Your search keyword '"Vladimir Benes"' showing total 423 results

1. Multiomics approaches disclose very-early molecular and cellular switches during insect-venom allergen-specific immunotherapy: an observational study

Author

Dimitrii Pogorelov, Sebastian Felix Nepomuk Bode, Xin He, Javier Ramiro-Garcia, Fanny Hedin, Wim Ammerlaan, Maria Konstantinou, Christophe M. Capelle, Ni Zeng, Aurélie Poli, Olivia Domingues, Guillem Montamat, Oliver Hunewald, Séverine Ciré, Alexandre Baron, Joseph Longworth, Agnieszka Demczuk, Murilo Luiz Bazon, Ingrid Casper, Ludger Klimek, Lorie Neuberger-Castillo, Dominique Revets, Lea Guyonnet, Sylvie Delhalle, Jacques Zimmer, Vladimir Benes, Françoise Codreanu-Morel, Christiane Lehners-Weber, Ilse Weets, Pinar Alper, Dirk Brenner, Jan Gutermuth, Coralie Guerin, Martine Morisset, François Hentges, Reinhard Schneider, Mohamed H. Shamji, Fay Betsou, Paul Wilmes, Enrico Glaab, Antonio Cosma, Jorge Goncalves, Feng Q. Hefeng, and Markus Ollert

Subjects

Science

Abstract

Abstract Allergen-specific immunotherapy (AIT) induces immune tolerance, showing the highest success rate (>95%) for insect venom while a much lower chance for pollen allergy. However, the molecular switches leading to successful durable tolerance restoration remain elusive. The primary outcome of this observational study is the comprehensive immunological cellular characterization during the AIT initiation phase, whereas the secondary outcomes are the serological and Th2-cell-type-specific transcriptomic analyses. Here we apply a multilayer-omics approach to reveal dynamic peripheral immune landscapes during the AIT-initiation phase in venom allergy patients (VAP) versus pollen-allergic and healthy controls. Already at baseline, VAP exhibit altered abundances of several cell types, including classical monocytes (cMono), CD4+ hybrid type 1-type 17 cells (Th1-Th17 or Th1/17) and CD8+ counterparts (Tc1-Tc17 or Tc1/17). At 8-24 h following AIT launch in VAP, we identify a uniform AIT-elicited pulse of late-transitional/IL-10-producing B cells, IL-6 signaling within Th2 cells and non-inflammatory serum-IL-6 levels. Sequential induction of activation and survival protein markers also immediately occur. A disequilibrium between serum IL-6 and cMono in VAP baseline is restored at day seven following AIT launch. Our longitudinal analysis discovers molecular switches during initiation-phase insect-venom AIT that secure long-term outcomes. Trial number: NCT02931955.

Published

2024

2. Developmental signals control chromosome segregation fidelity during pluripotency and neurogenesis by modulating replicative stress

Author

Anchel de Jaime-Soguero, Janina Hattemer, Anja Bufe, Alexander Haas, Jeroen van den Berg, Vincent van Batenburg, Biswajit Das, Barbara di Marco, Stefania Androulaki, Nicolas Böhly, Jonathan J. M. Landry, Brigitte Schoell, Viviane S. Rosa, Laura Villacorta, Yagmur Baskan, Marleen Trapp, Vladimir Benes, Andrei Chabes, Marta Shahbazi, Anna Jauch, Ulrike Engel, Annarita Patrizi, Rocio Sotillo, Alexander van Oudenaarden, Josephine Bageritz, Julieta Alfonso, Holger Bastians, and Sergio P. Acebrón

Subjects

Science

Abstract

Abstract Human development relies on the correct replication, maintenance and segregation of our genetic blueprints. How these processes are monitored across embryonic lineages, and why genomic mosaicism varies during development remain unknown. Using pluripotent stem cells, we identify that several patterning signals—including WNT, BMP, and FGF—converge into the modulation of DNA replication stress and damage during S-phase, which in turn controls chromosome segregation fidelity in mitosis. We show that the WNT and BMP signals protect from excessive origin firing, DNA damage and chromosome missegregation derived from stalled forks in pluripotency. Cell signalling control of chromosome segregation declines during lineage specification into the three germ layers, but re-emerges in neural progenitors. In particular, we find that the neurogenic factor FGF2 induces DNA replication stress-mediated chromosome missegregation during the onset of neurogenesis, which could provide a rationale for the elevated chromosomal mosaicism of the developing brain. Our results highlight roles for morphogens and cellular identity in genome maintenance that contribute to somatic mosaicism during mammalian development.

Published

2024

3. Foxo3 regulates cortical and medullary thymic epithelial cell homeostasis with implications in T cell development

Author

Camila Ribeiro, Pedro Ferreirinha, Jonathan J. M. Landry, Fátima Macedo, Laura G. Sousa, Rute Pinto, Vladimir Benes, and Nuno L. Alves

Subjects

Cytology, QH573-671

Abstract

Abstract Within the thymus, thymic epithelial cells (TECs) create dedicated microenvironments for T cell development and selection. Considering that TECs are sensitive to distinct pathophysiological conditions, uncovering the molecular elements that coordinate their thymopoietic role has important fundamental and clinical implications. Particularly, medullary thymic epithelial cells (mTECs) play a crucial role in central tolerance. Our previous studies, along with others, suggest that mTECs depend on molecular factors linked to genome-protecting pathways, but the precise mechanisms underlying their function remain unknown. These observations led us to examine the role of Foxo3, as it is expressed in TECs and involved in DNA damage response. Our findings show that mice with TEC-specific deletion of Foxo3 (Foxo3cKO) displayed a disrupted mTEC compartment, with a more profound impact on the numbers of CCL21+ and thymic tuft mTEClo subsets. At the molecular level, Foxo3 controls distinct functional modules in the transcriptome of cTECs and mTECs under normal conditions, which includes the regulation of ribosomal biogenesis and DNA damage response, respectively. These changes in the TEC compartment resulted in a reduced total thymocyte cellularity and specific changes in regulatory T cell and iNKT cell development in the Foxo3cKO thymus. Lastly, the thymic defects observed in adulthood correlated with mild signs of altered peripheral immunotolerance in aged Foxo3cKO mice. Moreover, the deficiency in Foxo3 moderately aggravated the autoimmune predisposition observed in Aire-deficient mice. Our findings highlight the importance of Foxo3 in preserving the homeostasis of TECs and in supporting their role in T cell development and tolerance.

Published

2024

4. Optimization data for an ARTIC-/Illumina-based whole-genome sequencing protocol and pipeline for SARS-CoV-2 analysis

Author

Christian Bundschuh, Niklas Weidner, Julian Klein, Tobias Rausch, Nayara Azevedo, Anja Telzerow, Katharina Laurence Jost, Paul Schnitzler, Hans-Georg Kräusslich, and Vladimir Benes

Subjects

Virology, Epidemiology, Whole genome sequencing, Bioinformatics, SARS-CoV-2, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

In January 2021, Germany commenced surveillance of SARS-CoV-2 variants under the Corona Surveillance Act, which ceased in July 2023. The objective was to bolster pandemic control, as specific alterations in amino acids, particularly within the spike protein, were linked to heightened transmission and decreased vaccine effectiveness.Consequently, our team conducted whole genome sequencing using the commercially accessible ARTIC protocol on Illumina's NextSeq500 platform and MiSeq for SARS-CoV-2 positive samples obtained from patients at Heidelberg University Hospital, affiliated hospitals, and the public health office in the Rhine-Neckar/Heidelberg region. Throughout the pandemic, we refined the existing ARTIC V4 protocol as well as our bioinformatics pipeline, the details of which are outlined in this report. This report reflects the protocol for the MiSeq analysis, the protocol for the NextSeq500 can be found in our previous publication.

Published

2024

5. Clinical and molecular study of radiation-induced gliomas

Author

Katerina Trkova, David Sumerauer, Adela Bubenikova, Lenka Krskova, Ales Vicha, Miroslav Koblizek, Josef Zamecnik, Bruno Jurasek, Martin Kyncl, Bela Malinova, Barbora Ondrova, David T. W. Jones, Martin Sill, Martina Strnadova, Lucie Stolova, Adela Misove, Vladimir Benes, and Michal Zapotocky

Subjects

Medicine, Science

Abstract

Abstract In this study, we provide a comprehensive clinical and molecular biological characterization of radiation-induced gliomas (RIG), including a risk assessment for developing gliomas. A cohort of 12 patients who developed RIG 9.5 years (3–31 years) after previous cranial radiotherapy for brain tumors or T-cell acute lymphoblastic leukemia was established. The derived risk of RIG development based on our consecutive cohort of 371 irradiated patients was 1.6% at 10 years and 3.02% at 15 years. Patients with RIG glioma had a dismal prognosis with a median survival of 7.3 months. We described radiology features that might indicate the suspicion of RIG rather than the primary tumor recurrence. Typical molecular features identified by molecular biology examination included the absence of Histon3 mutation, methylation profile of pedHGG-RTK1 and the presence of recurrent PDGFRA amplification and CDKN2A/B deletion. Of the two long-term surviving patients, one had gliomatosis cerebri, and the other had pleomorphic xanthoastrocytoma with BRAF V600E mutation. In summary, our experience highlights the need for tissue diagnostics to allow detailed molecular biological characterization of the tumor, differentiation of the secondary tumor from the recurrence of the primary disease and potentially finding a therapeutic target.

Published

2024

6. Co-translational binding of importins to nascent proteins

Author

Maximilian Seidel, Natalie Romanov, Agnieszka Obarska-Kosinska, Anja Becker, Nayara Trevisan Doimo de Azevedo, Jan Provaznik, Sankarshana R. Nagaraja, Jonathan J. M. Landry, Vladimir Benes, and Martin Beck

Subjects

Science

Abstract

Abstract Various cellular quality control mechanisms support proteostasis. While, ribosome-associated chaperones prevent the misfolding of nascent chains during translation, importins were shown to prevent the aggregation of specific cargoes in a post-translational mechanism prior the import into the nucleoplasm. Here, we hypothesize that importins may already bind ribosome-associated cargo in a co-translational manner. We systematically measure the nascent chain association of all importins in Saccharomyces cerevisiae by selective ribosome profiling. We identify a subset of importins that bind to a wide range of nascent, often uncharacterized cargoes. This includes ribosomal proteins, chromatin remodelers and RNA binding proteins that are aggregation prone in the cytosol. We show that importins act consecutively with other ribosome-associated chaperones. Thus, the nuclear import system is directly intertwined with nascent chain folding and chaperoning.

Published

2023

7. RNA-sequencing based first choice of treatment and determination of risk in multiple myeloma

Author

Martina Emde-Rajaratnam, Susanne Beck, Vladimir Benes, Hans Salwender, Uta Bertsch, Christoph Scheid, Mathias Hänel, Katja Weisel, Thomas Hielscher, Marc S. Raab, Hartmut Goldschmidt, Anna Jauch, Ken Maes, Elke De Bruyne, Eline Menu, Kim De Veirman, Jérôme Moreaux, Karin Vanderkerken, Anja Seckinger, and Dirk Hose

Subjects

multiple myeloma, immunotherapeutic targets, personalized treatment, risk-adapted treatment, RNA-sequencing, survival, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundImmunotherapeutic targets in multiple myeloma (MM) have variable expression height and are partly expressed in subfractions of patients only. With increasing numbers of available compounds, strategies for appropriate choice of targets (combinations) are warranted. Simultaneously, risk assessment is advisable as patient’s life expectancy varies between months and decades.MethodsWe first assess feasibility of RNA-sequencing in a multicenter trial (GMMG-MM5, n=604 patients). Next, we use a clinical routine cohort of untreated symptomatic myeloma patients undergoing autologous stem cell transplantation (n=535, median follow-up (FU) 64 months) to perform RNA-sequencing, gene expression profiling (GEP), and iFISH by ten-probe panel on CD138-purified malignant plasma cells. We subsequently compare target expression to plasma cell precursors, MGUS (n=59), asymptomatic (n=142) and relapsed (n=69) myeloma patients, myeloma cell lines (n=26), and between longitudinal samples (MM vs. relapsed MM). Data are validated using the independent MMRF CoMMpass-cohort (n=767, FU 31 months).ResultsRNA-sequencing is feasible in 90.8% of patients (GMMG-MM5). Actionable immune-oncological targets (n=19) can be divided in those expressed in all normal and >99% of MM-patients (CD38, SLAMF7, BCMA, GPRC5D, FCRH5, TACI, CD74, CD44, CD37, CD79B), those with expression loss in subfractions of MM-patients (BAFF-R [81.3%], CD19 [57.9%], CD20 [82.8%], CD22 [28.4%]), aberrantly expressed in MM (NY-ESO1/2 [12%], MUC1 [12.7%], CD30 [4.9%], mutated BRAF V600E/K [2.1%]), and resistance-conveying target-mutations e.g., against part but not all BCMA-directed treatments. Risk is assessable regarding proliferation, translated GEP- (UAMS70-, SKY92-, RS-score) and de novo (LfM-HRS) defined risk scores. LfM-HRS delineates three groups of 40%, 38%, and 22% of patients with 5-year and 12-year survival rates of 84% (49%), 67% (18%), and 32% (0%). R-ISS and RNA-sequencing identify partially overlapping patient populations, with R-ISS missing, e.g., 30% (22/72) of highly proliferative myeloma.ConclusionRNA-sequencing based assessment of risk and targets for first choice treatment is possible in clinical routine.

Published

2023

8. P1218: A REPROGRAMMING OF THE LYMPH NODE MICROENVIRONMENT UNDERLIES LOSS OF COMPARTMENTALISATION IN AGGRESSIVE LYMPHOMAS

Author

Anna Mathioudaki, Felix Czernilofsky, Lea Jopp-Saile, Raphael Lutz, Dominik Vonflicht, XI Wang, Marc-A. Baertsch, Harald Vohringer, Tobias Roider, Johannes Mammen, Diana Ordonez-Rueda, Caroline Pabst, Wolfgang Huber, Andreas Trumpp, Carsten Müller-Tidow, Gary P. Nolan, Vladimir Benes, Judith B. Zaugg, Daniel Hübschmann, Simon Haas, and Sascha Dietrich

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

9. Molecular Profiling of Axial Spondyloarthritis Patients Reveals an Association between Innate and Adaptive Cell Populations and Therapeutic Response to Tumor Necrosis Factor Inhibitors

Author

Daniel Sobral, Ana Filipa Fernandes, Miguel Bernardes, Patrícia Pinto, Helena Santos, João Lagoas-Gomes, José Tavares-Costa, José A. P. Silva, João Madruga Dias, Alexandra Bernardo, Jean-Charles Gaillard, Jean Armengaud, Vladimir Benes, Lúcia Domingues, Sara Maia, Jaime C. Branco, Ana Varela Coelho, and Fernando M. Pimentel-Santos

Subjects

axial spondyloarthritis, TNF inhibitor (adalimumab), treatment response, disease activity, innate immune system, adaptive immune system, Microbiology, QR1-502

Abstract

This study aims at identifying molecular biomarkers differentiating responders and non-responders to treatment with Tumor Necrosis Factor inhibitors (TNFi) among patients with axial spondyloarthritis (axSpA). Whole blood mRNA and plasma proteins were measured in a cohort of biologic-naïve axSpA patients (n = 35), pre and post (14 weeks) TNFi treatment with adalimumab. Differential expression analysis was used to identify the most enriched pathways and in predictive models to distinguish responses to TNFi. A treatment-associated signature suggests a reduction in inflammatory activity. We found transcripts and proteins robustly differentially expressed between baseline and week 14 in responders. C-reactive protein (CRP) and Haptoglobin (HP) proteins showed strong and early decrease in the plasma of axSpA patients, while a cluster of apolipoproteins (APOD, APOA2, APOA1) showed increased expression at week 14. Responders to TNFi treatment present higher levels of markers of innate immunity at baseline, and lower levels of adaptive immunity markers, particularly B-cells. A logistic regression model incorporating ASDAS-CRP, gender, and AFF3, the top differentially expressed gene at baseline, enabled an accurate prediction of response to adalimumab in our cohort (AUC = 0.97). In conclusion, innate and adaptive immune cell type composition at baseline may be a major contributor to response to adalimumab in axSpA patients. A model including clinical and gene expression variables should also be considered.

Published

2024

10. Identification of LINE retrotransposons and long non-coding RNAs expressed in the octopus brain

Author

Giuseppe Petrosino, Giovanna Ponte, Massimiliano Volpe, Ilaria Zarrella, Federico Ansaloni, Concetta Langella, Giulia Di Cristina, Sara Finaurini, Monia T. Russo, Swaraj Basu, Francesco Musacchia, Filomena Ristoratore, Dinko Pavlinic, Vladimir Benes, Maria I. Ferrante, Caroline Albertin, Oleg Simakov, Stefano Gustincich, Graziano Fiorito, and Remo Sanges

Subjects

Mollusks, Nervous system, Transcriptome, Transposable elements, Biology (General), QH301-705.5

Abstract

Abstract Background Transposable elements (TEs) widely contribute to the evolution of genomes allowing genomic innovations, generating germinal and somatic heterogeneity, and giving birth to long non-coding RNAs (lncRNAs). These features have been associated to the evolution, functioning, and complexity of the nervous system at such a level that somatic retrotransposition of long interspersed element (LINE) L1 has been proposed to be associated to human cognition. Among invertebrates, octopuses are fascinating animals whose nervous system reaches a high level of complexity achieving sophisticated cognitive abilities. The sequencing of the genome of the Octopus bimaculoides revealed a striking expansion of TEs which were proposed to have contributed to the evolution of its complex nervous system. We recently found a similar expansion also in the genome of Octopus vulgaris. However, a specific search for the existence and the transcription of full-length transpositionally competent TEs has not been performed in this genus. Results Here, we report the identification of LINE elements competent for retrotransposition in Octopus vulgaris and Octopus bimaculoides and show evidence suggesting that they might be transcribed and determine germline and somatic polymorphisms especially in the brain. Transcription and translation measured for one of these elements resulted in specific signals in neurons belonging to areas associated with behavioral plasticity. We also report the transcription of thousands of lncRNAs and the pervasive inclusion of TE fragments in the transcriptomes of both Octopus species, further testifying the crucial activity of TEs in the evolution of the octopus genomes. Conclusions The neural transcriptome of the octopus shows the transcription of thousands of putative lncRNAs and of a full-length LINE element belonging to the RTE class. We speculate that a convergent evolutionary process involving retrotransposons activity in the brain has been important for the evolution of sophisticated cognitive abilities in this genus.

Published

2022

11. Co-translational assembly orchestrates competing biogenesis pathways

Author

Maximilian Seidel, Anja Becker, Filipa Pereira, Jonathan J. M. Landry, Nayara Trevisan Doimo de Azevedo, Claudia M. Fusco, Eva Kaindl, Natalie Romanov, Janina Baumbach, Julian D. Langer, Erin M. Schuman, Kiran Raosaheb Patil, Gerhard Hummer, Vladimir Benes, and Martin Beck

Subjects

Science

Abstract

The biogenesis of nuclear pores imposes a logistic challenge for cells. Here, the authors investigate structural motifs for co-translational interactions in nucleoporins and find that co-translational assembly events differ between paralogous assembly pathways thus contributing to faithful assembly.

Published

2022

12. gga-miRNOME, a microRNA-sequencing dataset from chick embryonic tissues

Author

Isabel Duarte, Gil Carraco, Nayara T. D. de Azevedo, Vladimir Benes, and Raquel P. Andrade

Subjects

Science

Abstract

Measurement(s) miRNA Technology Type(s) microRNA profiling assay Factor Type(s) embryonic tissue Sample Characteristic - Organism Gallus gallus Machine-accessible metadata file describing the reported data: https://doi.org/10.6084/m9.figshare.17173127

Published

2022

13. Risk factors associated with higher histological grade in meningiomas: Multicentric study of 552 skull base meningiomas and literature review.

Author

Michaela May, Vojtech Sedlak, Ing Ladislav Pecen, Vladimir Priban, Pavel Buchvald, Jiri Fiedler, Miroslav Vaverka, Radim Lipina, David Netuka, and Vladimir Benes

Subjects

Neurology. Diseases of the nervous system, RC346-429

Published

2023

14. Targeted parallel DNA sequencing detects circulating tumor‐associated variants of the mitochondrial and nuclear genomes in patients with neuroblastoma

Author

Lara Riehl, Medhanie Mulaw, Katharina Kneer, Meinhard Beer, Ambros Beer, Thomas F. Barth, Vladimir Benes, Johannes Schulte, Matthias Fischer, Klaus‐Michael Debatin, and Christian Beltinger

Subjects

liquid biopsy, mitochondrial and nuclear genomes, mutational signatures, neuroblastoma, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background The utility for liquid biopsy of tumor‐associated circulating single‐nucleotide variants, as opposed to mutations, of the mitochondrial (mt) and nuclear genomes in neuroblastoma (NB) is unknown. Procedure Variants of the mt and nuclear genomes from tumor, blood cells, and consecutive plasma samples of five patients with metastatic NB that relapsed or progressed were analyzed. Targeted parallel sequencing results of the mt genome, and of the coding region of 139 nuclear genes and 22 miRNAs implicated in NB, were correlated with clinical imaging and laboratory data. Results All tumors harbored multiple somatic mt and nuclear single nucleotide variants with low allelic frequency, most of them not detected in the circulation. In one patient a tumor‐associated mt somatic variant was detected in the plasma before and during progressive disease. In a second patient a circulating nuclear tumor‐associated DNA variant heralded clinical relapse. In all patients somatic mt and nuclear variants not evident in the tumor biopsy at time of diagnosis were found circulating at varying timepoints. This suggests either tumor heterogeneity, evolution of tumor variants or a confounding contribution of normal tissues to somatic variants in patient plasma. The number and allelic frequency of the circulating variants did not reflect the clinical course of the tumors. Mutational signatures of mt and nuclear somatic variants differed. They varied between patients and were detected in the circulation without mirroring the patients' course. Conclusions In this limited cohort of NB patients clinically informative tumor‐associated mt and nuclear circulating variants were detected by targeted parallel sequencing in a minority of patients.

Published

2023

15. DNA damage independent inhibition of NF-κB transcription by anthracyclines

Author

Angelo Ferreira Chora, Dora Pedroso, Eleni Kyriakou, Nadja Pejanovic, Henrique Colaço, Raffaella Gozzelino, André Barros, Katharina Willmann, Tiago Velho, Catarina F Moita, Isa Santos, Pedro Pereira, Silvia Carvalho, Filipa Batalha Martins, João A Ferreira, Sérgio Fernandes de Almeida, Vladimir Benes, Josef Anrather, Sebastian Weis, Miguel P Soares, Arie Geerlof, Jacques Neefjes, Michael Sattler, Ana C Messias, Ana Neves-Costa, and Luis Ferreira Moita

Subjects

anthracyclines, cancer, inflammation, DNA damage response, Medicine, Science, Biology (General), QH301-705.5

Abstract

Anthracyclines are among the most used and effective anticancer drugs. Their activity has been attributed to DNA double-strand breaks resulting from topoisomerase II poisoning and to eviction of histones from select sites in the genome. Here, we show that the extensively used anthracyclines Doxorubicin, Daunorubicin, and Epirubicin decrease the transcription of nuclear factor kappa B (NF-κB)-dependent gene targets, but not interferon-responsive genes in primary mouse (Mus musculus) macrophages. Using an NMR-based structural approach, we demonstrate that anthracyclines disturb the complexes formed between the NF-κB subunit RelA and its DNA-binding sites. The anthracycline variants Aclarubicin, Doxorubicinone, and the newly developed Dimethyl-doxorubicin, which share anticancer properties with the other anthracyclines but do not induce DNA damage, also suppressed inflammation, thus uncoupling DNA damage from the effects on inflammation. These findings have implications for anticancer therapy and for the development of novel anti-inflammatory drugs with limited side effects for life-threatening conditions such as sepsis.

Published

2022

16. The Maleth program: Malta's first space mission discoveries on the microbiome of diabetic foot ulcers

Author

Christine Gatt, Braden T. Tierney, Pedro Madrigal, Christopher E. Mason, Afshin Beheshti, Anja Telzerow, Vladimir Benes, Graziella Zahra, Jurgen Bonett, Kevin Cassar, and Joseph Borg

Subjects

Diabetes, Space, International space station, 16S typing, Malta, Microbiome, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The purpose of the Maleth Program, also known as Project Maleth, is Malta's first space program to evaluate human skin tissue microbiome changes in type 2 diabetes mellitus (T2DM) patients afflicted with diabetic foot ulcers (DFU). This was carried out in both ground-based models and spaceflight. The first mission (Maleth I) under this program was carried out to uncover the effects of spaceflight, microgravity and radiation on human skin tissue microbiome samples from six T2DM patients recruited into the study. Each patient human skin tissue sample was split in three, with one section processed immediately for genomic profiling by 16S typing and the rest were processed for longer term ground-control and spaceflight experiments. Ground-control and spaceflight human skin tissue samples were also processed for genomic profiling upon mission re-entry and completion. Maleth I's overall objective was achieved, as human skin tissue samples with their microbiomes travelled to space and back yielding positive results by both standard microbiology techniques and genetic typing using 16S rRNA amplicon sequencing. Preliminary findings of this mission are discussed in light of its innovative approach at DFU microbiome research, and the clinical implications that may emerge from this and other future similar studies.

Published

2022

17. Web-based LinRegPCR: application for the visualization and analysis of (RT)-qPCR amplification and melting data

Author

Andreas Untergasser, Jan M. Ruijter, Vladimir Benes, and Maurice J. B. van den Hoff

Subjects

LinRegPCR, RDML, qPCR, PCR, Amplification curve, Melting curve, Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5

Abstract

Abstract Background The analyses of amplification and melting curves have been shown to provide valuable information on the quality of the individual reactions in quantitative PCR (qPCR) experiments and to result in more reliable and reproducible quantitative results. Implementation The main steps in the amplification curve analysis are (1) a unique baseline subtraction, not using the ground phase cycles, (2) PCR efficiency determination from the exponential phase of the individual reactions, (3) setting a common quantification threshold and (4) calculation of the efficiency-corrected target quantity with the common threshold, efficiency per assay and Cq per reaction. The melting curve analysis encompasses smoothing of the observed fluorescence data, normalization to remove product-independent fluorescence loss, peak calling and assessment of the correct peak by comparing its melting temperature with the known melting temperature of the intended amplification product. Results The LinRegPCR web application provides visualization and analysis of a single qPCR run. The user interface displays the analysis results on the amplification curve analysis and melting curve analysis in tables and graphs in which deviant reactions are highlighted. The annotated results in the tables can be exported for calculation of gene-expression ratios, fold-change between experimental conditions and further statistical analysis. Web-based LinRegPCR addresses two types of users, wet-lab scientists analyzing the amplification and melting curves of their own qPCR experiments and bioinformaticians creating pipelines for analysis of series of qPCR experiments by splitting its functionality into a stand-alone back-end RDML (Real-time PCR Data Markup Language) Python library and several companion applications for data visualization, analysis and interactive access. The use of the RDML data standard enables machine independent storage and exchange of qPCR data and the RDML-Tools assist with the import of qPCR data from the files exported by the qPCR instrument. Conclusions The combined implementation of these analyses in the newly developed web-based LinRegPCR ( https://www.gear-genomics.com/rdml-tools/ ) is platform independent and much faster than the original Windows-based versions of the LinRegPCR program. Moreover, web-based LinRegPCR includes a novel statistical outlier detection and the combination of amplification and melting curve analyses allows direct validation of the amplification product and reporting of reactions that amplify artefacts.

Published

2021

18. Single‐cell transcriptomics reveals immune response of intestinal cell types to viral infection

Author

Sergio Triana, Megan L Stanifer, Camila Metz‐Zumaran, Mohammed Shahraz, Markus Mukenhirn, Carmon Kee, Clara Serger, Ronald Koschny, Diana Ordoñez‐Rueda, Malte Paulsen, Vladimir Benes, Steeve Boulant, and Theodore Alexandrov

Subjects

astrovirus, immune response, intestinal epithelial cells, organoids, single‐cell transcriptomics, Biology (General), QH301-705.5, Medicine (General), R5-920

Abstract

Abstract Human intestinal epithelial cells form a primary barrier protecting us from pathogens, yet only limited knowledge is available about individual contribution of each cell type to mounting an immune response against infection. Here, we developed a framework combining single‐cell RNA‐Seq and highly multiplex RNA FISH and applied it to human intestinal organoids infected with human astrovirus, a model human enteric virus. We found that interferon controls the infection and that astrovirus infects all major cell types and lineages and induces expression of the cell proliferation marker MKI67. Intriguingly, each intestinal epithelial cell lineage exhibits a unique basal expression of interferon‐stimulated genes and, upon astrovirus infection, undergoes an antiviral transcriptional reprogramming by upregulating distinct sets of interferon‐stimulated genes. These findings suggest that in the human intestinal epithelium, each cell lineage plays a unique role in resolving virus infection. Our framework is applicable to other organoids and viruses, opening new avenues to unravel roles of individual cell types in viral pathogenesis.

Published

2021

19. Genomic insights into the pathogenesis of Epstein–Barr virus-associated diffuse large B-cell lymphoma by whole-genome and targeted amplicon sequencing

Author

Niklas Gebauer, Axel Künstner, Julius Ketzer, Hanno M. Witte, Tobias Rausch, Vladimir Benes, Jürgen Zimmermann, Judith Gebauer, Hartmut Merz, Veronica Bernard, Lana Harder, Katharina Ratjen, Stefan Gesk, Wolfgang Peter, Yannik Busch, Peter Trojok, Nikolas von Bubnoff, Harald Biersack, Hauke Busch, and Alfred C. Feller

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Epstein–Barr virus (EBV)-associated diffuse large B-cell lymphoma not otherwise specified (DLBCL NOS) constitute a distinct clinicopathological entity in the current World Health Organization (WHO) classification. However, its genomic features remain sparsely characterized. Here, we combine whole-genome sequencing (WGS), targeted amplicon sequencing (tNGS), and fluorescence in situ hybridization (FISH) from 47 EBV + DLBCL (NOS) cases to delineate the genomic landscape of this rare disease. Integrated WGS and tNGS analysis clearly distinguished this tumor type from EBV-negative DLBCL due to frequent mutations in ARID1A (45%), KMT2A/KMT2D (32/30%), ANKRD11 (32%), or NOTCH2 (32%). WGS uncovered structural aberrations including 6q deletions (5/8 patients), which were subsequently validated by FISH (14/32 cases). Expanding on previous reports, we identified recurrent alterations in CCR6 (15%), DAPK1 (15%), TNFRSF21 (13%), CCR7 (11%), and YY1 (6%). Lastly, functional annotation of the mutational landscape by sequential gene set enrichment and network propagation predicted an effect on the nuclear factor κB (NFκB) pathway (CSNK2A2, CARD10), IL6/JAK/STAT (SOCS1/3, STAT3), and WNT signaling (FRAT1, SFRP5) alongside aberrations in immunological processes, such as interferon response. This first comprehensive description of EBV + DLBCL (NOS) tumors substantiates the evidence of its pathobiological independence and helps stratify the molecular taxonomy of aggressive lymphomas in the effort for future therapeutic strategies.

Published

2021

20. Correction to: Integrated genomic analysis reveals actionable targets in pediatric spinal cord low-grade gliomas

Author

Adela Misove, Ales Vicha, Petr Broz, Katerina Vanova, David Sumerauer, Lucie Stolova, Lucie Sramkova, Miroslav Koblizek, Josef Zamecnik, Martin Kyncl, Zuzana Holubova, Petr Liby, Jakub Taborsky, Vladimir Benes, Ivana Pernikova, David T. W. Jones, Martin Sill, Terezia Stancokova, Lenka Krskova, and Michal Zapotocky

Subjects

Neurology. Diseases of the nervous system, RC346-429

Published

2022

21. Extensive 5′-surveillance guards against non-canonical NAD-caps of nuclear mRNAs in yeast

Author

Yaqing Zhang, David Kuster, Tobias Schmidt, Daniel Kirrmaier, Gabriele Nübel, David Ibberson, Vladimir Benes, Hans Hombauer, Michael Knop, and Andres Jäschke

Subjects

Science

Abstract

NAD (nicotinamide adenine dinucleotide) acts as a non-canonical RNA cap structure in bacteria and eukaryotes. Here the authors demonstrate the whole landscape of budding yeast NAD-RNAs which are subject to diverse surveillance pathways, suggesting that NAD caps in budding yeast are mostly dysfunctional.

Published

2020

22. Chromatin accessibility landscape of pediatric T‐lymphoblastic leukemia and human T‐cell precursors

Author

Büşra Erarslan‐Uysal, Joachim B Kunz, Tobias Rausch, Paulina Richter‐Pechańska, Ianthe AEM van Belzen, Viktoras Frismantas, Beat Bornhauser, Diana Ordoñez‐Rueada, Malte Paulsen, Vladimir Benes, Martin Stanulla, Martin Schrappe, Gunnar Cario, Gabriele Escherich, Kseniya Bakharevich, Renate Kirschner‐Schwabe, Cornelia Eckert, Tsvetomir Loukanov, Matthias Gorenflo, Sebastian M Waszak, Jean‐Pierre Bourquin, Martina U Muckenthaler, Jan O Korbel, and Andreas E Kulozik

Subjects

ATAC‐Seq, chromatin accessibility, T‐cell development, T‐cell leukemia, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract We aimed at identifying the developmental stage at which leukemic cells of pediatric T‐ALLs are arrested and at defining leukemogenic mechanisms based on ATAC‐Seq. Chromatin accessibility maps of seven developmental stages of human healthy T cells revealed progressive chromatin condensation during T‐cell maturation. Developmental stages were distinguished by 2,823 signature chromatin regions with 95% accuracy. Open chromatin surrounding SAE1 was identified to best distinguish thymic developmental stages suggesting a potential role of SUMOylation in T‐cell development. Deconvolution using signature regions revealed that T‐ALLs, including those with mature immunophenotypes, resemble the most immature populations, which was confirmed by TF‐binding motif profiles. We integrated ATAC‐Seq and RNA‐Seq and found DAB1, a gene not related to leukemia previously, to be overexpressed, abnormally spliced and hyper‐accessible in T‐ALLs. DAB1‐negative patients formed a distinct subgroup with particularly immature chromatin profiles and hyper‐accessible binding sites for SPI1 (PU.1), a TF crucial for normal T‐cell maturation. In conclusion, our analyses of chromatin accessibility and TF‐binding motifs showed that pediatric T‐ALL cells are most similar to immature thymic precursors, indicating an early developmental arrest.

Published

2020

23. Catalogue of stage-specific transcripts in Ixodes ricinus and their potential functions during the tick life-cycle

Author

Pavlina Vechtova, Zoltan Fussy, Radim Cegan, Jan Sterba, Jan Erhart, Vladimir Benes, and Libor Grubhoffer

Subjects

Ixodes ricinus, Tick development, Transcriptome assembly, Reference gene validation, Life stage, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The castor bean tick Ixodes ricinus is an important vector of several clinically important diseases, whose prevalence increases with accelerating global climate changes. Characterization of a tick life-cycle is thus of great importance. However, researchers mainly focus on specific organs of fed life stages, while early development of this tick species is largely neglected. Methods In an attempt to better understand the life-cycle of this widespread arthropod parasite, we sequenced the transcriptomes of four life stages (egg, larva, nymph and adult female), including unfed and partially blood-fed individuals. To enable a more reliable identification of transcripts and their comparison in all five transcriptome libraries, we validated an improved-fit set of five I. ricinus-specific reference genes for internal standard normalization of our transcriptomes. Then, we mapped biological functions to transcripts identified in different life stages (clusters) to elucidate life stage-specific processes. Finally, we drew conclusions from the functional enrichment of these clusters specifically assigned to each transcriptome, also in the context of recently published transcriptomic studies in ticks. Results We found that reproduction-related transcripts are present in both fed nymphs and fed females, underlining the poorly documented importance of ovaries as moulting regulators in ticks. Additionally, we identified transposase transcripts in tick eggs suggesting elevated transposition during embryogenesis, co-activated with factors driving developmental regulation of gene expression. Our findings also highlight the importance of the regulation of energetic metabolism in tick eggs during embryonic development and glutamate metabolism in nymphs. Conclusions Our study presents novel insights into stage-specific transcriptomes of I. ricinus and extends the current knowledge of this medically important pathogen, especially in the early phases of its development.

Published

2020

24. Loss of N-Glycanase 1 Alters Transcriptional and Translational Regulation in K562 Cell Lines

Author

William F. Mueller, Petra Jakob, Han Sun, Sandra Clauder-Münster, Sonja Ghidelli-Disse, Diana Ordonez, Markus Boesche, Marcus Bantscheff, Paul Collier, Bettina Haase, Vladimir Benes, Malte Paulsen, Peter Sehr, Joe Lewis, Gerard Drewes, and Lars M. Steinmetz

Subjects

autophagy, deglycosylation, nfe2l1, ngly1deficiency, nrf1, Genetics, QH426-470

Abstract

N-Glycanase 1 (NGLY1) deficiency is an ultra-rare, complex and devastating neuromuscular disease. Patients display multi-organ symptoms including developmental delays, movement disorders, seizures, constipation and lack of tear production. NGLY1 is a deglycosylating protein involved in the degradation of misfolded proteins retrotranslocated from the endoplasmic reticulum (ER). NGLY1-deficient cells have been reported to exhibit decreased deglycosylation activity and an increased sensitivity to proteasome inhibitors. We show that the loss of NGLY1 causes substantial changes in the RNA and protein landscape of K562 cells and results in downregulation of proteasomal subunits, consistent with its processing of the transcription factor NFE2L1. We employed the CMap database to predict compounds that can modulate NGLY1 activity. Utilizing our robust K562 screening system, we demonstrate that the compound NVP-BEZ235 (Dactosilib) promotes degradation of NGLY1-dependent substrates, concurrent with increased autophagic flux, suggesting that stimulating autophagy may assist in clearing aberrant substrates during NGLY1 deficiency.

Published

2020

25. Tracy: basecalling, alignment, assembly and deconvolution of sanger chromatogram trace files

Author

Tobias Rausch, Markus Hsi-Yang Fritz, Andreas Untergasser, and Vladimir Benes

Subjects

Chromatogram, PCR, Sanger sequencing, Alignment, Variant calling, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background DNA sequencing is at the core of many molecular biology laboratories. Despite its long history, there is a lack of user-friendly Sanger sequencing data analysis tools that can be run interactively as a web application or at large-scale in batch from the command-line. Results We present Tracy, an efficient and versatile command-line application that enables basecalling, alignment, assembly and deconvolution of sequencing chromatogram files. Its companion web applications make all functionality of Tracy easily accessible using standard web browser technologies and interactive graphical user interfaces. Tracy can be easily integrated in large-scale pipelines and high-throughput settings, and it uses state-of-the-art file formats such as JSON and BCF for reporting chromatogram sequencing results and variant calls. The software is open-source and freely available at https://github.com/gear-genomics/tracy, the companion web applications are hosted at https://www.gear-genomics.com. Conclusions Tracy can be routinely applied in large-scale validation efforts conducted in clinical genomics studies as well as for high-throughput genome editing techniques that require a fast and rapid method to confirm discovered variants or engineered mutations. Molecular biologists benefit from the companion web applications that enable installation-free Sanger chromatogram analyses using intuitive, graphical user interfaces.

Published

2020

26. Single-cell transcriptomics identifies CD44 as a marker and regulator of endothelial to haematopoietic transition

Author

Morgan Oatley, Özge Vargel Bölükbası, Valentine Svensson, Maya Shvartsman, Kerstin Ganter, Katharina Zirngibl, Polina V. Pavlovich, Vladislava Milchevskaya, Vladimira Foteva, Kedar N. Natarajan, Bianka Baying, Vladimir Benes, Kiran R. Patil, Sarah A. Teichmann, and Christophe Lancrin

Subjects

Science

Abstract

The endothelial to haematopoietic transition (EHT) is the process where haemogenic endothelium differentiates into haematopoietic stem and progenitor cells (HSPCs). Here the authors use single cell transcriptomics and antibody screening to identify CD44 as a marker of EHT that is required for EHT and HSPC development.

Published

2020

27. Impact of high platelet turnover on the platelet transcriptome: Results from platelet RNA-sequencing in patients with sepsis.

Author

Thomas G Nührenberg, Jasmin Stöckle, Federico Marini, Mark Zurek, Björn A Grüning, Vladimir Benes, Lutz Hein, Franz-Josef Neumann, Christian Stratz, Marco Cederqvist, and Willibald Hochholzer

Subjects

Medicine, Science

Abstract

BackgroundSepsis is associated with high platelet turnover and elevated levels of immature platelets. Changes in the platelet transcriptome and the specific impact of immature platelets on the platelet transcriptome remain unclear. Thus, this study sought to address whether and how elevated levels of immature platelets affect the platelet transcriptome in patients with sepsis.MethodsBlood samples were obtained from patients with sepsis requiring vasopressor therapy (n = 8) and from a control group of patients with stable coronary artery disease and otherwise similar demographic characteristics (n = 8). Immature platelet fraction (IPF) was determined on a Sysmex XE 2100 analyser and platelet function was tested by impedance aggregometry. RNA from leukocyte-depleted platelets was used for transcriptome analysis by Next Generation Sequencing integrating the use of unique molecular identifiers.ResultsIPF (median [interquartile range]) was significantly elevated in sepsis patients (6.4 [5.3-8.7] % vs. 3.6 [2.6-4.6] %, p = 0.005). Platelet function testing revealed no differences in adenosine diphosphate- or thrombin receptor activating peptide-induced platelet aggregation between control and sepsis patients. Putative circular RNA transcripts were decreased in platelets from septic patients. Leukocyte contamination defined by CD45 abundance levels in RNA-sequencing was absent in both groups. Principal component analysis of transcripts showed only partial overlap of clustering with IPF levels. RNA sequencing showed up-regulation of 524 and down-regulation of 118 genes in platelets from sepsis patients compared to controls. Upregulated genes were mostly related to catabolic processes and protein translation. Comparison to published platelet transcriptomes showed a large overlap of changes observed in sepsis and COVID-19 but not with reticulated platelets from healthy donors.ConclusionsPatients with sepsis appear to have a less degraded platelet transcriptome as indicated by increased levels of immature platelets and decreased levels of putative circular RNA transcripts. The present data suggests that increased protein translation is a characteristic mechanism of systemic inflammation.

Published

2022

28. Trophectoderm cell failure leads to peri-implantation lethality in Trpm7-deficient mouse embryos

Author

Aline Schütz, Christin Richter, Petra Weissgerber, Volodymyr Tsvilovskyy, Michael Hesse, Roger Ottenheijm, Frank Zimmermann, Stefanie Buchholz, Rebekka Medert, Sascha Dlugosz, Vladimir Kuryshev, Vladimir Benes, Veit Flockerzi, Bernd K. Fleischmann, Adolfo Cavalié, and Marc Freichel

Subjects

embryonic stem cells, TRPM7, developmental failure, trophectoderm, calcium, magnesium, Biology (General), QH301-705.5

Abstract

Summary: Early embryogenesis depends on proper control of intracellular homeostasis of ions including Ca2+ and Mg2+. Deletion of the Ca2+ and Mg2+ conducting the TRPM7 channel is embryonically lethal in mice but leaves compaction, blastomere polarization, blastocoel formation, and correct specification of the lineages of the trophectoderm and inner cell mass unaltered despite that free cytoplasmic Ca2+ and Mg2+ is reduced at the two-cell stage. Although Trpm7−/− embryos are able to hatch from the zona pellucida, no expansion of Trpm7−/− trophoblast cells can be observed, and Trpm7−/− embryos are not identifiable in utero at E6.5 or later. Given the proliferation and adhesion defect of Trpm7−/− trophoblast stem cells and the ability of Trpm7−/− ESCs to develop to embryos in tetraploid embryo complementation assays, we postulate a critical role of TRPM7 in trophectoderm cells and their failure during implantation as the most likely explanation of the developmental arrest of Trpm7-deficient mouse embryos.

Published

2021

29. Siglec-H-Deficient Mice Show Enhanced Type I IFN Responses, but Do Not Develop Autoimmunity After Influenza or LCMV Infections

Author

Nadine Szumilas, Odilia B. J. Corneth, Christian H. K. Lehmann, Heike Schmitt, Svenia Cunz, Jolie G. Cullen, Talyn Chu, Anita Marosan, Attila Mócsai, Vladimir Benes, Dietmar Zehn, Diana Dudziak, Rudi W. Hendriks, and Lars Nitschke

Subjects

plasmacytoid dendritic cells, Interferon-alpha, Siglec, TLR9, SLE, Immunologic diseases. Allergy, RC581-607

Abstract

Siglec-H is a DAP12-associated receptor on plasmacytoid dendritic cells (pDCs) and microglia. Siglec-H inhibits TLR9-induced IFN-α production by pDCs. Previously, it was found that Siglec-H-deficient mice develop a lupus-like severe autoimmune disease after persistent murine cytomegalovirus (mCMV) infection. This was due to enhanced type I interferon responses, including IFN-α. Here we examined, whether other virus infections can also induce autoimmunity in Siglec-H-deficient mice. To this end we infected Siglec-H-deficient mice with influenza virus or with Lymphocytic Choriomeningitis virus (LCMV) clone 13. With both types of viruses we did not observe induction of autoimmune disease in Siglec-H-deficient mice. This can be explained by the fact that both types of viruses are ssRNA viruses that engage TLR7, rather than TLR9. Also, Influenza causes an acute infection that is rapidly cleared and the chronicity of LCMV clone 13 may not be sufficient and may rather suppress pDC functions. Siglec-H inhibited exclusively TLR-9 driven type I interferon responses, but did not affect type II or type III interferon production by pDCs. Siglec-H-deficient pDCs showed impaired Hck expression, which is a Src-family kinase expressed in myeloid cells, and downmodulation of the chemokine receptor CCR9, that has important functions for pDCs. Accordingly, Siglec-H-deficient pDCs showed impaired migration towards the CCR9 ligand CCL25. Furthermore, autoimmune-related genes such as Klk1 and DNase1l3 are downregulated in Siglec-H-deficient pDCs as well. From these findings we conclude that Siglec-H controls TLR-9-dependent, but not TLR-7 dependent inflammatory responses after virus infections and regulates chemokine responsiveness of pDCs.

Published

2021

30. Small‐molecule‐mediated chemical knock‐down of MuRF1/MuRF2 and attenuation of diaphragm dysfunction in chronic heart failure

Author

Volker Adams, T. Scott Bowen, Sarah Werner, Peggy Barthel, Christina Amberger, Anne Konzer, Johannes Graumann, Peter Sehr, Joe Lewis, Jan Provaznik, Vladimir Benes, Petra Büttner, Alexander Gasch, Norman Mangner, Christian C. Witt, Dittmar Labeit, Axel Linke, and Siegfried Labeit

Subjects

Muscle wasting, Diaphragm, Chronic heart failure, Cardiac cachexia, Mitochondrial metabolism, MuRF1, Diseases of the musculoskeletal system, RC925-935, Human anatomy, QM1-695

Abstract

Abstract Background Chronic heart failure (CHF) leads to diaphragm myopathy that significantly impairs quality of life and worsens prognosis. In this study, we aimed to assess the efficacy of a recently discovered small‐molecule inhibitor of MuRF1 in treating CHF‐induced diaphragm myopathy and loss of contractile function. Methods Myocardial infarction was induced in mice by ligation of the left anterior descending coronary artery. Sham‐operated animals (sham) served as controls. One week post‐left anterior descending coronary artery ligation animals were randomized into two groups—one group was fed control rodent chow, whereas the other group was fed a diet containing 0.1% of the compound ID#704946—a recently described MuRF1‐interfering small molecule. Echocardiography confirmed development of CHF after 10 weeks. Functional and molecular analysis of the diaphragm was subsequently performed. Results Chronic heart failure induced diaphragm fibre atrophy and contractile dysfunction by ~20%, as well as decreased activity of enzymes involved in mitochondrial energy production (P

Published

2019

31. Nuclear factor of activated T-cells, NFATC1, governs FLT3ITD-driven hematopoietic stem cell transformation and a poor prognosis in AML

Author

Maria Solovey, Ying Wang, Christian Michel, Klaus H. Metzeler, Tobias Herold, Joachim R. Göthert, Volker Ellenrieder, Elisabeth Hessmann, Stefan Gattenlöhner, Andreas Neubauer, Dinko Pavlinic, Vladimir Benes, Oliver Rupp, and Andreas Burchert

Subjects

FLT3ITD, Acute myeloid leukemia, Hematopoietic stem cells, NFATC1, Drug resistance, Diseases of the blood and blood-forming organs, RC633-647.5, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Acute myeloid leukemia (AML) patients with a high allelic burden of an internal tandem duplication (ITD)-mutated FMS-like Tyrosine Kinase-3 (FLT3) have a dismal outcome. FLT3ITD triggers the proliferation of the quiescent hematopoietic stem cell (HSC) pool but fails to directly transform HSCs. While the inflammatory transcription factor nuclear factor of activated T-cells 2 (NFAT2, NFATC1) is overexpressed in AML, it is unknown whether it plays a role in FLT3ITD-induced HSC transformation. Methods We generated a triple transgenic mouse model, in which tamoxifen-inducible Cre-recombinase targets expression of a constitutively nuclear transcription factor NFATC1 to FLT3 ITD positive HSC. Emerging genotypes were phenotypically, biochemically, and also transcriptionally characterized using RNA sequencing. We also retrospectively analyzed the overall survival of AML patients with different NFATC1 expression status. Results We find that NFATC1 governs FLT3ITD-driven precursor cell expansion and transformation, causing a fully penetrant lethal AML. FLT3ITD/NFATC1-AML is re-transplantable in secondary recipients and shows primary resistance to the FLT3ITD-kinase inhibitor quizartinib. Mechanistically, NFATC1 rewires FLT3ITD-dependent signaling output in HSC, involving augmented K-RAS signaling and a selective de novo recruitment of key HSC-transforming signaling pathways such as the Hedgehog- and WNT/B-Catenin signaling pathways. In human AML, NFATC1 overexpression is associated with poor overall survival. Conclusions NFATC1 expression causes FLT3ITD-induced transcriptome changes, which are associated with HSC transformation, quizartinib resistance, and a poor prognosis in AML.

Published

2019

32. P23 Acts as Functional RBP in the Macrophage Inflammation Response

Author

Sebastian de Vries, Vladimir Benes, Isabel S. Naarmann-de Vries, Cornelia Rücklé, Katharina Zarnack, Gernot Marx, Dirk H. Ostareck, and Antje Ostareck-Lederer

Subjects

macrophage inflammatory response, RNA-binding protein, P23/PTGES3, Kif15 mRNA, migration, phagocytosis, Biology (General), QH301-705.5

Abstract

Macrophages exert the primary cellular immune response. Pathogen components like bacterial lipopolysaccharides (LPS) stimulate macrophage migration, phagocytotic activity and cytokine expression. Previously, we identified the poly(A)+ RNA interactome of RAW 264.7 macrophages. Of the 402 RNA-binding proteins (RBPs), 32 were classified as unique in macrophages, including nineteen not reported to interact with nucleic acids before. Remarkably, P23 a HSP90 co-chaperone, also known as cytosolic prostaglandin E2 synthase (PTGES3), exhibited differential poly(A)+ RNA binding in untreated and LPS-induced macrophages. To identify mRNAs bound by P23 and to elucidate potential regulatory RBP functions in macrophages, we immunoprecipitated P23 from cytoplasmic extracts of cross-linked untreated and LPS-induced cells. RNAseq revealed that enrichment of 44 mRNAs was reduced in response to LPS. Kif15 mRNA, which encodes kinesin family member 15 (KIF15), a motor protein implicated in cytoskeletal reorganization and cell mobility was selected for further analysis. Noteworthy, phagocytic activity of LPS-induced macrophages was enhanced by P23 depletion. Specifically, in untreated RAW 264.7 macrophages, decreased P23 results in Kif15 mRNA destabilization, diminished KIF15 expression and accelerated macrophage migration. We show that the unexpected RBP function of P23 contributes to the regulation of macrophage phagocytotic activity and migration.

Published

2021

33. Versatile workflow for cell type–resolved transcriptional and epigenetic profiles from cryopreserved human lung

Author

Maria Llamazares-Prada, Elisa Espinet, Vedrana Mijošek, Uwe Schwartz, Pavlo Lutsik, Raluca Tamas, Mandy Richter, Annika Behrendt, Stephanie T. Pohl, Naja P. Benz, Thomas Muley, Arne Warth, Claus Peter Heußel, Hauke Winter, Jonathan J. M. Landry, Felix J.F. Herth, Tinne C.J. Mertens, Harry Karmouty-Quintana, Ina Koch, Vladimir Benes, Jan O. Korbel, Sebastian M. Waszak, Andreas Trumpp, David M. Wyatt, Heiko F. Stahl, Christoph Plass, and Renata Z. Jurkowska

Subjects

Pulmonology, Medicine

Abstract

Complexity of lung microenvironment and changes in cellular composition during disease make it exceptionally hard to understand molecular mechanisms driving development of chronic lung diseases. Although recent advances in cell type–resolved approaches hold great promise for studying complex diseases, their implementation relies on local access to fresh tissue, as traditional tissue storage methods do not allow viable cell isolation. To overcome these hurdles, we developed a versatile workflow that allows storage of lung tissue with high viability, permits thorough sample quality check before cell isolation, and befits sequencing-based profiling. We demonstrate that cryopreservation enables isolation of multiple cell types from both healthy and diseased lungs. Basal cells from cryopreserved airways retain their differentiation ability, indicating that cellular identity is not altered by cryopreservation. Importantly, using RNA sequencing and EPIC Array, we show that gene expression and DNA methylation signatures are preserved upon cryopreservation, emphasizing the suitability of our workflow for omics profiling of lung cells. Moreover, we obtained high-quality single-cell RNA-sequencing data of cells from cryopreserved human lungs, demonstrating that cryopreservation empowers single-cell approaches. Overall, thanks to its simplicity, our workflow is well suited for prospective tissue collection by academic collaborators and biobanks, opening worldwide access to viable human tissue.

Published

2021

34. BipA exerts temperature-dependent translational control of biofilm-associated colony morphology in Vibrio cholerae

Author

Teresa del Peso Santos, Laura Alvarez, Brandon Sit, Oihane Irazoki, Jonathon Blake, Benjamin R Warner, Alyson R Warr, Anju Bala, Vladimir Benes, Matthew K Waldor, Kurt Fredrick, and Felipe Cava

Subjects

Vibrio cholerae, temperature, biofilm, BipA, HapR, translation, Medicine, Science, Biology (General), QH301-705.5

Abstract

Adaptation to shifting temperatures is crucial for the survival of the bacterial pathogen Vibrio cholerae. Here, we show that colony rugosity, a biofilm-associated phenotype, is regulated by temperature in V. cholerae strains that naturally lack the master biofilm transcriptional regulator HapR. Using transposon-insertion mutagenesis, we found the V. cholerae ortholog of BipA, a conserved ribosome-associated GTPase, is critical for this temperature-dependent phenomenon. Proteomic analyses revealed that loss of BipA alters the synthesis of >300 proteins in V. cholerae at 22°C, increasing the production of biofilm-related proteins including the key transcriptional activators VpsR and VpsT, as well as proteins important for diverse cellular processes. At low temperatures, BipA protein levels increase and are required for optimal ribosome assembly in V. cholerae, suggesting that control of BipA abundance is a mechanism by which bacteria can remodel their proteomes. Our study reveals a remarkable new facet of V. cholerae’s complex biofilm regulatory network.

Published

2021

35. M2-like macrophages dictate clinically relevant immunosuppression in metastatic ovarian cancer

Author

Vladimir Benes, Ladislav Pecen, Jelena Pistolic, Lorenzo Galluzzi, Iva Truxova, Radek Špíšek, Lenka Kasikova, Michal Hensler, Petr Skapa, Jan Laco, Ivan Praznovec, Tomas Brtnicky, Lukas Rob, Catherine Sautes-Fridman, Ales Ryska, Jitka Fucikova, Wolf Herve Fridman, Vít Drochýtek, Sarka Vosahlikova, Karel Fiser, Jana Rakova, Tereza Lanickova, Irena Moserova, Martina Rehackova, and Ludek Sojka

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background The immunological microenvironment of primary high-grade serous carcinomas (HGSCs) has a major impact on disease outcome. Conversely, little is known on the microenvironment of metastatic HGSCs and its potential influence on patient survival. Here, we explore the clinical relevance of the immunological configuration of HGSC metastases.Methods RNA sequencing was employed on 24 paired primary tumor microenvironment (P-TME) and metastatic tumor microenvironment (M-TME) chemotherapy-naive HGSC samples. Immunohistochemistry was used to evaluate infiltration by CD8+ T cells, CD20+ B cells, DC-LAMP+ (lysosomal-associated membrane protein 3) dendritic cells (DCs), NKp46+ (natural killer) cells and CD68+CD163+ M2-like tumor-associated macrophages (TAMs), abundance of PD-1+ (programmed cell death 1), LAG-3+ (lymphocyte-activating gene 3) cells, and PD-L1 (programmed death ligand 1) expression in 80 samples. Flow cytometry was used for functional assessments on freshly resected HGSC samples.Results 1468 genes were differentially expressed in the P-TME versus M-TME of HGSCs, the latter displaying signatures of extracellular matrix remodeling and immune infiltration. M-TME infiltration by immune effector cells had little impact on patient survival. Accordingly, M-TME-infiltrating T cells were functionally impaired, but not upon checkpoint activation. Conversely, cytokine signaling in favor of M2-like TAMs activity appeared to underlie inhibited immunity in the M-TME and poor disease outcome.Conclusions Immunosuppressive M2-like TAM infiltrating metastatic sites limit clinically relevant immune responses against HGSCs.

Published

2020

36. Natural course of pineal cysts—a radiographic study

Author

Martin Majovsky and Vladimir Benes

Subjects

Pineal cyst, Natural history, Magnetic resonance imaging, Neurosurgery, Surgery, RD1-811, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Pineal cysts (PCs) are a benign lesion of the pineal gland that have been known to the medical community for a long time. With a prevalence rate of approximately 1% in the general population, PC is often a reason for medical counseling. The natural course of PC morphology has not been well described. In this study, we present a longitudinal magnetic resonance imaging (MRI) study of patients with PCs, with special focus on those who showed an increase or decrease in PC size. Methods We enrolled all patients with a PC who were referred to our department between January 2000 and January 2018. Each patient underwent a clinical examination, and the patient’s age, sex, and presenting signs and symptoms were noted. MRI was performed during periodic examinations, and a clinical and radiological course was reassessed. Results In total, 133 patients (99 women, 34 men) were enrolled. The mean maximum diameter was 12.7 ± 5.2 mm (range 7–35 mm). PCs increased in size during the follow-up in seven patients (5.3%) and decreased in size in 10 (7.5%). The remaining cysts (n = 116, 87.2%) were stable over the follow-up period. Analyzing patients according to cyst size change, we found a significant difference in the mean age between the PC progression group and PC regression group (p = 0.01). The mean size of the PCs at the time of diagnosis did not differ significantly between the two groups (p = 0.81). We diagnosed two cases of pineal apoplexy. Conclusion We found that PCs are a dynamic structure that may change in size during the patient’s lifetime. Patients with an increase in PC size were significantly younger than patients with a decrease in size. Therefore, PC growth in the first, second, and third decennium is normal and does not justify medical intervention. Surgery is indicated in cases of hydrocephalus and Parinaud’s syndrome or in atypical cysts when neoplasia is suspected. The size of a PC does not predict PC behavior in terms of a future increase or decrease in size.

Published

2018

37. ToTem: a tool for variant calling pipeline optimization

Author

Nikola Tom, Ondrej Tom, Jitka Malcikova, Sarka Pavlova, Blanka Kubesova, Tobias Rausch, Miroslav Kolarik, Vladimir Benes, Vojtech Bystry, and Sarka Pospisilova

Subjects

Variant calling, Benchmarking, Next generation sequencing, Parameter optimization, Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5

Abstract

Abstract Background High-throughput bioinformatics analyses of next generation sequencing (NGS) data often require challenging pipeline optimization. The key problem is choosing appropriate tools and selecting the best parameters for optimal precision and recall. Results Here we introduce ToTem, a tool for automated pipeline optimization. ToTem is a stand-alone web application with a comprehensive graphical user interface (GUI). ToTem is written in Java and PHP with an underlying connection to a MySQL database. Its primary role is to automatically generate, execute and benchmark different variant calling pipeline settings. Our tool allows an analysis to be started from any level of the process and with the possibility of plugging almost any tool or code. To prevent an over-fitting of pipeline parameters, ToTem ensures the reproducibility of these by using cross validation techniques that penalize the final precision, recall and F-measure. The results are interpreted as interactive graphs and tables allowing an optimal pipeline to be selected, based on the user’s priorities. Using ToTem, we were able to optimize somatic variant calling from ultra-deep targeted gene sequencing (TGS) data and germline variant detection in whole genome sequencing (WGS) data. Conclusions ToTem is a tool for automated pipeline optimization which is freely available as a web application at https://totem.software.

Published

2018

38. Adverse effects of Hif1a mutation and maternal diabetes on the offspring heart

Author

Radka Cerychova, Romana Bohuslavova, Frantisek Papousek, David Sedmera, Pavel Abaffy, Vladimir Benes, Frantisek Kolar, and Gabriela Pavlinkova

Subjects

Fetal programming, Maternal diabetes, Hif1a haploinsufficiency, Echocardiography, Heart remodelling, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Abstract Background Epidemiological studies show that maternal diabetes predisposes offspring to cardiovascular and metabolic disorders. However, the precise mechanisms for the underlying penetrance and disease predisposition remain poorly understood. We examined whether hypoxia-inducible factor 1 alpha, in combination with exposure to a diabetic intrauterine environment, influences the function and molecular structure of the adult offspring heart. Methods and results In a mouse model, we demonstrated that haploinsufficient (Hif1a +/−) offspring from a diabetic pregnancy developed left ventricle dysfunction at 12 weeks of age, as manifested by decreased fractional shortening and structural remodeling of the myocardium. Transcriptional profiling by RNA-seq revealed significant transcriptome changes in the left ventricle of diabetes-exposed Hif1a +/− offspring associated with development, metabolism, apoptosis, and blood vessel physiology. In contrast, both wild type and Hif1a +/− offspring from diabetic pregnancies showed changes in immune system processes and inflammatory responses. Immunohistochemical analyses demonstrated that the combination of haploinsufficiency of Hif1a and exposure to maternal diabetes resulted in impaired macrophage infiltration, increased levels of advanced glycation end products, and changes in vascular homeostasis in the adult offspring heart. Conclusions Together our findings provide evidence that a global reduction in Hif1a gene dosage increases predisposition of the offspring exposed to maternal diabetes to cardiac dysfunction, and also underscore Hif1a as a critical factor in the fetal programming of adult cardiovascular disease.

Published

2018

39. Coordinated expression and genetic polymorphisms in Grainyhead-like genes in human non-melanoma skin cancers

Author

Agnieszka Kikulska, Tobias Rausch, Ewa Krzywinska, Magdalena Pawlak, Bartek Wilczynski, Vladimir Benes, Piotr Rutkowski, and Tomasz Wilanowski

Subjects

Non-melanoma skin cancer, Molecular genetics, Gene expression, microRNA, Single nucleotide polymorphism, Transcription factor, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background The Grainyhead-like (GRHL) transcription factors have been linked to many different types of cancer. However, no previous study has attempted to investigate potential correlations in expression of different GRHL genes in this context. Furthermore, there is very little information concerning damaging mutations and/or single nucleotide polymorphisms in GRHL genes that may be linked to cancer. Methods DNA and RNA were extracted from human non-melanoma skin cancers (NMSC) and adjacent normal tissues (n = 33 pairs of samples). The expression of GRHL genes was measured by quantitative real time PCR. Regulation of GRHL expression by miRNA was studied using cell transfection methods and dual-luciferase reporter system. Targeted deep sequencing of GRHL genes in tumor samples and control tissues were employed to search for mutations and single nucleotide polymorphisms. Single marker rs141193530 was genotyped with pyrosequencing in additional NMSC replication cohort (n = 176). Appropriate statistical and bioinformatic methods were used to analyze and interpret results. Results We discovered that the expression of two genes – GRHL1 and GRHL3 – is reduced in a coordinated manner in tumor samples, in comparison to the control healthy skin samples obtained from the same individuals. It is possible that both GRHL1 and GRHL3 are regulated, at least to some extent, by different strands of the same oncogenic microRNA – miR-21, what would at least partially explain observed correlation. No de novo mutations in the GRHL genes were detected in the examined tumor samples. However, some single nucleotide polymorphisms in the GRHL genes occur at significantly altered frequencies in the examined group of NMSC patients. Conclusions Non-melanoma skin cancer growth is accompanied by coordinated reduced expression of epidermal differentiation genes: GRHL1 and GRHL3, which may be regulated by miR-21–3p and -5p, respectively. Some potentially damaging single nucleotide polymorphisms in GRHL genes occur with altered frequencies in NMSC patients, and they may in particular impair the expression of GRHL3 gene or functioning of encoded protein. The presence of these polymorphisms may indicate an increased risk of NMSC development in affected people.

Published

2018

40. Genotypes of SLC22A4 and SLC22A5 regulatory loci are predictive of the response of chronic myeloid leukemia patients to imatinib treatment

Author

Monika Jaruskova, Nikola Curik, Rajna Hercog, Vaclava Polivkova, Eliska Motlova, Vladimir Benes, Hana Klamova, Pavla Pecherkova, Petra Belohlavkova, Filip Vrbacky, and Katerina Machova Polakova

Subjects

SLC, CML, Imatinib, Response, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Through high-throughput next-generation sequencing of promoters of solute carrier and ATP-binding cassette genes, which encode drug transporters, we aimed to identify SNPs associated with the response to imatinib administered for first-line treatment of patients with chronic myeloid leukemia. Methods In silico analysis using publicly available databases was done to select the SLC and ABC genes and their promoters for the next-generation sequencing. SNPs associated with the imatinib response were identified using Fisher’s exact probability tests and subjected to the linkage disequilibrium analyses with regulatory loci of concerned genes. We analyzed cumulative achievement of major molecular response and probability of event free survival in relation to identified SNP genotypes in 129 CML patients and performed multivariate analysis for determination of genotypes as independent predictors of outcome. Gene expression analysis of eight cell lines naturally carrying different genotypes was performed to outline an impact of genotypes on the gene expression. Results We observed significant differences in the frequencies of the rs460089-GC and rs460089-GG (SLC22A4) genotypes among rs2631365-TC (SLC22A5) genotype carriers that were associated with optimal and non-optimal responses, respectively. Loci rs460089 and rs2631365 were in highly significant linkage disequilibrium with 12 regulatory loci in introns of SLC22A4 and SLC22A5 encoding imatinib transporters. Genotype association analysis with the response to imatinib indicated that rs460089-GC carriers had a significantly higher probability of achieving a stable major molecular response (BCR-ABL1 transcript level below or equal to 0.1% in the international scale). In contrast, the rs460089-GG represented a risk factor for imatinib failure, which was significantly higher in rs460089-GG_rs2631365-TC carriers. Conclusions This exploratory study depicted potentially important genetic markers predicting outcome of imatinib treatment, which may be helpful for tailoring therapy in clinical practice.

Published

2017

41. Adult sox10+ Cardiomyocytes Contribute to Myocardial Regeneration in the Zebrafish

Author

Marcos Sande-Melón, Inês J. Marques, María Galardi-Castilla, Xavier Langa, María Pérez-López, Marius-Alexandru Botos, Héctor Sánchez-Iranzo, Gabriela Guzmán-Martínez, David Miguel Ferreira Francisco, Dinko Pavlinic, Vladimir Benes, Rémy Bruggmann, and Nadia Mercader

Subjects

Biology (General), QH301-705.5

Abstract

Summary: During heart regeneration in the zebrafish, fibrotic tissue is replaced by newly formed cardiomyocytes derived from preexisting ones. It is unclear whether the heart is composed of several cardiomyocyte populations bearing different capacity to replace lost myocardium. Here, using sox10 genetic fate mapping, we identify a subset of preexistent cardiomyocytes in the adult zebrafish heart with a distinct gene expression profile that expanded after cryoinjury. Genetic ablation of sox10+ cardiomyocytes impairs cardiac regeneration, revealing that these cells play a role in heart regeneration. : Unlike adult mammals, zebrafish regenerate their heart after injury through proliferation of preexistent cardiomyocytes. Sande-Melón et al. identify a subset of sox10-positive cardiomyocytes within the uninjured heart with a high capacity to contribute to the new myocardium. Ablation of these cardiomyocytes confirms that they play an essential role during heart regeneration. Keywords: heart regeneration, sox10, zebrafish, cardiomyocyte proliferation

Published

2019

42. JUNB, DUSP2, SGK1, SOCS1 and CREBBP are frequently mutated in T-cell/histiocyte-rich large B-cell lymphoma

Author

Bianca Schuhmacher, Julia Bein, Tobias Rausch, Vladimir Benes, Thomas Tousseyn, Martine Vornanen, Maurilio Ponzoni, Lorenz Thurner, Randy Gascoyne, Christian Steidl, Ralf Küppers, Martin-Leo Hansmann, and Sylvia Hartmann

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

T-cell/histiocyte-rich large B-cell lymphoma is a rare aggressive lymphoma showing histopathological overlap with nodular lymphocyte-predominant Hodgkin lymphoma. Despite differences in tumor microenvironment and clinical behavior, the tumor cells of both entities show remarkable similarities, suggesting that both lymphomas might represent a spectrum of the same disease. To address this issue, we investigated whether these entities share mutations. Ultra-deep targeted resequencing of six typical and 11 histopathological variants of nodular lymphocyte-predominant Hodgkin lymphoma, and nine cases of T-cell/histiocyte-rich large B-cell lymphoma revealed that genes recurrently mutated in nodular lymphocyte-predominant Hodgkin lymphoma are affected by mutations at similar frequencies in T-cell/histiocyte-rich large B-cell lymphoma. The most recurrently mutated genes were JUNB, DUSP2, SGK1, SOCS1 and CREBBP, which harbored mutations more frequently in T-cell/histiocyte-rich large B-cell lymphoma and the histopathological variants of nodular lymphocyte-predominant Hodgkin lymphoma than in its typical form. Mutations in JUNB, DUSP2, SGK1 and SOCS1 were highly enriched for somatic hypermutation hotspot sites, suggesting an important role of aberrant somatic hypermutation in the generation of these somatic mutations and thus in the pathogenesis of both lymphoma entities. Mutations in JUNB are generally rarely observed in malignant lymphomas and thus are relatively specific for nodular lymphocyte-predominant Hodgkin lymphoma and T-cell/histiocyte-rich large B-cell lymphoma at such high frequencies (5/17 and 5/9 cases with JUNB mutations, respectively). Taken together, the findings of the present study further support a close relationship between T-cell/histiocyte-rich large B-cell lymphoma and nodular lymphocyte-predominant Hodgkin lymphoma by showing that they share highly recurrent genetic lesions.

Published

2019

43. Single-cell transcriptomics reveals a new dynamical function of transcription factors during embryonic hematopoiesis

Author

Isabelle Bergiers, Tallulah Andrews, Özge Vargel Bölükbaşı, Andreas Buness, Ewa Janosz, Natalia Lopez-Anguita, Kerstin Ganter, Kinga Kosim, Cemre Celen, Gülce Itır Perçin, Paul Collier, Bianka Baying, Vladimir Benes, Martin Hemberg, and Christophe Lancrin

Subjects

Stem Cells, transcription factors, developmental biology, Medicine, Science, Biology (General), QH301-705.5

Abstract

Recent advances in single-cell transcriptomics techniques have opened the door to the study of gene regulatory networks (GRNs) at the single-cell level. Here, we studied the GRNs controlling the emergence of hematopoietic stem and progenitor cells from mouse embryonic endothelium using a combination of single-cell transcriptome assays. We found that a heptad of transcription factors (Runx1, Gata2, Tal1, Fli1, Lyl1, Erg and Lmo2) is specifically co-expressed in an intermediate population expressing both endothelial and hematopoietic markers. Within the heptad, we identified two sets of factors of opposing functions: one (Erg/Fli1) promoting the endothelial cell fate, the other (Runx1/Gata2) promoting the hematopoietic fate. Surprisingly, our data suggest that even though Fli1 initially supports the endothelial cell fate, it acquires a pro-hematopoietic role when co-expressed with Runx1. This work demonstrates the power of single-cell RNA-sequencing for characterizing complex transcription factor dynamics.

Published

2018

44. Identification of MiR-21-5p as a Functional Regulator of Mesothelin Expression Using MicroRNA Capture Affinity Coupled with Next Generation Sequencing.

Author

Chiara De Santi, Sebastian Vencken, Jonathon Blake, Bettina Haase, Vladimir Benes, Federica Gemignani, Stefano Landi, and Catherine M Greene

Subjects

Medicine, Science

Abstract

MicroRNAs (miRNAs) are small non-coding RNAs that regulate mRNA expression mainly by silencing target transcripts via binding to miRNA recognition elements (MREs) in the 3'untranslated region (3'UTR). The identification of bona fide targets is challenging for researchers working on the functional aspect of miRNAs. Recently, we developed a method (miR-CATCH) based on biotinylated DNA antisense oligonucleotides that capture the mRNA of interest and facilitates the characterisation of miRNAs::mRNA interactions in a physiological cellular context. Here, the miR-CATCH technique was applied to the mesothelin (MSLN) gene and coupled with next generation sequencing (NGS), to identify miRNAs that regulate MSLN mRNA and that may be responsible for its increased protein levels found in malignant pleural mesothelioma (MPM). Biotinylated MSLN oligos were employed to isolate miRNA::MSLN mRNA complexes from a normal cell line (Met-5A) which expresses low levels of MSLN. MiRNAs targeting the MSLN mRNA were identified by NGS and miR-21-5p and miR-100-5p were selected for further validation analyses. MiR-21-5p was shown to be able to modulate MSLN expression in miRNA mimic experiments in a panel of malignant and non-malignant cell lines. Further miRNA inhibitor experiments and luciferase assays in Mero-14 cells validated miR-21-5p as a true regulator of MSLN. Moreover, in vitro experiments showed that treatment with miR-21-5p mimic reduced proliferation of MPM cell lines. Altogether, this work shows that the miR-CATCH technique, coupled with NGS and in vitro validation, represents a reliable method to identify native miRNA::mRNA interactions. MiR-21-5p is suggested as novel regulator of MSLN with a possible functional role in cellular growth.

Published

2017

45. Potential of fecal microbiota for early‐stage detection of colorectal cancer

Author

Georg Zeller, Julien Tap, Anita Y Voigt, Shinichi Sunagawa, Jens Roat Kultima, Paul I Costea, Aurélien Amiot, Jürgen Böhm, Francesco Brunetti, Nina Habermann, Rajna Hercog, Moritz Koch, Alain Luciani, Daniel R Mende, Martin A Schneider, Petra Schrotz‐King, Christophe Tournigand, Jeanne Tran Van Nhieu, Takuji Yamada, Jürgen Zimmermann, Vladimir Benes, Matthias Kloor, Cornelia M Ulrich, Magnus von Knebel Doeberitz, Iradj Sobhani, and Peer Bork

Subjects

cancer screening, colorectal cancer, fecal biomarkers, human gut microbiome, metagenomics, Biology (General), QH301-705.5, Medicine (General), R5-920

Abstract

Abstract Several bacterial species have been implicated in the development of colorectal carcinoma (CRC), but CRC‐associated changes of fecal microbiota and their potential for cancer screening remain to be explored. Here, we used metagenomic sequencing of fecal samples to identify taxonomic markers that distinguished CRC patients from tumor‐free controls in a study population of 156 participants. Accuracy of metagenomic CRC detection was similar to the standard fecal occult blood test (FOBT) and when both approaches were combined, sensitivity improved > 45% relative to the FOBT, while maintaining its specificity. Accuracy of metagenomic CRC detection did not differ significantly between early‐ and late‐stage cancer and could be validated in independent patient and control populations (N = 335) from different countries. CRC‐associated changes in the fecal microbiome at least partially reflected microbial community composition at the tumor itself, indicating that observed gene pool differences may reveal tumor‐related host–microbe interactions. Indeed, we deduced a metabolic shift from fiber degradation in controls to utilization of host carbohydrates and amino acids in CRC patients, accompanied by an increase of lipopolysaccharide metabolism.

Published

2014

46. Alternative polyadenylation diversifies post‐transcriptional regulation by selective RNA–protein interactions

Author

Ishaan Gupta, Sandra Clauder‐Münster, Bernd Klaus, Aino I Järvelin, Raeka S Aiyar, Vladimir Benes, Stefan Wilkening, Wolfgang Huber, Vicent Pelechano, and Lars M Steinmetz

Subjects

alternative polyadenylation, RNA stability, RNA‐binding protein, transcript isoforms, 3′UTR, Biology (General), QH301-705.5, Medicine (General), R5-920

Abstract

Abstract Recent research has uncovered extensive variability in the boundaries of transcript isoforms, yet the functional consequences of this variation remain largely unexplored. Here, we systematically discriminate between the molecular phenotypes of overlapping coding and non‐coding transcriptional events from each genic locus using a novel genome‐wide, nucleotide‐resolution technique to quantify the half‐lives of 3′ transcript isoforms in yeast. Our results reveal widespread differences in stability among isoforms for hundreds of genes in a single condition, and that variation of even a single nucleotide in the 3′ untranslated region (UTR) can affect transcript stability. While previous instances of negative associations between 3′ UTR length and transcript stability have been reported, here, we find that shorter isoforms are not necessarily more stable. We demonstrate the role of RNA‐protein interactions in conditioning isoform‐specific stability, showing that PUF3 binds and destabilizes specific polyadenylation isoforms. Our findings indicate that although the functional elements of a gene are encoded in DNA sequence, the selective incorporation of these elements into RNA through transcript boundary variation allows a single gene to have diverse functional consequences.

Published

2014

47. Expansion of Imaginal Disc Growth Factor Gene Family in Diptera Reflects the Evolution of Novel Functions

Author

Martina Zurovcova, Vladimir Benes, Michal Zurovec, and Lucie Kucerova

Subjects

drosophila, chitinase, phylogeny, positive selection, chitinase-like protein, idgf, Science

Abstract

Imaginal disc growth factors (IDGFs) are a small protein family found in insects. They are related to chitinases and implicated in multiple functions, including cell growth stimulation, antimicrobial activity, insect hemolymph clotting, and maintenance of the extracellular matrix. A number of new IDGFs have been found in several insect species and their detailed phylogenetic analysis provides a good basis for further functional studies. To achieve this goal, we sequenced Idgf cDNAs from several lepidopteran and trichopteran species and supplemented our data with sequences retrieved from public databases. A comparison of Idgf genes in different species showed that Diptera typically contain several Idgf paralogs with a simple exon-intron structure (2−3 exons), whereas lepidopteran Idgfs appear as a single copy per genome and contain a higher number of exons (around 9). Our results show that, while lepidopteran Idgfs, having single orthologs, are characterized by low divergence and stronger purifying selection over most of the molecule, the duplicated Idgf genes in Diptera, Idgf1 and Idgf4, exhibit signs of positive selection. This characterization of IDGF evolution provides, to our knowledge, the first information on the changes that formed these important molecules.

Published

2019

48. Endogenous Mouse Dicer Is an Exclusively Cytoplasmic Protein.

Author

Christian Much, Tania Auchynnikava, Dinko Pavlinic, Andreas Buness, Juri Rappsilber, Vladimir Benes, Robin Allshire, and Dónal O'Carroll

Subjects

Genetics, QH426-470

Abstract

Dicer is a large multi-domain protein responsible for the ultimate step of microRNA and short-interfering RNA biogenesis. In human and mouse cell lines, Dicer has been shown to be important in the nuclear clearance of dsRNA as well as the establishment of chromatin modifications. Here we set out to unambiguously define the cellular localization of Dicer in mice to understand if this is a conserved feature of mammalian Dicer in vivo. To this end, we utilized an endogenously epitope tagged Dicer knock-in mouse allele. From primary mouse cell lines and adult tissues, we determined with certainty by biochemical fractionation and confocal immunofluorescence microscopy that endogenous Dicer is exclusively cytoplasmic. We ruled out the possibility that a fraction of Dicer shuttles to and from the nucleus as well as that FGF or DNA damage signaling induce Dicer nuclear translocation. We also explored Dicer localization during the dynamic and developmental context of embryogenesis, where Dicer is ubiquitously expressed and strictly cytoplasmic in all three germ layers as well as extraembryonic tissues. Our data exclude a direct role for Dicer in the nuclear RNA processing in the mouse.

Published

2016

49. Pediatric T-cell lymphoblastic leukemia evolves into relapse by clonal selection, acquisition of mutations and promoter hypomethylation

Author

Joachim B. Kunz, Tobias Rausch, Obul R. Bandapalli, Juliane Eilers, Paulina Pechanska, Stephanie Schuessele, Yassen Assenov, Adrian M. Stütz, Renate Kirschner-Schwabe, Jana Hof, Cornelia Eckert, Arend von Stackelberg, Martin Schrappe, Martin Stanulla, Rolf Koehler, Smadar Avigad, Sarah Elitzur, Rupert Handgretinger, Vladimir Benes, Joachim Weischenfeldt, Jan O. Korbel, Martina U. Muckenthaler, and Andreas E. Kulozik

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Relapsed precursor T-cell acute lymphoblastic leukemia is characterized by resistance against chemotherapy and is frequently fatal. We aimed at understanding the molecular mechanisms resulting in relapse of T-cell acute lymphoblastic leukemia and analyzed 13 patients at first diagnosis, remission and relapse by whole exome sequencing, targeted ultra-deep sequencing, multiplex ligation dependent probe amplification and DNA methylation array. Compared to primary T-cell acute lymphoblastic leukemia, in relapse the number of single nucleotide variants and small insertions and deletions approximately doubled from 11.5 to 26. Targeted ultra-deep sequencing sensitively detected subclones that were selected for in relapse. The mutational pattern defined two types of relapses. While both are characterized by selection of subclones and acquisition of novel mutations, ‘type 1’ relapse derives from the primary leukemia whereas ‘type 2’ relapse originates from a common pre-leukemic ancestor. Relapse-specific changes included activation of the nucleotidase NT5C2 resulting in resistance to chemotherapy and mutations of epigenetic modulators, exemplified by SUZ12, WHSC1 and SMARCA4. While mutations present in primary leukemia and in relapse were enriched for known drivers of leukemia, relapse-specific changes revealed an association with general cancer-promoting mechanisms. This study thus identifies mechanisms that drive progression of pediatric T-cell acute lymphoblastic leukemia to relapse and may explain the characteristic treatment resistance of this condition.

Published

2015

50. Genomic Analysis and Isolation of RNA Polymerase II Dependent Promoters from Spodoptera frugiperda.

Author

Maren Bleckmann, Markus H-Y Fritz, Sabin Bhuju, Michael Jarek, Margitta Schürig, Robert Geffers, Vladimir Benes, Hüseyin Besir, and Joop van den Heuvel

Subjects

Medicine, Science

Abstract

The Baculoviral Expression Vector System (BEVS) is the most commonly used method for high expression of recombinant protein in insect cells. Nevertheless, expression of some target proteins--especially those entering the secretory pathway--provides a severe challenge for the baculovirus infected insect cells, due to the reorganisation of intracellular compounds upon viral infection. Therefore, alternative strategies for recombinant protein production in insect cells like transient plasmid-based expression or stable expression cell lines are becoming more popular. However, the major bottleneck of these systems is the lack of strong endogenous polymerase II dependent promoters, as the strong baculoviral p10 and polH promoters used in BEVS are only functional in presence of the viral transcription machinery during the late phase of infection. In this work we present a draft genome and a transcriptome analysis of Sf21 cells for the identification of the first known endogenous Spodoptera frugiperda promoters. Therefore, putative promoter sequences were identified and selected because of high mRNA level or in analogy to other strong promoters in other eukaryotic organism. The chosen endogenous Sf21 promoters were compared to early viral promoters for their efficiency to trigger eGFP expression using transient plasmid based transfection in a BioLector Microfermentation system. Furthermore, promoter activity was not only shown in Sf21 cells but also in Hi5 cells. The novel endogenous Sf21 promoters were ranked according to their activity and expand the small pool of available promoters for stable insect cell line development and transient plasmid expression in insect cells. The best promoter was used to improve plasmid based transient transfection in insect cells substantially.

Published

2015