TY - THES A1 - Romanov, Natalie T1 - Characterizing Variation of Protein Complexes and Functional Modules on a Temporal Scale and across Individuals T1 - Charakterisierung der Variation von Proteinkomplexen und funktionellen Modulen im zeitlichen Kontext und zwischen Individuen N2 - A fundamental question in current biology concerns the translational mechanisms leading from genetic variability to phenotypes. Technologies have evolved to the extent that they can efficiently and economically determine an individual’s genomic composition, while at the same time big data on clinical profiles and diagnostics have substantially accumulated. Genome-wide association studies linking genomic loci to certain traits, however, remain limited in their capacity to explain the cellular mechanisms that underlie the given association. For most associations, gene expression has been blamed; yet given that transcript and protein abundance oftentimes do not correlate, that finding does not necessarily decrypt the underlying mechanism. Thus, the integration of further information is crucial to establish a model that could prove more accurate in predicting genotypic effects on the human organism. In this work we describe the so-called proteotype as a feature of the cell that could provide a substantial link between genotype and phenotype. Rather than looking at the proteome as a set of independent molecules, we demonstrate a consistent modular architecture of the proteome that is driven by molecular cooperativity. Functional modules, especially protein complexes, can be further interrogated for differences between individuals and tackled as imprints of genetic and environmental variability. We also show that subtle stoichiometric changes of protein modules could have broader effects on the cellular system, such as the transport of specific molecular cargos. The presented work also delineates to what extent temporal events and processes influence the stoichiometry of protein complexes and functional modules. The re-wiring of the glycolytic pathway for example is illustrated as a potential cause for an increased Warburg effect during the ageing of the human bone marrow. On top of analyzing protein abundances we also interrogate proteome dynamics in terms of stability and solubility transitions during the short temporal progression of the cell cycle. One of our main observations in the thesis encompass the delineation of protein complexes into respective sub-complexes according to distinct stability patterns during the cell cycle. This has never been demonstrated before, and is functionally relevant for our understanding of the dis- and assembly of large protein modules. The insights presented in this work imply that the proteome is more than the sum of its parts, and primarily driven by variability in entire protein ensembles and their cooperative nature. Analyzing protein complexes and functional modules as molecular reflections of genetic and environmental variations could indeed prove to be a stepping stone in closing the gap between genotype and phenotype and customizing clinical treatments in the future. N2 - Eine fundamentale Frage in der heutigen biologischen Forschung ist durch welche Mechanismen eine gebenene genetische Variation sich in einem Phänotyp äußert. Etliche Technologien können heutzutage effizient und ökonomisch die genomische Komposition eines Individuals mit beispielloser Genaugikeit aufschlüsseln. Gleichzeitig gibt es wesentliche Erfolge und Bemühungen, große Datenmengen von Patienten zu sammeln, sowohl klinische Profile, als auch Diagnosen. Es gibt bereits mehrere genomweite Assoziationsstudien, die auf spezifische genomische Loci hinweisen, die womöglich einem bestimmenten phänotypischen Merkmalen zugrunde liegen. Obwohl für die meisten genetischen Assoziationen, eine veränderte Genexpression oftmals als Ursache diskutiert wird, ist dies wahrscheinlich nur ein Teil des zugrundeliegenden Mechanismus. Wir können dies annehmen, da RNA-Transkripte nicht unbedingt mit ihrem Protein-Produkt korrelieren aufgrund von post-transkriptioneller und translationeller Regulation. Um dementsprechend ein Modell zu etablieren, das die genotypischen Effekte auf den human Organismus akkurat vorhersagen kann, ist eine Integration von mehreren zellulären Informationsschichten notwendig. In der folgenden Arbeit beschreiben wir den sogenannten Proteotyp als ein zelluläres Merkmal, das eine substanzielle Verknüpfung zwischen dem Genotyp und dem Phänotyp eines Individuums schaffen könnte. Statt das Proteom als ein Set unabhängiger Moleküle zu betrachten, zeigen wir eine konsistent moduläre Architektur des Proteoms auf, das durch die molekulare Kooperativität zustande kommt. Funktionelle Module, v.a. Proteinkomplexe, können weiters auf Unterschiede zwischen Individuen untersucht werden, sowie deren Variabilität aufgrund genetischer oder umweltbedingter Ursachen. Wir demonstrieren u.a. auch, dass leichte stöchiometrische Veränderungen in solchen Modulen zu weitläufigen Effekten im zellulären Haushalt führen können, z.B. im Transport von spezifischen Molekülen. Die vorgestellte Arbeit beschreibt allerdings auch inwieweit temporäre Ereignisse und Prozesse die Stöchiometrie von Proteinkomplexen und funktionellen Modulen beeinflussen. Wir zeigen z.B. auf, dass eine Veränderung in der glycolytischen Enzym-Stöchiometrie die Ursache für den Warburgeffekt in gealterten Zellen des humanen Knochenmarks darstellen könnte. Neben der Analyse von Protein-Abundanzen untersucht die vorliegende Arbeit Proteomdynamik auch in Hinblick auf Stabilitäts- und Löslichkeitsveränderungen von Proteine in kürzeren Zeitabläufen wie den Zellzyklus. Wir können dabei feststellen, dass Untereinheiten von größeren Proteinkomplexen verschiedene Stabilitätsmuster aufweisen. Dies ist durchaus eine neue Erkennis, die weittragende Folgen für unser Verständnis des Ab- und Aufbauprozesses von Proteinkomplexen haben könnte. Die Einblicke, die aus dieser Arbeit gewonnen werden können, implizieren in jedem Falle, dass das Proteom mehr als die Summe der Einzelteile darstellt, und hauptsächlich durch die Variabilität von gesamten Proteinensembls und deren Kooperativität bestimmt wird. Proteinkomplexe und funktionelle Module sollten daher als molekulare Reflektionen von genetisch- und umweltbedingter Variation betrachtet werden. Solch ein Perspektivenwechsel könnte damit die Möglichkeit bieten eine mechanistische Verknüpfung von Genotyp und Phänotyp zu gewährleisten, und ein Fundament für zukünftige individuell angepasste klinische Behandlungen darstellen. KW - Proteotype KW - Proteomics Analysis of Complexes Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-168139 ER - TY - JOUR A1 - Otto, C. A1 - Schmidt, S. A1 - Kastner, C. A1 - Denk, S. A1 - Kettler, J. A1 - Müller, N. A1 - Germer, C.T. A1 - Wolf, E. A1 - Gallant, P. A1 - Wiegering, A. T1 - Targeting bromodomain-containing protein 4 (BRD4) inhibits MYC expression in colorectal cancer cells JF - Neoplasia N2 - The transcriptional regulator BRD4 has been shown to be important for the expression of several oncogenes including MYC. Inhibiting of BRD4 has broad antiproliferative activity in different cancer cell types. The small molecule JQ1 blocks the interaction of BRD4 with acetylated histones leading to transcriptional modulation. Depleting BRD4 via engineered bifunctional small molecules named PROTACs (proteolysis targeting chimeras) represents the next-generation approach to JQ1-mediated BRD4 inhibition. PROTACs trigger BRD4 for proteasomale degradation by recruiting E3 ligases. The aim of this study was therefore to validate the importance of BRD4 as a relevant target in colorectal cancer (CRC) cells and to compare the efficacy of BRD4 inhibition with BRD4 degradation on downregulating MYC expression. JQ1 induced a downregulation of both MYC mRNA and MYC protein associated with an antiproliferative phenotype in CRC cells. dBET1 and MZ1 induced degradation of BRD4 followed by a reduction in MYC expression and CRC cell proliferation. In SW480 cells, where dBET1 failed, we found significantly lower levels of the E3 ligase cereblon, which is essential for dBET1-induced BRD4 degradation. To gain mechanistic insight into the unresponsiveness to dBET1, we generated dBET1-resistant LS174t cells and found a strong downregulation of cereblon protein. These findings suggest that inhibition of BRD4 by JQ1 and degradation of BRD4 by dBET1 and MZ1 are powerful tools for reducing MYC expression and CRC cell proliferation. In addition, downregulation of cereblon may be an important mechanism for developing dBET1 resistance, which can be evaded by incubating dBET1-resistant cells with JQ1 or MZ1. KW - Cancer Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-202451 VL - 21 IS - 11 ER - TY - JOUR A1 - Drescher, Nora A1 - Klein, Alexandra-Maria A1 - Schmitt, Thomas A1 - Leonhardt, Sara Diana T1 - A clue on bee glue: New insight into the sources and factors driving resin intake in honeybees (Apis mellifera) JF - PLoS ONE N2 - Honeybees (Apis mellifera) are threatened by numerous pathogens and parasites. To prevent infections they apply cooperative behavioral defenses, such as allo-grooming and hygiene, or they use antimicrobial plant resin. Resin is a chemically complex and highly variable mixture of many bioactive compounds. Bees collect the sticky material from different plant species and use it for nest construction and protection. Despite its importance for colony health, comparatively little is known about the precise origins and variability in resin spectra collected by honeybees. To identify the botanical resin sources of A. mellifera in Western Europe we chemically compared resin loads of individual foragers and tree resins. We further examined the resin intake of 25 colonies from five different apiaries to assess the effect of location on variation in the spectra of collected resin. Across all colonies and apiaries, seven distinct resin types were categorized according to their color and chemical composition. Matches between bee-collected resin and tree resin indicated that bees used poplar (Populus balsamifera, P. x canadensis), birch (Betula alba), horse chestnut (Aesculus hippocastanum) and coniferous trees (either Picea abies or Pinus sylvestris) as resin sources. Our data reveal that honeybees collect a comparatively broad and variable spectrum of resin sources, thus assuring protection against a variety of antagonists sensitive to different resins and/or compounds. We further unravel distinct preferences for specific resins and resin chemotypes, indicating that honeybees selectively search for bioactive resin compounds. KW - Honey bees KW - Poplars KW - Trees KW - Forests KW - Chemical composition KW - Bees KW - Conifers KW - Phenols Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-200935 VL - 14 IS - 2 ER - TY - JOUR A1 - Lechermeier, Carina G. A1 - Zimmer, Frederic A1 - Lüffe, Teresa M. A1 - Lesch, Klaus-Peter A1 - Romanos, Marcel A1 - Lillesaar, Christina A1 - Drepper, Carsten T1 - Transcript analysis of zebrafish GLUT3 genes, slc2a3a and slc2a3b, define overlapping as well as distinct expression domains in the zebrafish (Danio rerio) central nervous system JF - Frontiers in Molecular Neuroscience N2 - The transport of glucose across the cell plasma membrane is vital to most mammalian cells. The glucose transporter (GLUT; also called SLC2A) family of transmembrane solute carriers is responsible for this function in vivo. GLUT proteins encompass 14 different isoforms in humans with different cell type-specific expression patterns and activities. Central to glucose utilization and delivery in the brain is the neuronally expressed GLUT3. Recent research has shown an involvement of GLUT3 genetic variation or altered expression in several different brain disorders, including Huntington’s and Alzheimer’s diseases. Furthermore, GLUT3 was identified as a potential risk gene for multiple psychiatric disorders. To study the role of GLUT3 in brain function and disease a more detailed knowledge of its expression in model organisms is needed. Zebrafish (Danio rerio) has in recent years gained popularity as a model organism for brain research and is now well-established for modeling psychiatric disorders. Here, we have analyzed the sequence of GLUT3 orthologs and identified two paralogous genes in the zebrafish, slc2a3a and slc2a3b. Interestingly, the Glut3b protein sequence contains a unique stretch of amino acids, which may be important for functional regulation. The slc2a3a transcript is detectable in the central nervous system including distinct cellular populations in telencephalon, diencephalon, mesencephalon and rhombencephalon at embryonic and larval stages. Conversely, the slc2a3b transcript shows a rather diffuse expression pattern at different embryonic stages and brain regions. Expression of slc2a3a is maintained in the adult brain and is found in the telencephalon, diencephalon, mesencephalon, cerebellum and medulla oblongata. The slc2a3b transcripts are present in overlapping as well as distinct regions compared to slc2a3a. Double in situ hybridizations were used to demonstrate that slc2a3a is expressed by some GABAergic neurons at embryonic stages. This detailed description of zebrafish slc2a3a and slc2a3b expression at developmental and adult stages paves the way for further investigations of normal GLUT3 function and its role in brain disorders. KW - glucose transporter KW - nervous system KW - brain disorders KW - psychiatric disorders KW - brain development KW - GABA KW - GAD1 Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-201797 VL - 12 IS - 199 ER - TY - JOUR A1 - Cecil, Alexander A1 - Gentschev, Ivaylo A1 - Adelfinger, Marion A1 - Dandekar, Thomas A1 - Szalay, Aladar A. T1 - Vaccinia virus injected human tumors: oncolytic virus efficiency predicted by antigen profiling analysis fitted boolean models JF - Bioengineered N2 - Virotherapy on the basis of oncolytic vaccinia virus (VACV) strains is a promising approach for cancer therapy. Recently, we showed that the oncolytic vaccinia virus GLV-1h68 has a therapeutic potential in treating human prostate and hepatocellular carcinomas in xenografted mice. In this study, we describe the use of dynamic boolean modeling for tumor growth prediction of vaccinia virus-injected human tumors. Antigen profiling data of vaccinia virus GLV-1h68-injected human xenografted mice were obtained, analyzed and used to calculate differences in the tumor growth signaling network by tumor type and gender. Our model combines networks for apoptosis, MAPK, p53, WNT, Hedgehog, the T-killer cell mediated cell death, Interferon and Interleukin signaling networks. The in silico findings conform very well with in vivo findings of tumor growth. Similar to a previously published analysis of vaccinia virus-injected canine tumors, we were able to confirm the suitability of our boolean modeling for prediction of human tumor growth after virus infection in the current study as well. In summary, these findings indicate that our boolean models could be a useful tool for testing of the efficacy of VACV-mediated cancer therapy already before its use in human patients. KW - boolean modeling KW - oncolytic virus KW - human xenografted mouse models KW - cancer therapy Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-200507 VL - 10 IS - 1 ER - TY - JOUR A1 - Derakhshani, Shaghayegh A1 - Kurz, Andreas A1 - Japtok, Lukasz A1 - Schumacher, Fabian A1 - Pilgram, Lisa A1 - Steinke, Maria A1 - Kleuser, Burkhard A1 - Sauer, Markus A1 - Schneider-Schaulies, Sibylle A1 - Avota, Elita T1 - Measles virus infection fosters dendritic cell motility in a 3D environment to enhance transmission to target cells in the respiratory epithelium JF - Frontiers in Immunology N2 - Transmission of measles virus (MV) from dendritic to airway epithelial cells is considered as crucial to viral spread late in infection. Therefore, pathways and effectors governing this process are promising targets for intervention. To identify these, we established a 3D respiratory tract model where MV transmission by infected dendritic cells (DCs) relied on the presence of nectin-4 on H358 lung epithelial cells. Access to recipient cells is an important prerequisite for transmission, and we therefore analyzed migration of MV-exposed DC cultures within the model. Surprisingly, enhanced motility toward the epithelial layer was observed for MV-infected DCs as compared to their uninfected siblings. This occurred independently of factors released from H358 cells indicating that MV infection triggered cytoskeletal remodeling associated with DC polarization enforced velocity. Accordingly, the latter was also observed for MV-infected DCs in collagen matrices and was particularly sensitive to ROCK inhibition indicating infected DCs preferentially employed the amoeboid migration mode. This was also implicated by loss of podosomes and reduced filopodial activity both of which were retained in MV-exposed uninfected DCs. Evidently, sphingosine kinase (SphK) and sphingosine-1-phosphate (S1P) as produced in response to virus-infection in DCs contributed to enhanced velocity because this was abrogated upon inhibition of sphingosine kinase activity. These findings indicate that MV infection promotes a push-and-squeeze fast amoeboid migration mode via the SphK/S1P system characterized by loss of filopodia and podosome dissolution. Consequently, this enables rapid trafficking of virus toward epithelial cells during viral exit. KW - dendritic cell KW - cell migration KW - measles virus KW - 3D tissue model KW - sphingosine-1-phosphate Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-201818 VL - 10 IS - 1294 ER - TY - JOUR A1 - Paponov, Ivan A. A1 - Dindas , Julian A1 - Król , Elżbieta A1 - Friz, Tatyana A1 - Budnyk, Vadym A1 - Teale, William A1 - Paponov, Martina A1 - Hedrich , Rainer A1 - Palme, Klaus T1 - Auxin-Induced plasma membrane depolarization is regulated by Auxin transport and not by AUXIN BINDING PROTEIN1 JF - Frontiers in Plant Science N2 - Auxin is a molecule, which controls many aspects of plant development through both transcriptional and non-transcriptional signaling responses. AUXIN BINDING PROTEIN1 (ABP1) is a putative receptor for rapid non-transcriptional auxin-induced changes in plasma membrane depolarization and endocytosis rates. However, the mechanism of ABP1-mediated signaling is poorly understood. Here we show that membrane depolarization and endocytosis inhibition are ABP1-independent responses and that auxin-induced plasma membrane depolarization is instead dependent on the auxin influx carrier AUX1. AUX1 was itself not involved in the regulation of endocytosis. Auxin-dependent depolarization of the plasma membrane was also modulated by the auxin efflux carrier PIN2. These data establish a new connection between auxin transport and non-transcriptional auxin signaling. KW - auxin KW - ABP1 KW - plasma membrane depolarization KW - AUX1 KW - endocytosis Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-195914 SN - 1664-462X VL - 9 ER - TY - JOUR A1 - Roth, Nicolas A1 - Doerfler, Inken A1 - Bässler, Claus A1 - Blaschke, Markus A1 - Bussler, Heinz A1 - Gossner, Martin M. A1 - Heideroth, Antje A1 - Thorn, Simon A1 - Weisser, Wolfgang W. A1 - Müller, Jörg T1 - Decadal effects of landscape-wide enrichment of dead wood on saproxylic organisms in beech forests of different historic management intensity JF - Diversity and Distributions N2 - Aim: European temperate forests have lost dead wood and the associated biodiversity owing to intensive management over centuries. Nowadays, some of these forests are being restored by enrichment with dead wood, but mostly only at stand scales. Here, we investigated effects of a seminal dead-wood enrichment strategy on saproxylic organisms at the landscape scale. Location: Temperate European beech forest in southern Germany. Methods: In a before-after control-impact design, we compared assemblages and gamma diversities of saproxylic organisms in strictly protected old-growth forest areas (reserves) and historically moderately and intensively managed forest areas before and a decade after starting a landscape-wide strategy of dead-wood enrichment. Results: Before enrichment with dead wood, the gamma diversity of saproxylic organisms in historically intensively managed forest stands was significantly lower than in reserves and historically moderately managed forest stands; this difference disappeared after 10 years of dead-wood enrichment. The species composition of beetles in forest stands of the three historical management intensities differed before the enrichment strategy, but a decade thereafter, the species compositions of previously intensively logged and forest reserve plots were similar. However, the differences in fungal species composition between historical management categories before and after 10 years of enrichment persisted. Main conclusions: Our results demonstrate that intentional enrichment of dead wood at the landscape scale is a powerful tool for rapidly restoring saproxylic beetle communities and for restoring wood-inhabiting fungal communities, which need longer than a decade for complete restoration. We propose that a strategy of area-wide active restoration combined with some permanent strict refuges is a promising means of promoting the biodiversity of age-long intensively managed Central European beech forests. KW - dead-wood enrichment KW - integrative management strategy KW - land sharing KW - lowland beech forests KW - saproxylic organisms Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-227061 VL - 25 IS - 3 ER - TY - JOUR A1 - Liedtke, Daniel A1 - Orth, Melanie A1 - Meissler, Michelle A1 - Geuer, Sinje A1 - Knaup, Sabine A1 - Köblitz, Isabell A1 - Klopocki, Eva T1 - ECM alterations in fndc3a (fibronectin domain containing protein 3A) deficient zebrafish cause temporal fin development and regeneration defects JF - Scientific Reports N2 - Fin development and regeneration are complex biological processes that are highly relevant in teleost fish. They share genetic factors, signaling pathways and cellular properties to coordinate formation of regularly shaped extremities. Especially correct tissue structure defined by extracellular matrix (ECM) formation is essential. Gene expression and protein localization studies demonstrated expression of fndc3a (fibronectin domain containing protein 3a) in both developing and regenerating caudal fins of zebrafish (Danio rerio). We established a hypomorphic fndc3a mutant line (fndc3a\(^{wue1/wue1}\)) via CRISPR/Cas9, exhibiting phenotypic malformations and changed gene expression patterns during early stages of median fin fold development. These developmental effects are mostly temporary, but result in a fraction of adults with permanent tail fin deformations. In addition, caudal fin regeneration in adult fndc3a\(^{wue1/wue1}\) mutants is hampered by interference with actinotrichia formation and epidermal cell organization. Investigation of the ECM implies that loss of epidermal tissue structure is a common cause for both of the observed defects. Our results thereby provide a molecular link between these developmental processes and foreshadow Fndc3a as a novel temporal regulator of epidermal cell properties during extremity development and regeneration in zebrafish. KW - Extracellular matrix KW - Limb development KW - Self-renewal Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-202141 VL - 9 ER - TY - JOUR A1 - Streinzer, Martin A1 - Chakravorty, Jharna A1 - Neumayer, Johann A1 - Megu, Karsing A1 - Narah, Jaya A1 - Schmitt, Thomas A1 - Bharti, Himender A1 - Spaethe, Johannes A1 - Brockmann, Axel T1 - Species composition and elevational distribution of bumble bees (Hymenoptera, Apidae, Bombus Latreille) in the East Himalaya, Arunachal Pradesh, India JF - ZooKeys N2 - The East Himalaya is one of the world’s most biodiverse ecosystems. However, very little is known about the abundance and distribution of many plant and animal taxa in this region. Bumble bees are a group of cold-adapted and high elevation insects that fulfil an important ecological and economical function as pollinators of wild and agricultural flowering plants and crops. The Himalayan mountain range provides ample suitable habitats for bumble bees. Systematic study of Himalayan bumble bees began a few decades ago and the main focus has centred on the western region, while the eastern part of the mountain range has received little attention and only a few species have been verified. During a three-year survey, more than 700 bumble bee specimens of 21 species were collected in Arunachal Pradesh, the largest of the north-eastern states of India. The material included a range of species that were previously known from a limited number of collected specimens, which highlights the unique character of the East Himalayan ecosystem. Our results are an important first step towards a future assessment of species distribution, threat, and conservation. Clear elevation patterns of species diversity were observed, which raise important questions about the functional adaptations that allow bumble bees to thrive in this particularly moist region in the East Himalaya. KW - Alpine habitats KW - Apidae KW - conservation KW - global change KW - insect collection KW - pollination Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-201937 VL - 851 ER -