TY - JOUR A1 - Petruseva, Irina A1 - Naumenko, Natalia A1 - Kuper, Jochen A1 - Anarbaev, Rashid A1 - Kappenberger, Jeannette A1 - Kisker, Caroline A1 - Lavrik, Olga T1 - The Interaction Efficiency of XPD-p44 With Bulky DNA Damages Depends on the Structure of the Damage JF - Frontiers in Cell and Developmental Biology N2 - The successful elimination of bulky DNA damages via the nucleotide excision repair (NER) system is largely determined by the damage recognition step. This step consists of primary recognition and verification of the damage. The TFIIH helicase XPD plays a key role in the verification step during NER. To date, the mechanism of damage verification is not sufficiently understood and requires further detailed research. This study is a systematic investigation of the interaction of ctXPD (Chaetomium thermophilum) as well as ctXPD-ctp44 with model DNAs, which contain structurally different bulky lesions with previously estimated NER repair efficiencies. We have used ATPase and DNA binding studies to assess the interaction of ctXPD with damaged DNA. The result of the analysis of ctXPD-ctp44 binding to DNA containing fluorescent and photoactivatable lesions demonstrates the relationship between the affinity of XPD for DNAs containing bulky damages and the ability of the NER system to eliminate the damage. Photo-cross-linking of ctXPD with DNA probes containing repairable and unrepairable photoactivatable damages reveals differences in the DNA interaction efficiency in the presence and absence of ctp44. In general, the results obtained indicate the ability of ctXPD-ctp44 to interact with a damage and suggest a significant role for ctp44 subunit in the verification process. KW - nucleotide excision repair KW - XPD helicase KW - DNA damage KW - protein-DNA interaction KW - bulky damages recognition KW - photo-cross-linking Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-231806 SN - 2296-634X VL - 9 ER - TY - JOUR A1 - Peissert, Stefan A1 - Sauer, Florian A1 - Grabarczyk, Daniel B. A1 - Braun, Cathy A1 - Sander, Gudrun A1 - Poterszman, Arnaud A1 - Egly, Jean-Marc A1 - Kuper, Jochen A1 - Kisker, Caroline T1 - In TFIIH the Arch domain of XPD is mechanistically essential for transcription and DNA repair JF - Nature Communications N2 - The XPD helicase is a central component of the general transcription factor TFIIH which plays major roles in transcription and nucleotide excision repair (NER). Here we present the high-resolution crystal structure of the Arch domain of XPD with its interaction partner MAT1, a central component of the CDK activating kinase complex. The analysis of the interface led to the identification of amino acid residues that are crucial for the MAT1-XPD interaction. More importantly, mutagenesis of the Arch domain revealed that these residues are essential for the regulation of (i) NER activity by either impairing XPD helicase activity or the interaction of XPD with XPG; (ii) the phosphorylation of the RNA polymerase II and RNA synthesis. Our results reveal how MAT1 shields these functionally important residues thereby providing insights into how XPD is regulated by MAT1 and defining the Arch domain as a major mechanistic player within the XPD scaffold. KW - nucleotide excision repair KW - nuclear receptors KW - helicase KW - transactivation KW - fluorescence KW - recognition KW - subunit KW - binding KW - sulfur KW - kinease Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-229857 VL - 11 IS - 1 ER - TY - JOUR A1 - Wagner, Nicole A1 - Mott, Kristina A1 - Upcin, Berin A1 - Stegner, David A1 - Schulze, Harald A1 - Ergün, Süleyman T1 - CXCL12-abundant reticular (CAR) cells direct megakaryocyte protrusions across the bone marrow sinusoid wall JF - Cells N2 - Megakaryocytes (MKs) release platelets into the lumen of bone marrow (BM) sinusoids while remaining to reside within the BM. The morphogenetic events of this complex process are still not fully understood. We combined confocal laser scanning microscopy with transmission and serial block-face scanning electron microscopy followed by 3D-reconstruction on mouse BM tissue sections. These analyses revealed that MKs in close vicinity to BM sinusoid (BMS) wall first induce the lateral retraction of CXCL12-abundant reticular (CAR) cells (CAR), followed by basal lamina (BL) degradation enabling direct MK-sinusoidal endothelial cells (SECs) interaction. Subsequently, an endothelial engulfment starts that contains a large MK protrusion. Then, MK protrusions penetrate the SEC, transmigrate into the BMS lumen and form proplatelets that are in direct contact to the SEC surface. Furthermore, such processes are induced on several sites, as observed by 3D reconstructions. Our data demonstrate that MKs in interaction with CAR-cells actively induce BMS wall alterations, including CAR-cell retraction, BL degradation, and SEC engulfment containing a large MK protrusion. This results in SEC penetration enabling the migration of MK protrusion into the BMS lumen where proplatelets that are adherent to the luminal SEC surface are formed and contribute to platelet release into the blood circulation. KW - megakaryocytes KW - microvasculature KW - CXCL12-abundant reticular (CAR)-cells Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-234180 SN - 2073-4409 VL - 10 IS - 4 ER - TY - JOUR A1 - Harnoš, Jakub A1 - Cañizal, Maria Consuelo Alonso A1 - Jurásek, Miroslav A1 - Kumar, Jitender A1 - Holler, Cornelia A1 - Schambony, Alexandra A1 - Hanáková, Kateřina A1 - Bernatík, Ondřej A1 - Zdráhal, Zbynêk A1 - Gömöryová, Kristína A1 - Gybeľ, Tomáš A1 - Radaszkiewicz, Tomasz Witold A1 - Kravec, Marek A1 - Trantírek, Lukáš A1 - Ryneš, Jan A1 - Dave, Zankruti A1 - Fernández-Llamazares, Ana Iris A1 - Vácha, Robert A1 - Tripsianes, Konstantinos A1 - Hoffmann, Carsten A1 - Bryja, Vítězslav T1 - Dishevelled-3 conformation dynamics analyzed by FRET-based biosensors reveals a key role of casein kinase 1 JF - Nature Communications N2 - Dishevelled (DVL) is the key component of the Wnt signaling pathway. Currently, DVL conformational dynamics under native conditions is unknown. To overcome this limitation, we develop the Fluorescein Arsenical Hairpin Binder- (FlAsH-) based FRET in vivo approach to study DVL conformation in living cells. Using this single-cell FRET approach, we demonstrate that (i) Wnt ligands induce open DVL conformation, (ii) DVL variants that are predominantly open, show more even subcellular localization and more efficient membrane recruitment by Frizzled (FZD) and (iii) Casein kinase 1 ɛ (CK1ɛ) has a key regulatory function in DVL conformational dynamics. In silico modeling and in vitro biophysical methods explain how CK1ɛ-specific phosphorylation events control DVL conformations via modulation of the PDZ domain and its interaction with DVL C-terminus. In summary, our study describes an experimental tool for DVL conformational sampling in living cells and elucidates the essential regulatory role of CK1ɛ in DVL conformational dynamics. KW - biological techniques KW - cell signalling KW - phosphorylation Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-227837 VL - 10 ER - TY - JOUR A1 - Heil, Hannah S. A1 - Schreiber, Benjamin A1 - Götz, Ralph A1 - Emmerling, Monika A1 - Dabauvalle, Marie-Christine A1 - Krohne, Georg A1 - Höfling, Sven A1 - Kamp, Martin A1 - Sauer, Markus A1 - Heinze, Katrin G. T1 - Sharpening emitter localization in front of a tuned mirror JF - Light: Science & Applications N2 - Single-molecule localization microscopy (SMLM) aims for maximized precision and a high signal-to-noise ratio1. Both features can be provided by placing the emitter in front of a metal-dielectric nanocoating that acts as a tuned mirror2,3,4. Here, we demonstrate that a higher photon yield at a lower background on biocompatible metal-dielectric nanocoatings substantially improves SMLM performance and increases the localization precision by up to a factor of two. The resolution improvement relies solely on easy-to-fabricate nanocoatings on standard glass coverslips and is spectrally and spatially tunable by the layer design and wavelength, as experimentally demonstrated for dual-color SMLM in cells. KW - imaging and sensing KW - super-resolution microscopy Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-228080 VL - 7 ER - TY - JOUR A1 - Jarick, Katja J. A1 - Mokhtari, Zeinab A1 - Scheller, Lukas A1 - Hartweg, Julia A1 - Thusek, Sina A1 - Le, Duc-Dung A1 - Ranecky, Maria A1 - Shaikh, Haroon A1 - Qureischi, Musga A1 - Heinze, Katrin G. A1 - Beilhack, Andreas T1 - Photoconversion of Alloreactive T Cells in Murine Peyer’s Patches During Acute Graft-Versus-Host Disease: Tracking the Homing Route of Highly Proliferative Cells In Vivo JF - Frontiers in Immunology N2 - The regulation of immune cell migration throughout the body is essential to warrant immunosurveillance and to maintain immune homeostasis. Marking and tracking of these cells has proven important to study mechanisms of immune cell trafficking and cell interaction in vivo. Photoconversion is a well-suited technique for intravital application because it enables contactless time- and location-specific marking of cells in the tissue without surgically manipulating the microenvironment of the cells in question. However, in dividing cells the converted fluorescent protein may decline quickly. Here, we provide a detailed description of the photoconversion technique and its applicability to tracking highly proliferating T cells from the priming site of T cell activation to peripheral target organs of effector function in a preclinical model. Dendra2+ T cells were photoconverted in the Peyer’s patches during the initiation phase of acute graft-versus-host disease (GvHD) and tracked through the mesenteric lymph nodes and the peripheral blood to the small intestine with flow cytometry and intravital two-photon microscopy. Photoconverted alloreactive T cells preserved the full proliferative capacity, homing, and migration of alloreactive T cells in the intestinal lamina propria. We conclusively proved that photoconversion of highly proliferative alloreactive T cells in the Peyer’s patches is an effective tool to study trafficking of alloreactive T cells under physiologic conditions and to GvHD target tissues. This technique can also be applied to the study of immune cell tracking under inflammatory and non-inflammatory conditions. KW - T cell migration KW - acute graft-versus-host disease KW - mouse models KW - photoconversion KW - Dendra2 KW - Peyer's patch KW - in vivo cell tracking KW - lymphocyte homing Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-323309 VL - 9 ER - TY - JOUR A1 - Herster, Franziska A1 - Bittner, Zsofia A1 - Codrea, Marius Cosmin A1 - Archer, Nathan K. A1 - Heister, Martin A1 - Löffler, Markus W. A1 - Heumos, Simon A1 - Wegner, Joanna A1 - Businger, Ramona A1 - Schindler, Michael A1 - Stegner, David A1 - Schäkel, Knut A1 - Grabbe, Stephan A1 - Ghoreschi, Kamran A1 - Miller, Lloyd S. A1 - Weber, Alexander N. R. T1 - Platelets Aggregate With Neutrophils and Promote Skin Pathology in Psoriasis JF - Frontiers in Immunology N2 - Psoriasis is a frequent systemic inflammatory autoimmune disease characterized primarily by skin lesions with massive infiltration of leukocytes, but frequently also presents with cardiovascular comorbidities. Especially polymorphonuclear neutrophils (PMNs) abundantly infiltrate psoriatic skin but the cues that prompt PMNs to home to the skin are not well-defined. To identify PMN surface receptors that may explain PMN skin homing in psoriasis patients, we screened 332 surface antigens on primary human blood PMNs from healthy donors and psoriasis patients. We identified platelet surface antigens as a defining feature of psoriasis PMNs, due to a significantly increased aggregation of neutrophils and platelets in the blood of psoriasis patients. Similarly, in the imiquimod-induced experimental in vivo mouse model of psoriasis, disease induction promoted PMN-platelet aggregate formation. In psoriasis patients, disease incidence directly correlated with blood platelet counts and platelets were detected in direct contact with PMNs in psoriatic but not healthy skin. Importantly, depletion of circulating platelets in mice in vivo ameliorated disease severity significantly, indicating that both PMNs and platelets may be relevant for psoriasis pathology and disease severity. KW - psoriasis KW - neutrophil KW - platelet KW - platelet-neutrophil complexes (PNCs) KW - imiquimod Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-320175 VL - 10 ER - TY - THES A1 - Weigel [verh. Hoffmann], Mathis Leonard T1 - Thrombozytenfunktionsanalyse als potenzielles Instrument zur Früherkennung von Sepsis T1 - Platelet function analysis as a potential tool for early sepsis diagnosis N2 - Sepsis ist ein häufiges und akut lebensbedrohliches Syndrom, das eine Organfunktionsstörung in Folge einer dysregulierten Immunantwort auf eine Infektion beschreibt. Eine frühzeitige Diagnosestellung und Therapieeinleitung sind von zentraler Bedeutung für das Überleben der Patient:innen. In einer Pilotstudie konnte unsere Forschungsgruppe mittels Durchflusszytometrie eine ausgeprägte Hyporeaktivität der Thrombozyten bei Sepsis nachweisen, die einen potenziell neuen Biomarker zur Sepsis-Früherkennung darstellt. Zur Evaluation des Ausmaßes und Entstehungszeitpunktes der detektierten Thrombozytenfunktionsstörung wurden im Rahmen der vorliegenden Arbeit zusätzlich zu Patient:innen mit Sepsis (SOFA-Score ≥ 2; n=13) auch hospitalisierte Patient:innen mit einer Infektion ohne Sepsis (SOFA-Score < 2; n=12) rekrutiert. Beide Kohorten wurden zu zwei Zeitpunkten (t1: <24h; t2: Tag 5-7) im Krankheitsverlauf mittels Durchflusszytometrie und PFA-200 untersucht und mit einer gesunden Kontrollgruppe (n=28) verglichen. Phänotypische Auffälligkeiten der Thrombozyten bei Sepsis umfassten: (i) eine veränderte Expression verschiedener Untereinheiten des GPIb-IX-V-Rezeptorkomplexes, die auf ein verstärktes Rezeptor-Shedding hindeutet; (ii) ein ausgeprägtes Mepacrin-Beladungsdefizit, das auf eine zunehmend reduzierte Anzahl von δ-Granula entlang des Infektion-Sepsis Kontinuums hinweist; (iii) eine Reduktion endständig gebundener Sialinsäure im Sinne einer verstärkten Desialylierung. Die funktionelle Analyse der Thrombozyten bei Sepsis ergab bei durchflusszytometrischer Messung der Integrin αIIbβ3-Aktivierung (PAC-1-Bindung) eine ausgeprägte generalisierte Hyporeaktivität gegenüber multiplen Agonisten, die abgeschwächt bereits bei Infektion nachweisbar war und gemäß ROC-Analysen gut zwischen Infektion und Sepsis diskriminierte (AUC >0.80 für alle Agonisten). Im Gegensatz dazu zeigten Thrombozyten bei Sepsis und Analyse mittels PFA-200 unter Einfluss physiologischer Scherkräfte eine normale bis gar beschleunigte Aggregation. Die Reaktivitätsmessung von Thrombozyten mittels Durchflusszytometrie stellt weiterhin einen vielversprechenden Biomarker für die Sepsis-Früherkennung dar. Für weitere Schlussfolgerungen ist jedoch eine größere Kohorte erforderlich. In nachfolgenden Untersuchungen sollten zudem mechanistische Ursachen der beschriebenen phänotypischen und funktionellen Auffälligkeiten von Thrombozyten bei Infektion und Sepsis z.B. mittels Koinkubationsexperimenten untersucht werden. N2 - Sepsis is a frequent and life-threatening condition that describes organ dysfunction resulting from a dysregulated host immune response to infection. Early diagnosis and treatment are essential to improve patient survival. In a previous pilot study with sepsis patients, our research identified a severe platelet hyporeactivity using flow cytometry which could become a potential new biomarker for early sepsis diagnosis. To evaluate onset and extend of the detected platelet dysfunction in this study, we extended our patient cohort in addition to sepsis (SOFA-score ≥2; n=13) also to hospitalized patients with infection without sepsis (SOFA-score <2; n=12). Both cohorts were assessed at two time points during the disease (t1: <24h; t2: day 5-7) by flow cytometry and PFA-200 and compared with a healthy control group (n=28). Platelet phenotypic abnormalities during sepsis included: (i) altered expression of subunits of the GPIb-IX-V receptor complex, pointing to increased receptor shedding; (ii) a severe mepacrine loading deficit, indicating an increasingly reduced number of δ-granules along the infection-sepsis continuum; (iii) a reduction of terminally bound sialic acid, suggesting increased desialylation. Functional analysis of platelets in sepsis revealed a marked and generalized hyporeactivity toward multiple agonists when integrin αIIbβ3 activation (PAC-1 binding) was measured by flow cytometry, which was already to a lesser extend present in patients with infection and discriminated well between infection and sepsis according to ROC analysis (AUC >0.80 for all agonists). In contrast, platelets from septic patients showed normal to even accelerated aggregation when measured under flow condition and physiological shear forces by PFA-200. Analysis of platelet reactivity by flow cytometry remains a promising biomarker for early sepsis detection, but a larger cohort is needed for further conclusions. In subsequent studies, mechanistic causes of the described alterations in platelet phenotype and function during infection and sepsis should be investigated, e.g. by means of co-incubation experiments. KW - Sepsis KW - Thrombozyt KW - Biomarker KW - Frühdiagnostik KW - Durchflusscytometrie KW - Thrombozytenfunktionsanalyse Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-358193 ER - TY - JOUR A1 - Gotru, Sanjeev Kiran A1 - van Geffen, Johanna P. A1 - Nagy, Magdolna A1 - Mammadova-Bach, Elmina A1 - Eilenberger, Julia A1 - Volz, Julia A1 - Manukjan, Georgi A1 - Schulze, Harald A1 - Wagner, Leonard A1 - Eber, Stefan A1 - Schambeck, Christian A1 - Deppermann, Carsten A1 - Brouns, Sanne A1 - Nurden, Paquita A1 - Greinacher, Andreas A1 - Sachs, Ulrich A1 - Nieswandt, Bernhard A1 - Hermanns, Heike M. A1 - Heemskerk, Johan W. M. A1 - Braun, Attila T1 - Defective Zn2+ homeostasis in mouse and human platelets with α- and δ-storage pool diseases JF - Scientific Reports N2 - Zinc (Zn2+) can modulate platelet and coagulation activation pathways, including fibrin formation. Here, we studied the (patho)physiological consequences of abnormal platelet Zn2+ storage and release. To visualize Zn2+ storage in human and mouse platelets, the Zn2+ specific fluorescent dye FluoZin3 was used. In resting platelets, the dye transiently accumulated into distinct cytosolic puncta, which were lost upon platelet activation. Platelets isolated from Unc13d−/− mice, characterized by combined defects of α/δ granular release, showed a markedly impaired Zn2+ release upon activation. Platelets from Nbeal2−/− mice mimicking Gray platelet syndrome (GPS), characterized by primarily loss of the α-granule content, had strongly reduced Zn2+ levels, which was also confirmed in primary megakaryocytes. In human platelets isolated from patients with GPS, Hermansky-Pudlak Syndrome (HPS) and Storage Pool Disease (SPD) altered Zn2+ homeostasis was detected. In turbidity and flow based assays, platelet-dependent fibrin formation was impaired in both Nbeal2−/− and Unc13d−/− mice, and the impairment could be partially restored by extracellular Zn2+. Altogether, we conclude that the release of ionic Zn2+ store from secretory granules upon platelet activation contributes to the procoagulant role of Zn2+ in platelet-dependent fibrin formation. KW - coagulation system KW - metals Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-227455 VL - 9 ER - TY - JOUR A1 - Hines, Rochelle M. A1 - Maric, Hans Michael A1 - Hines, Dustin J. A1 - Modgil, Amit A1 - Panzanelli, Patrizia A1 - Nakamura, Yasuko A1 - Nathanson, Anna J. A1 - Cross, Alan A1 - Deeb, Tarek A1 - Brandon, Nicholas J. A1 - Davies, Paul A1 - Fritschy, Jean-Marc A1 - Schindelin, Hermann A1 - Moss, Stephen J. T1 - Developmental seizures and mortality result from reducing GABAA receptor α2-subunit interaction with collybistin JF - Nature Communications N2 - Fast inhibitory synaptic transmission is mediated by γ-aminobutyric acid type A receptors (GABAARs) that are enriched at functionally diverse synapses via mechanisms that remain unclear. Using isothermal titration calorimetry and complementary methods we demonstrate an exclusive low micromolar binding of collybistin to the α2-subunit of GABAARs. To explore the biological relevance of collybistin-α2-subunit selectivity, we generate mice with a mutation in the α2-subunit-collybistin binding region (Gabra2-1). The mutation results in loss of a distinct subset of inhibitory synapses and decreased amplitude of inhibitory synaptic currents. Gabra2–1 mice have a striking phenotype characterized by increased susceptibility to seizures and early mortality. Surviving Gabra2-1 mice show anxiety and elevations in electroencephalogram δ power, which are ameliorated by treatment with the α2/α3-selective positive modulator, AZD7325. Taken together, our results demonstrate an α2-subunit selective binding of collybistin, which plays a key role in patterned brain activity, particularly during development. KW - cellular neuroscience KW - ion channels in the nervous system KW - neurotransmitters KW - synaptic development Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-320719 VL - 9 ER - TY - JOUR A1 - Fazeli, Gholamreza A1 - Stetter, Maurice A1 - Lisack, Jaime N. A1 - Wehman, Ann M. T1 - C. elegans Blastomeres Clear the Corpse of the Second Polar Body by LC3-Associated Phagocytosis JF - Cell Reports N2 - To understand how undifferentiated pluripotent cells cope with cell corpses, we examined the clearance of polar bodies born during female meiosis. We found that polar bodies lose membrane integrity and expose phosphatidylserine in Caenorhabditis elegans. Polar body signaling recruits engulfment receptors to the plasma membrane of embryonic blastomeres using the PI3K VPS-34, RAB-5 GTPase and the sorting nexin SNX-6. The second polar body is then phagocytosed using receptor-mediated engulfment pathways dependent on the Rac1 ortholog CED-10 but undergoes non-apoptotic programmed cell death independent of engulfment. RAB-7 GTPase is required for lysosome recruitment to the polar body phagosome, while LC3 lipidation is required for degradation of the corpse membrane after lysosome fusion. The polar body phagolysosome vesiculates in an mTOR- and ARL-8-dependent manner, which assists its timely degradation. Thus, we established a genetic model to study clearance by LC3-associated phagocytosis and reveal insights into the mechanisms of phagosome maturation and degradation. KW - cell corpse clearance KW - phagosome maturation KW - LC3-associated phagocytosis KW - lysosomal degradation KW - phagolysosome tubulation KW - polar body KW - non-canonical autophagy KW - non-apoptotic programmed cell death Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-227651 VL - 23 ER - TY - THES A1 - Karwen, Till T1 - Platelets promote insulin secretion of pancreatic β-cells T1 - Thrombozyten fördern die Insulinsekretion von pankreatischen β-Zellen N2 - The pancreas is the key organ for the maintenance of euglycemia. This is regulated in particular by α-cell-derived glucagon and β-cell-derived insulin, which are released in response to nutrient deficiency and elevated glucose levels, respectively. Although glucose is the main regulator of insulin secretion, it is significantly enhanced by various potentiators. Platelets are anucleate cell fragments in the bloodstream that are essential for hemostasis to prevent and stop bleeding events. Besides their classical role, platelets were implemented to be crucial for other physiological and pathophysiological processes, such as cancer progression, immune defense, and angiogenesis. Platelets from diabetic patients often present increased reactivity and basal activation. Interestingly, platelets store and release several substances that have been reported to potentiate insulin secretion by β-cells. For these reasons, the impact of platelets on β-cell functioning was investigated in this thesis. Here it was shown that both glucose and a β-cell-derived substance/s promote platelet activation and binding to collagen. Additionally, platelet adhesion specifically to the microvasculature of pancreatic islets was revealed, supporting the hypothesis of their influence on glucose homeostasis. Genetic or pharmacological ablation of platelet functioning and platelet depletion consistently resulted in reduced insulin secretion and associated glucose intolerance. Further, the platelet-derived lipid fraction was found to enhance glucose-stimulated insulin secretion, with 20-hydroxyeicosatetraenoic acid (20-HETE) and possibly also lyso-precursor of platelet-activating factor (lysoPAF) being identified as crucial factors. However, the acute platelet-stimulated insulin secretion was found to decline with age, as did the levels of platelet-derived 20-HETE. In addition to their direct stimulatory effect on insulin secretion, specific defects in platelet activation have also been shown to affect glucose homeostasis by potentially influencing islet vascular development. Taking together, the results of this thesis suggest a direct and indirect mechanism of platelets in the regulation of insulin secretion that ensures glucose homeostasis, especially in young individuals. N2 - Der Pankreas ist das Schlüsselorgan für die Aufrechterhaltung der Glukosehomöostase. Diese wird insbesondere durch das von α-Zellen stammende Glukagon und von β-Zellen stammende Insulin reguliert, die als Reaktion auf Nährstoffmangel beziehungsweise erhöhte Glukosespiegel freigesetzt werden. Obwohl Glukose der Hauptregulator der Insulinsekretion ist, wird sie durch verschiedene Potentiatoren erheblich gesteigert. Thrombozyten sind kernlose Zellfragmente im Blutkreislauf, die für die Hämostase unerlässlich sind. Neben ihrer klassischen Funktion sind sie auch an anderen physiologischen und pathophysiologischen Prozessen beteiligt, etwa an der Tumorentwicklung, der Immunabwehr und der Angiogenese. Thrombozyten von Diabetikern weisen häufig eine erhöhte Reaktivität und basale Aktivierung auf. Außerdem speichern und sekretieren sie Substanzen, von denen bekannt ist, dass sie die Insulinsekretion durch β-Zellen verstärken. Aus diesen Gründen wurde in dieser Arbeit der Einfluss von Thrombozyten auf die Funktion von β-Zellen untersucht. Es konnte gezeigt werden, dass sowohl Glukose als auch eine aus β-Zellen stammende Substanz/en die Thrombozytenaktivierung und die Bindung an Kollagen fördern. Darüber hinaus wurde eine spezifische Thrombozytenadhäsion an der Mikrovaskulatur der pankreatischen Inseln festgestellt, was die Hypothese ihres Einflusses auf die Glukosehomöostase unterstützt. Eine genetische oder pharmakologische Ablation der Thrombozytenfunktion sowie eine Depletion von Thrombozyten führten zu einer verminderten Insulinsekretion und einer damit verbundenen Glukoseintoleranz. Hierbei erwies sich die Lipidfraktion von Thrombozyten als essentieller Potentiator für die glukosestimulierte Insulinsekretion, wobei 20-Hydroxyeicosatetraensäure (20-HETE) und die Lyso-Vorstufe des Plättchen-Aktivierenden Faktors (LysoPAF) als entscheidende Faktoren identifiziert werden konnten. Weiterhin wurde festgestellt, dass sowohl der direkte stimulierende Effekt von Thrombozyten auf die Insulinsekretion, als auch deren 20-HETE Sekretion mit zunehmendem Alter abnimmt. Thrombozyten beeinflussten außerdem die Inselvaskularisierung, welche mutmaßlich zusätzlich zu Glukoseintoleranz führt. Insgesamt deuten die Ergebnisse dieser Arbeit auf einen direkten und indirekten Mechanismus der Thrombozyten bei der Regulierung der Insulinsekretion hin, der die Glukosehomöostase insbesondere bei jungen Menschen gewährleistet. KW - platelet KW - β cell KW - insulin KW - pancreas KW - diabetes KW - Thrombozyt KW - Insulinsekretion Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-313933 ER - TY - JOUR A1 - Schurr, Yvonne A1 - Spindler, Markus A1 - Kurz, Hendrikje A1 - Bender, Markus T1 - The cytoskeletal crosslinking protein MACF1 is dispensable for thrombus formation and hemostasis JF - Scientific Reports N2 - Coordinated reorganization of cytoskeletal structures is critical for key aspects of platelet physiology. While several studies have addressed the role of microtubules and filamentous actin in platelet production and function, the significance of their crosstalk in these processes has been poorly investigated. The microtubule-actin cross-linking factor 1 (MACF1; synonym: Actin cross-linking factor 7, ACF7) is a member of the spectraplakin family, and one of the few proteins expressed in platelets, which possess actin and microtubule binding domains thereby facilitating actin-microtubule interaction and regulation. We used megakaryocyte- and platelet-specific Macf1 knockout (Macf1fl/fl, Pf4-Cre) mice to study the role of MACF1 in platelet production and function. MACF1 deficient mice displayed comparable platelet counts to control mice. Analysis of the platelet cytoskeletal ultrastructure revealed a normal marginal band and actin network. Platelet spreading on fibrinogen was slightly delayed but platelet activation and clot traction was unaffected. Ex vivo thrombus formation and mouse tail bleeding responses were similar between control and mutant mice. These results suggest that MACF1 is dispensable for thrombopoiesis, platelet activation, thrombus formation and the hemostatic function in mice. KW - actin KW - microtubules Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-234966 VL - 9 ER - TY - JOUR A1 - Lee, Hong-Jen A1 - Li, Chien-Feng A1 - Ruan, Diane A1 - He, Jiabei A1 - Montal, Emily D. A1 - Lorenz, Sonja A1 - Girnun, Geoffrey D. A1 - Chan, Chia-Hsin T1 - Non-proteolytic ubiquitination of Hexokinase 2 by HectH9 controls tumor metabolism and cancer stem cell expansion JF - Nature Communications N2 - Enormous efforts have been made to target metabolic dependencies of cancer cells for developing new therapies. However, the therapeutic efficacy of glycolysis inhibitors is limited due to their inability to elicit cell death. Hexokinase 2 (HK2), via its mitochondrial localization, functions as a central nexus integrating glycolysis activation and apoptosis resilience. Here we identify that K63-linked ubiquitination by HectH9 regulates the mitochondrial localization and function of HK2. Through stable isotope tracer approach and functional metabolic analyses, we show that HectH9 deficiency impedes tumor glucose metabolism and growth by HK2 inhibition. The HectH9/HK2 pathway regulates cancer stem cell (CSC) expansion and CSC-associated chemoresistance. Histological analyses show that HectH9 expression is upregulated and correlated with disease progression in prostate cancer. This work uncovers that HectH9 is a novel regulator of HK2 and cancer metabolism. Targeting HectH9 represents an effective strategy to achieve long-term tumor remission by concomitantly disrupting glycolysis and inducing apoptosis. KW - cancer KW - cancer metabolism KW - molecular biology Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-236445 VL - 10 ER - TY - JOUR A1 - Baluapuri, Apoorva A1 - Hofstetter, Julia A1 - Dudvarski Stankovic, Nevenka A1 - Endres, Theresa A1 - Bhandare, Pranjali A1 - Vos, Seychelle Monique A1 - Adhikari, Bikash A1 - Schwarz, Jessica Denise A1 - Narain, Ashwin A1 - Vogt, Markus A1 - Wang, Shuang-Yan A1 - Düster, Robert A1 - Jung, Lisa Anna A1 - Vanselow, Jens Thorsten A1 - Wiegering, Armin A1 - Geyer, Matthias A1 - Maric, Hans Michael A1 - Gallant, Peter A1 - Walz, Susanne A1 - Schlosser, Andreas A1 - Cramer, Patrick A1 - Eilers, Martin A1 - Wolf, Elmar T1 - MYC Recruits SPT5 to RNA Polymerase II to Promote Processive Transcription Elongation JF - Molecular Cell N2 - The MYC oncoprotein binds to promoter-proximal regions of virtually all transcribed genes and enhances RNA polymerase II (Pol II) function, but its precise mode of action is poorly understood. Using mass spectrometry of both MYC and Pol II complexes, we show here that MYC controls the assembly of Pol II with a small set of transcription elongation factors that includes SPT5, a subunit of the elongation factor DSIF. MYC directly binds SPT5, recruits SPT5 to promoters, and enables the CDK7-dependent transfer of SPT5 onto Pol II. Consistent with known functions of SPT5, MYC is required for fast and processive transcription elongation. Intriguingly, the high levels of MYC that are expressed in tumors sequester SPT5 into non-functional complexes, thereby decreasing the expression of growth-suppressive genes. Altogether, these results argue that MYC controls the productive assembly of processive Pol II elongation complexes and provide insight into how oncogenic levels of MYC permit uncontrolled cellular growth. KW - MYC KW - SPT5 KW - SUPT5H KW - SPT6 KW - RNA polymerase II KW - transcription KW - elongation rate KW - processivity KW - directionality KW - tumorigenesis Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-221438 VL - 74 ER - TY - JOUR A1 - Chen, Dan A1 - Gehringer, Matthias A1 - Lorenz, Sonja T1 - Developing Small-Molecule Inhibitors of HECT-Type Ubiquitin Ligases for Therapeutic Applications: Challenges and Opportunities JF - ChemBioChem N2 - The ubiquitin system regulates countless physiological and disease-associated processes and has emerged as an attractive entryway for therapeutic efforts. With over 600 members in the human proteome, ubiquitin ligases are the most diverse class of ubiquitylation enzymes and pivotal in encoding specificity in ubiquitin signaling. Although considerable progress has been made in the identification of small molecules targeting RING ligases, relatively little is known about the “druggability” of HECT (homologous to E6AP C terminus) ligases, many of which are critically implicated in human pathologies. A major obstacle to optimizing the few available ligands is our incomplete understanding of their inhibitory mechanisms and the structural basis of catalysis in HECT ligases. Here, we survey recent approaches to manipulate the activities of HECT ligases with small molecules to showcase the particular challenges and opportunities these enzymes hold as therapeutic targets. KW - drug discovery KW - enzymes KW - inhibitors KW - reaction mechanisms KW - structure-activity relationships KW - ubiquitin Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-222412 VL - 19 ER - TY - THES A1 - Nair, Radhika Karal T1 - Structural and biochemical characterization of USP28 inhibition by small molecule inhibitors T1 - Strukturelle und biochemische Charakterisierung der Hemmung von USP28 durch niedermolekulare Inhibitoren N2 - Ubiquitination is an important post-translational modification that maintains cellular homeostasis by regulating various biological processes. Deubiquitinases (DUBs) are enzymes that reverse the ubiquitination process by catalyzing the removal of ubiquitin from a substrate. Abnormal expression or function of DUBs is often associated with the onset and progression of various diseases, including cancer. Ubiquitin specific proteases (USPs), which constitute the largest family of DUBs in humans, have become the center of interest as potential targets in cancer therapy as many of them display increased activity or are overexpressed in a range of malignant tumors or the tumor microenvironment. Two related members of the USP family, USP28 and USP25, share high sequence identities but play diverse biological roles. USP28 regulates cell proliferation, oncogenesis, DNA damage repair and apoptosis, whereas USP25 is involved in the anti-viral response, innate immunity and ER-associated degradation in addition to carcinogenesis. USP28 and USP25 also exhibit different oligomeric states – while USP28 is a constitutively active dimer, USP25 assumes an auto-inhibited tetrameric structure. The catalytic domains of both USP28 and USP25 comprise the canonical, globular USP-domain but contain an additional, extended insertion site called USP25/28 catalytic domain inserted domain (UCID) that mediates oligomerization of the proteins. Disruption of the USP25 tetramer leads to the formation of an activated dimeric protein. However, it is still not clear what triggers its activation. Due to their role in maintaining and stabilizing numerous oncoproteins, USP28 and USP25 have emerged as interesting candidates for anti-cancer therapy. Recent advances in small-molecular inhibitor development have led to the discovery of relatively potent inhibitors of USP28 and USP25. This thesis focuses on the structural elucidation of USP28 and the biochemical characterization of USP28/USP25, both in complex with representatives of three out of the eight compound classes reported as USP28/USP25-specific inhibitors. The crystal structures of USP28 in complex with the AZ compounds, Vismodegib and FT206 reveal that all three inhibitor classes bind into the same allosteric pocket distant from the catalytic center, located between the palm and the thumb subdomains (the S1-site). Intriguingly, this binding pocket is identical to the UCID-tip binding interface in the USP25 tetramer, rendering the protein in a locked, inactive conformation. Formation of the binding pocket in USP28 requires a shift in the helix α5, which induces conformational changes and local distortion of the binding channel that typically accommodates the C-terminal tail of Ubiquitin, thus preventing catalysis and abrogating USP28 activity. The key residues of the USP28-inhibitor binding pocket are highly conserved in USP25. Mutagenesis studies of these residues accompanied by biochemical and biophysical assays confirm the proposed mechanism of inhibition and similar binding to USP25. This work provides valuable insights into the inhibition mechanism of the small molecule compounds specifically for the DUBs USP28 and USP25. The USP28-inhibitor complex structures offer a framework to develop more specific and potent inhibitors. N2 - Ubiquitinierung ist eine wichtige posttranslationale Modifikation, die die zelluläre Homöostase aufrechterhält, indem sie verschiedene biologische Prozesse reguliert. Deubiquitinasen (DUBs) sind Enzyme, die den Ubiquitinierungsprozess umkehren, indem sie die Entfernung von Ubiquitin von einem Substrat katalysieren. Eine abnorme Expression oder Funktion von DUBs wird häufig mit dem Auftreten und Fortschreiten verschiedener Krankheiten, einschließlich Krebs, in Verbindung gebracht. Ubiquitin-spezifische Proteasen (USPs), die im Menschen die größte Familie der DUBs bilden, sind als potenzielle Ziele in der Krebstherapie von besonderem Interesse, da viele von ihnen in bösartigen Tumoren oder deren Mikroumgebung abnormal aktiv oder überexprimiert sind. Die zwei eng verwandten Mitglieder der USP-Familie, USP28 und USP25, weisen eine hohe Sequenzidentität auf, sind aber an unterschiedlichen biologischen Prozessen beteiligt. USP28 reguliert die Zellproliferation, die Onkogenese, die Reparatur von DNA-Schäden und die Apoptose, während USP25 eine Rolle bei der antiviralen Reaktion, der angeborenen Immunität, dem ER-assoziierten Abbau und der Carcinogenese spielt. USP28 und USP25 weisen auch unterschiedliche oligomere Zustände auf. Während USP28 ein konstitutiv aktives Dimer bildet, tritt USP25 als auto-inhibiertes Tetramer auf. Strukturell bestehen die katalytischen Domänen sowohl von USP28 als auch von USP25 aus der kanonischen globulären USP-Domäne enthalten jedoch eine zusätzliche Insertion, die als „USP25/28 catalytic domain inserted domain (UCID)“ bezeichnet wird und die Oligomerisierung der Proteine vermittelt. Die Dissoziation des USP25 Tetramers in Dimere führt zu einem aktivierten USP25-Protein. Es ist jedoch immer noch nicht klar, was seine Aktivierung auslöst. Aufgrund ihrer Rolle bei der Aufrechterhaltung und Stabilisierung zahlreicher Onkoproteine haben sich USP28 und USP25 als interessante Kandidaten für die Entwicklung von Medikamenten in der Krebstherapie erwiesen. Jüngste Fortschritte in der Entwicklung von niedermolekularen Inhibitoren haben zur Entdeckung von relativ potenten Inhibitoren von USP28 und USP25 geführt. Diese Arbeit konzentriert sich auf die Strukturaufklärung von USP28 und die biochemische Charakterisierung von USP28/USP25, beide im Komplex mit Vertretern von drei der acht Verbindungsklassen, die als USP28/USP25-spezifische Inhibitoren bekannt sind. Die Kristallstrukturen von USP28 im Komplex mit den AZ-Verbindungen, Vismodegib und FT206 zeigen, dass alle Inhibitoren in einer ähnlichen Region an USP28 binden - einer allosterischen Tasche, die in der Nähe des katalytischen Zentrums liegt und sich zwischen der Handflächen- und der Daumen-Subdomäne befindet. Diese Bindungstasche ist identisch mit der Position, an der der „UCID-tip“ im USP25-Tetramer bindet und das Protein in eine verschränkte, inaktive Konformation versetzt. Die Bildung der Bindungstasche in USP28 erfordert eine Verschiebung der α5-Helix, die zu Konformationsänderungen und einer lokalen Verzerrung des Bindungskanalsführt, der normalerweise den C-terminus des Ubiquitin-Moleküls bindet und so die Katalyse verhindert und die Aktivität von USP28 hemmt. Die Schlüsselreste der USP28-Inhibitor-Bindungstasche sind in USP25 hoch konserviert. Mutagenese-Studien dieser Aminosäuren, begleitet von biochemischen und biophysikalischen Analysen, bestätigen den vorgeschlagenen Mechanismus der Hemmung und eine ähnliche Bindung der Inhibitoren an USP25. Diese Arbeit liefert wertvolle Einblicke in den Hemmungsmechanismus der Kleinmolekülverbindungen, die spezifisch für die DUBs USP28 und USP25 entwickelt worden sind. Die Strukturen der USP28-Inhibitor-Komplexe bieten eine Grundlage für die zukünftige Entwicklung spezifischerer und wirksamerer Inhibitoren. KW - USP KW - Inhibition KW - enzyme KW - crystallography KW - Unique Selling Proposition KW - Inhibition KW - Enzym KW - Kristallographie Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-281742 ER - TY - JOUR A1 - Angay, Oguzhan A1 - Friedrich, Mike A1 - Pinnecker, Jürgen A1 - Hintzsche, Henning A1 - Stopper, Helga A1 - Hempel, Klaus A1 - Heinze, Katrin G. T1 - Image-based modeling and scoring of Howell–Jolly Bodies in human erythrocytes JF - Cytometry Part A N2 - The spleen selectively removes cells with intracellular inclusions, for example, detached nuclear fragments in circulating erythrocytes, called Howell–Jolly Bodies (HJBs). With absent or deficient splenic function HJBs appear in the peripheral blood and can be used as a simple and non-invasive risk-indicator for fulminant potentially life-threatening infection after spleenectomy. However, it is still under debate whether counting of the rare HJBs is a reliable measure of splenic function. Investigating HJBs in premature erythrocytes from patients during radioiodine therapy gives about 10 thousand times higher HJB counts than in blood smears. However, we show that there is still the risk of false-positive results by unspecific nuclear remnants in the prepared samples that do not originate from HJBs, but from cell debris residing above or below the cell. Therefore, we present a method to improve accuracy of image-based tests that can be performed even in non-specialized medical institutions. We show how to selectively label HJB-like clusters in human blood samples and how to only count those that are undoubtedly inside the cell. We found a “critical distance” dcrit referring to a relative HJB-Cell distance that true HJBs do not exceed. To rule out false-positive counts we present a simple inside-outside-rule based on dcrit—a robust threshold that can be easily assessed by combining conventional 2D imaging and straight-forward image analysis. Besides data based on fluorescence imaging, simulations of randomly distributed HJB-like objects on realistically modelled cell objects demonstrate the risk and impact of biased counting in conventional analysis. © 2017 The Authors. Cytometry Part A published by Wiley Periodicals, Inc. on behalf of ISAC. KW - fluorescence imaging KW - splenic function KW - Jolly bodies KW - image analysis Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-221140 VL - 93 ER -