Search

Your search keyword '"Mario Dejung"' showing total 12 results
Start Over Author "Mario Dejung" Language undetermined
12 results on '"Mario Dejung"'

3. Class I HDAC overexpression promotes temozolomide resistance in glioma cells by regulating RAD18 expression

Author

Daniela Hanisch, Andrea Krumm, Tamara Diehl, Carla M. Stork, Mario Dejung, Falk Butter, Ella Kim, Walburgis Brenner, Gerhard Fritz, Thomas G. Hofmann, and Wynand P. Roos

Subjects
Cancer Research, Brain Neoplasms, Ubiquitin-Protein Ligases, Immunology, 610 Medizin, Cell Biology, Glioma, Histone Deacetylases, DNA-Binding Proteins, Cellular and Molecular Neuroscience, O(6)-Methylguanine-DNA Methyltransferase, Drug Resistance, Neoplasm, 610 Medical sciences, Cell Line, Tumor, Temozolomide, Humans, Antineoplastic Agents, Alkylating
Abstract

Overexpression of histone deacetylases (HDACs) in cancer commonly causes resistance to genotoxic-based therapies. Here, we report on the novel mechanism whereby overexpressed class I HDACs increase the resistance of glioblastoma cells to the SN1 methylating agent temozolomide (TMZ). The chemotherapeutic TMZ triggers the activation of the DNA damage response (DDR) in resistant glioma cells, leading to DNA lesion bypass and cellular survival. Mass spectrometry analysis revealed that the catalytic activity of class I HDACs stimulates the expression of the E3 ubiquitin ligase RAD18. Furthermore, the data showed that RAD18 is part of the O6-methylguanine-induced DDR as TMZ induces the formation of RAD18 foci at sites of DNA damage. Downregulation of RAD18 by HDAC inhibition prevented glioma cells from activating the DDR upon TMZ exposure. Lastly, RAD18 or O6-methylguanine-DNA methyltransferase (MGMT) overexpression abolished the sensitization effect of HDAC inhibition on TMZ-exposed glioma cells. Our study describes a mechanism whereby class I HDAC overexpression in glioma cells causes resistance to TMZ treatment. HDACs accomplish this by promoting the bypass of O6-methylguanine DNA lesions via enhancing RAD18 expression. It also provides a treatment option with HDAC inhibition to undermine this mechanism.

Published
2021

4. Persistence behavior in African trypanosomes during adipose tissue colonization

Author

Mariana Sequeira, Mario Dejung, Luisa M. Figueiredo, Tiago Bizarra-Rebelo, Erida Gjini, Mariana De Niz, Fabio Bento, Falk Butter, Joao Ferreira, Frédéric Bringaud, and Sandra Trindade

Subjects
Persistence (psychology), Adipose tissue, Colonization, Biology, Microbiology
Abstract

Persistence is an important and ancient evolutionary adaptive mechanism used by several organisms to survive environmental changes. During its life cycle Trypanosoma brucei, the causative agent of sleeping sickness, inhabits several microenvironments, including the adipose tissue. Here we used a mathematical model to investigate how this large parasite reservoir contributes to the global parasite population dynamics. By modeling the total number of parasites and the proportion of transmissible forms in the blood and the adipose tissue during an infection, we estimated that adipose tissue parasites proliferate more slowly. Intravital microscopy of parasites stained with CellTraceTM Violet confirmed that adipose tissue forms divide twice slower than the blood counterparts. Consistent with a reduced growth, proteome analysis revealed that adipose tissue forms undergo a metabolic adaptation and downregulate proteins involved in translation. Quantification of protein synthesis using L-Homopropargylglycine confirmed that this rate is 24% lower in adipose tissue forms. We propose that in adipose tissue, T. brucei acquire a persistence-like behavior, which could contribute to disease chronicity and treatment failure.

Published
2021
Full Text
View/download PDF

5. An Attenuated Strain of Human Cytomegalovirus for the Establishment of a Subviral Particle Vaccine

Author

Steffi Krauter, Nicole Büscher, Eric Bräuchle, Samira Ortega Iannazzo, Inessa Penner, Nadine Krämer, Patricia Gogesch, Simone Thomas, Marina Kreutz, Mario Dejung, Anja Freiwald, Falk Butter, Zoe Waibler, and Bodo Plachter

Subjects
Pharmacology, human cytomegalovirus, vaccine, subviral particles, dense bodies, conditional expression, ddFKBP, IE1/IE2, UL25, Infectious Diseases, Drug Discovery, Immunology, Pharmacology (medical)
Abstract

Human cytomegalovirus (HCMV) infection is associated with severe disease conditions either following congenital transmission of the virus or viral reactivation in immunosuppressed individuals. Consequently, the establishment of a protective vaccine is of high medical need. Several candidates have been tested in preclinical and clinical studies, yet no vaccine has been licensed. Subviral dense bodies (DB) are a promising vaccine candidate. We have recently provided a GMP-compliant protocol for the production of DB, based on a genetically modified version of the HCMV laboratory strain Towne, expressing the pentameric complex of envelope protein gH-gL-pUL128-131 (Towne-UL130rep). In this work, we genetically attenuated Towne-UL130rep by abrogating the expression of the tegument protein pUL25 and by fusing the destabilizing domain ddFKBP to the N-terminus of the IE1- and IE2-proteins of HCMV. The resulting strain, termed TR-VAC, produced high amounts of DB under IE1/IE2 repressive conditions and concomitant supplementation of the viral terminase inhibitor letermovir to the producer cell culture. TR-VAC DB retained the capacity to induce neutralizing antibodies. A complex pattern of host protein induction was observed by mass spectrometry following exposure of primary human monocytes with TR-VAC DB. Human monocyte-derived dendritic cells (DC) moderately increased the expression of activation markers and MHC molecules upon stimulation with TR-VAC DB. In a co-culture with autologous T cells, the TR-VAC DB-stimulated DC induced a robust HCMV-specific T cell-activation and –proliferation. Exposure of donor-derived monocytic cells to DB led to the activation of a rapid innate immune response. This comprehensive data set thus shows that TR-VAC is an optimal attenuated seed virus strain for the production of a DB vaccine to be tested in clinical studies.

Published
2022
Full Text
View/download PDF

6. Fertility Relevance Probability Analysis Shortlists Genetic Markers for Male Fertility Impairment

Author

Holger Herlyn, Mario Dejung, Hermann M. Behre, Falk Butter, Hans Zischler, Julia Schumacher, and Thomas Greither

Subjects
Infertility, Genetic Markers, Male, media_common.quotation_subject, Fertility, Biology, Logistic regression, Male infertility, 03 medical and health sciences, DAZL, Mice, Testis, Genetics, medicine, Animals, Humans, Amino Acid Sequence, Molecular Biology, Gene, Genetics (clinical), Genetic Association Studies, Infertility, Male, 030304 developmental biology, media_common, Probability, Mice, Knockout, 0303 health sciences, 030305 genetics & heredity, medicine.disease, Phenotype, Logistic Models, Genetic marker
Abstract

Impairment of male fertility is one of the major public health issues worldwide. Nevertheless, genetic causes of male sub- and infertility can often only be suspected due to the lack of reliable and easy-to-use routine tests. Yet, the development of a marker panel is complicated by the large quantity of potentially predictive markers. Actually, hundreds or even thousands of genes could have fertility relevance. Thus, a systematic method enabling a selection of the most predictive markers out of the many candidates is required. As a criterion for marker selection, we derived a gene-specific score, which we refer to as fertility relevance probability (FRP). For this purpose, we first categorized 2,753 testis-expressed genes as either candidate markers or non-candidates, according to phenotypes in male knockout mice. In a parallel approach, 2,502 genes were classified as candidate markers or non-candidates based on phenotypes in men. Subsequently, we conducted logistic regression analyses with evolutionary rates of genes (dN/dS), transcription levels in testis relative to other organs, and connectivity of the encoded proteins in a protein-protein interaction network as covariates. In confirmation of the procedure, FRP values showed the expected pattern, thus being overall higher in genes with known relevance for fertility than in their counterparts without corresponding evidence. In addition, higher FRP values corresponded with an increased dysregulation of protein abundance in spermatozoa of 37 men with normal and 38 men with impaired fertility. Present analyses resulted in a ranking of genes according to their probable predictive power as candidate markers for male fertility impairment. Thus, AKAP4, TNP1, DAZL, BRDT, DMRT1, SPO11, ZPBP, HORMAD1, and SMC1B are prime candidates toward a marker panel for male fertility impairment. Additional candidate markers are DDX4, SHCBP1L, CCDC155, ODF1, DMRTB1, ASZ1, BOLL, FKBP6, SLC25A31, PRSS21, and RNF17. FRP inference additionally provides clues for potential new markers, thereunder TEX37 and POU4F2. The results of our logistic regression analyses are freely available at the PreFer Genes website (https://prefer-genes.uni-mainz.de/).

Published
2020

7. The developmental proteome of Drosophila melanogaster

Author

Falk Butter, Sergi Sayols, Nuria Casas-Vila, Tina Altenhein, Benjamin Altenhein, Jean-Yves Roignant, Nadja Dinges, Mario Dejung, Dennis Kappei, and Alina Bluhm

Subjects
0301 basic medicine, biology, ved/biology, ved/biology.organism_classification_rank.species, Quantitative proteomics, Computational biology, Proteomics, biology.organism_classification, Transcriptome, 03 medical and health sciences, 030104 developmental biology, Genetic model, Proteome, Genetics, Drosophila melanogaster, Model organism, Genetics (clinical), Drosophila Protein
Abstract

Drosophila melanogaster is a widely used genetic model organism in developmental biology. While this model organism has been intensively studied at the RNA level, a comprehensive proteomic study covering the complete life cycle is still missing. Here, we apply label-free quantitative proteomics to explore proteome remodeling across Drosophila’s life cycle, resulting in 7952 proteins, and provide a high temporal-resolved embryogenesis proteome of 5458 proteins. Our proteome data enabled us to monitor isoform-specific expression of 34 genes during development, to identify the pseudogene Cyp9f3Ψ as a protein-coding gene, and to obtain evidence of 268 small proteins. Moreover, the comparison with available transcriptomic data uncovered examples of poor correlation between mRNA and protein, underscoring the importance of proteomics to study developmental progression. Data integration of our embryogenesis proteome with tissue-specific data revealed spatial and temporal information for further functional studies of yet uncharacterized proteins. Overall, our high resolution proteomes provide a powerful resource and can be explored in detail in our interactive web interface.

Published
2017
Full Text
View/download PDF

8. Trypanosomes can initiate nuclear export co-transcriptionally

Author

Carina, Goos, Mario, Dejung, Ann M, Wehman, Elisabeth, M-Natus, Johannes, Schmidt, Jack, Sunter, Markus, Engstler, Falk, Butter, and Susanne, Kramer

Subjects
Cell Nucleus, Cytoplasm, Trypanosoma, RNA Splicing, Active Transport, Cell Nucleus, Nuclear Pore, Humans, RNA-Binding Proteins, RNA, Messenger, Eukaryotic Initiation Factors, Molecular Biology, Trans-Splicing
Abstract

The nuclear envelope serves as important messenger RNA (mRNA) surveillance system. In yeast and human, several control systems act in parallel to prevent nuclear export of unprocessed mRNAs. Trypanosomes lack homologues to most of the involved proteins and their nuclear mRNA metabolism is non-conventional exemplified by polycistronic transcription and mRNA processing by trans-splicing. We here visualized nuclear export in trypanosomes by intra- and intermolecular multi-colour single molecule FISH. We found that, in striking contrast to other eukaryotes, the initiation of nuclear export requires neither the completion of transcription nor splicing. Nevertheless, we show that unspliced mRNAs are mostly prevented from reaching the nucleus-distant cytoplasm and instead accumulate at the nuclear periphery in cytoplasmic nuclear periphery granules (NPGs). Further characterization of NPGs by electron microscopy and proteomics revealed that the granules are located at the cytoplasmic site of the nuclear pores and contain most cytoplasmic RNA-binding proteins but none of the major translation initiation factors, consistent with a function in preventing faulty mRNAs from reaching translation. Our data indicate that trypanosomes regulate the completion of nuclear export, rather than the initiation. Nuclear export control remains poorly understood, in any organism, and the described way of control may not be restricted to trypanosomes.

Published
2018

9. Analysis of RNA-protein interactions in vertebrate embryos using UV crosslinking approaches

Author

Karla M. Neugebauer, Vladimir Despic, Mario Dejung, and Falk Butter

Subjects
0301 basic medicine, Genetics, Messenger RNA, biology, Ultraviolet Rays, RNA, RNA-Binding Proteins, RNA-binding protein, Computational biology, Zebrafish Proteins, biology.organism_classification, Interactome, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 030104 developmental biology, Gene expression, Vertebrates, Animals, Binding site, Molecular Biology, Zebrafish, ICLIP, Protein Binding
Abstract

A decade ago, we believed that at least 300 RNA binding proteins (RBPs) were encoded in our genomes based on annotations of known or predicted RNA binding domains. Deciphering the roles of those RBPs in regulated gene expression was a vast frontier awaiting exploration. Since then, the field has developed a number of key tools that navigate the landscape of cellular RNA. These rely principally on UV crosslinking to create covalent bonds between RBPs and target RNAs in vivo , revealing not only target identities but also local binding sites upon RNA-Seq. More recently, a reverse protocol – mRNA interactome capture – has enabled the identification of the proteins that interact with mRNA. Astonishingly, the number of RBPs has grown to more than 1000, and we must now understand what they do. Here, we discuss the application of these methods to model organisms, focusing on the zebrafish Danio rerio , which provide unique biological contexts for the analysis of RBPs and their functions.

Published
2017

10. Dynamic RNA-protein interactions underlie the zebrafish maternal-to-zygotic transition

Author

Korinna Straube, Jing Zhang, Vladimir Despic, Lydia Herzel, Mengting Gu, Karla M. Neugebauer, Falk Butter, Jayanth Krishnan, Mario Dejung, and Mark Gerstein

Subjects
0301 basic medicine, Zygote, Heterogeneous Nuclear Ribonucleoprotein A1, Interactome, 03 medical and health sciences, 0302 clinical medicine, Genetics, Animals, Zebrafish, 3' Untranslated Regions, Genetics (clinical), Messenger RNA, biology, Three prime untranslated region, Research, RNA, Zebrafish Proteins, biology.organism_classification, Cell biology, MicroRNAs, 030104 developmental biology, RNA splicing, Maternal to zygotic transition, ICLIP, 030217 neurology & neurosurgery
Abstract

During the maternal-to-zygotic transition (MZT), transcriptionally silent embryos rely on post-transcriptional regulation of maternal mRNAs until zygotic genome activation (ZGA). RNA-binding proteins (RBPs) are important regulators of post-transcriptional RNA processing events, yet their identities and functions during developmental transitions in vertebrates remain largely unexplored. Using mRNA interactome capture, we identified 227 RBPs in zebrafish embryos before and during ZGA, hereby named the zebrafish MZT mRNA-bound proteome. This protein constellation consists of many conserved RBPs, some of which are potential stage-specific mRNA interactors that likely reflect the dynamics of RNA–protein interactions during MZT. The enrichment of numerous splicing factors like hnRNP proteins before ZGA was surprising, because maternal mRNAs were found to be fully spliced. To address potentially unique roles of these RBPs in embryogenesis, we focused on Hnrnpa1. iCLIP and subsequent mRNA reporter assays revealed a function for Hnrnpa1 in the regulation of poly(A) tail length and translation of maternal mRNAs through sequence-specific association with 3′ UTRs before ZGA. Comparison of iCLIP data from two developmental stages revealed that Hnrnpa1 dissociates from maternal mRNAs at ZGA and instead regulates the nuclear processing of pri-mir-430 transcripts, which we validated experimentally. The shift from cytoplasmic to nuclear RNA targets was accompanied by a dramatic translocation of Hnrnpa1 and other pre-mRNA splicing factors to the nucleus in a transcription-dependent manner. Thus, our study identifies global changes in RNA–protein interactions during vertebrate MZT and shows that Hnrnpa1 RNA-binding activities are spatially and temporally coordinated to regulate RNA metabolism during early development.

Published
2016

11. The developmental proteome of

Author

Nuria, Casas-Vila, Alina, Bluhm, Sergi, Sayols, Nadja, Dinges, Mario, Dejung, Tina, Altenhein, Dennis, Kappei, Benjamin, Altenhein, Jean-Yves, Roignant, and Falk, Butter

Subjects
Resource, Drosophila melanogaster, Proteome, Animals, Drosophila Proteins, Gene Expression Regulation, Developmental
Abstract

Drosophila melanogaster is a widely used genetic model organism in developmental biology. While this model organism has been intensively studied at the RNA level, a comprehensive proteomic study covering the complete life cycle is still missing. Here, we apply label-free quantitative proteomics to explore proteome remodeling across Drosophila’s life cycle, resulting in 7952 proteins, and provide a high temporal-resolved embryogenesis proteome of 5458 proteins. Our proteome data enabled us to monitor isoform-specific expression of 34 genes during development, to identify the pseudogene Cyp9f3Ψ as a protein-coding gene, and to obtain evidence of 268 small proteins. Moreover, the comparison with available transcriptomic data uncovered examples of poor correlation between mRNA and protein, underscoring the importance of proteomics to study developmental progression. Data integration of our embryogenesis proteome with tissue-specific data revealed spatial and temporal information for further functional studies of yet uncharacterized proteins. Overall, our high resolution proteomes provide a powerful resource and can be explored in detail in our interactive web interface.

Published
2016

12. Two flagellar BAR domain proteins in Trypanosoma brucei with stage-specific regulation

Author

Luisa M. Figueiredo, Brooke Morriswood, Falk Butter, Mario Dejung, Nicole Eisenhuth, Christian J. Janzen, Steffen Hanselmann, Tomas Skalicky, and Zdenka Cicova

Subjects
0301 basic medicine, Male, 030106 microbiology, Trypanosoma brucei brucei, Protozoan Proteins, Flagellum, Trypanosoma brucei, Article, 03 medical and health sciences, Protein Domains, Stable isotope labeling by amino acids in cell culture, Gene Duplication, BAR domain, Animals, ddc:579, Gene, Phylogeny, Multidisciplinary, biology, Organisms, Genetically Modified, biology.organism_classification, 3. Good health, Cell biology, Mice, Inbred C57BL, 030104 developmental biology, Trypanosomiasis, African, Flagella, Proteome, Host adaptation, Cell fractionation
Abstract

Trypanosomes are masters of adaptation to different host environments during their complex life cycle. Large-scale proteomic approaches provide information on changes at the cellular level, and in a systematic way. However, detailed work on single components is necessary to understand the adaptation mechanisms on a molecular level. Here, we have performed a detailed characterization of a bloodstream form (BSF) stage-specific putative flagellar host adaptation factor Tb927.11.2400, identified previously in a SILAC-based comparative proteome study. Tb927.11.2400 shares 38% amino acid identity with TbFlabarin (Tb927.11.2410), a procyclic form (PCF) stage-specific flagellar BAR domain protein. We named Tb927.11.2400 TbFlabarin-like (TbFlabarinL), and demonstrate that it originates from a gene duplication event, which occurred in the African trypanosomes. TbFlabarinL is not essential for the growth of the parasites under cell culture conditions and it is dispensable for developmental differentiation from BSF to the PCF in vitro. We generated TbFlabarinL-specific antibodies, and showed that it localizes in the flagellum. Co-immunoprecipitation experiments together with a biochemical cell fractionation suggest a dual association of TbFlabarinL with the flagellar membrane and the components of the paraflagellar rod.

Published
2016

Catalog

Books, media, physical & digital resources
See catalog results