transcriptomes from 30 frontal cortex and choroid plexus samples across 14 control individuals (including 1 patient with terminal influenza) and 8 patients with COVID-19. Although our systematic analysis yields no molecular traces of SARS-CoV-2 in the brain, we observe broad cellular perturbations indicating that barrier cells of the choroid plexus sense and relay peripheral inflammation into the brain and show that peripheral T cells infiltrate the parenchyma. We discover microglia and astrocyte subpopulations associated with COVID-19 that share features with pathological cell states that have previously been reported in human neurodegenerative disease4–6. Synaptic signalling of upper-layer excitatory neurons—which are evolutionarily expanded in humans7 and linked to cognitive function8—is preferentially affected in COVID-19. Across cell types, perturbations associated with COVID-19 overlap with those found in chronic brain disorders and reside in genetic variants associated with cognition, schizophrenia and depression. Our findings and public dataset provide a molecular framework to understand current observations of COVID-19-related neurological disease, and any such disease that may emerge at a later date. Single-nucleus transcriptomes of frontal cortex and choroid plexus samples from patients with COVID-19 reveal pathological cell states that are similar to those associated with human neurodegenerative diseases and chronic brain disorders.

Published

2021

6. Predicting clinical outcome of neuroblastoma patients using an integrative network-based approach

Author

Léon-Charles Tranchevent, Francisco Azuaje, Petr V. Nazarov, Sang-Yoon Kim, Tony Kaoma, Arnaud Muller, Jagath C. Rajapakse, Georges Pierre Schmartz, School of Computer Science and Engineering, and Bioinformatics Research Centre

Subjects

0301 basic medicine, Immunology, Biology, Machine learning, computer.software_genre, Network topology, Outcome (game theory), General Biochemistry, Genetics and Molecular Biology, Omics data, 03 medical and health sciences, Neuroblastoma, 0302 clinical medicine, Network-based Methods, Similarity (psychology), Humans, Gene Regulatory Networks, lcsh:QH301-705.5, Ecology, Evolution, Behavior and Systematics, Biological Networks, business.industry, Applied Mathematics, Research, Biological networks, Experimental data, Computational Biology, Genomics, 030104 developmental biology, Network-based methods, lcsh:Biology (General), 030220 oncology & carcinogenesis, Modeling and Simulation, Artificial intelligence, General Agricultural and Biological Sciences, business, Centrality, computer, Relevant information, Biological network, Algorithms

Abstract

Background One of the main current challenges in computational biology is to make sense of the huge amounts of multidimensional experimental data that are being produced. For instance, large cohorts of patients are often screened using different high-throughput technologies, effectively producing multiple patient-specific molecular profiles for hundreds or thousands of patients. Results We propose and implement a network-based method that integrates such patient omics data into Patient Similarity Networks. Topological features derived from these networks were then used to predict relevant clinical features. As part of the 2017 CAMDA challenge, we have successfully applied this strategy to a neuroblastoma dataset, consisting of genomic and transcriptomic data. In particular, we observe that models built on our network-based approach perform at least as well as state of the art models. We furthermore explore the effectiveness of various topological features and observe, for instance, that redundant centrality metrics can be combined to build more powerful models. Conclusion We demonstrate that the networks inferred from omics data contain clinically relevant information and that patient clinical outcomes can be predicted using only network topological data. Reviewers This article was reviewed by Yang-Yu Liu, Tomislav Smuc and Isabel Nepomuceno. Electronic supplementary material The online version of this article (10.1186/s13062-018-0214-9) contains supplementary material, which is available to authorized users.

Published

2018

7. Auritidibacter ignavus, an Emerging Pathogen Associated with Chronic Ear Infections

Author

Sophie Roth, Maximilian Linxweiler, Jacqueline Rehner, Georges-Pierre Schmartz, Sören L. Becker, and Jan Philipp Kühn

Subjects

Auriditibacter sp., Auritidibacter ignavus, bacteria, otitis externa, antimicrobial drug resistance, rare pathogen, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

We describe detection of the previously rarely reported gram-positive bacterium Auritidibacter ignavus in 3 cases of chronic ear infections in Germany. In all 3 cases, the patients had refractory otorrhea. Although their additional symptoms varied, all patients had an ear canal stenosis and A. ignavus detected in microbiologic swab specimens. A correct identification of A. ignavus in the clinical microbiology laboratory is hampered by the inability to identify it by using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. Also, the bacterium might easily be overlooked because of its morphologic similarity to bacterial species of the resident skin flora. We conclude that a high index of suspicion is warranted to identify A. ignavus and that it should be particularly considered in patients with chronic external otitis who do not respond clinically to quinolone ear drop therapy.

Published

2024