Your search keyword '"Martin Lehmann"' showing total 594 results

1. OrgaMapper: a robust and easy-to-use workflow for analyzing organelle positioning

Author

Christopher Schmied, Michael Ebner, Paula Samsó, Rozemarijn Van Der Veen, Volker Haucke, and Martin Lehmann

Subjects

ImageJ, Fiji, Segmentation, Image analysis, Data analysis, Biology (General), QH301-705.5

Abstract

Abstract Background Eukaryotic cells are highly compartmentalized by a variety of organelles that carry out specific cellular processes. The position of these organelles within the cell is elaborately regulated and vital for their function. For instance, the position of lysosomes relative to the nucleus controls their degradative capacity and is altered in pathophysiological conditions. The molecular components orchestrating the precise localization of organelles remain incompletely understood. A confounding factor in these studies is the fact that organelle positioning is surprisingly non-trivial to address e.g., perturbations that affect the localization of organelles often lead to secondary phenotypes such as changes in cell or organelle size. These phenotypes could potentially mask effects or lead to the identification of false positive hits. To uncover and test potential molecular components at scale, accurate and easy-to-use analysis tools are required that allow robust measurements of organelle positioning. Results Here, we present an analysis workflow for the faithful, robust, and quantitative analysis of organelle positioning phenotypes. Our workflow consists of an easy-to-use Fiji plugin and an R Shiny App. These tools enable users without background in image or data analysis to (1) segment single cells and nuclei and to detect organelles, (2) to measure cell size and the distance between detected organelles and the nucleus, (3) to measure intensities in the organelle channel plus one additional channel, (4) to measure radial intensity profiles of organellar markers, and (5) to plot the results in informative graphs. Using simulated data and immunofluorescent images of cells in which the function of known factors for lysosome positioning has been perturbed, we show that the workflow is robust against common problems for the accurate assessment of organelle positioning such as changes of cell shape and size, organelle size and background. Conclusions OrgaMapper is a versatile, robust, and easy-to-use automated image analysis workflow that can be utilized in microscopy-based hypothesis testing and screens. It effectively allows for the mapping of the intracellular space and enables the discovery of novel regulators of organelle positioning.

Published

2024

2. Cross-link assisted spatial proteomics to map sub-organelle proteomes and membrane protein topologies

Author

Ying Zhu, Kerem Can Akkaya, Julia Ruta, Nanako Yokoyama, Cong Wang, Max Ruwolt, Diogo Borges Lima, Martin Lehmann, and Fan Liu

Subjects

Science

Abstract

Abstract The functions of cellular organelles and sub-compartments depend on their protein content, which can be characterized by spatial proteomics approaches. However, many spatial proteomics methods are limited in their ability to resolve organellar sub-compartments, profile multiple sub-compartments in parallel, and/or characterize membrane-associated proteomes. Here, we develop a cross-link assisted spatial proteomics (CLASP) strategy that addresses these shortcomings. Using human mitochondria as a model system, we show that CLASP can elucidate spatial proteomes of all mitochondrial sub-compartments and provide topological insight into the mitochondrial membrane proteome. Biochemical and imaging-based follow-up studies confirm that CLASP allows discovering mitochondria-associated proteins and revising previous protein sub-compartment localization and membrane topology data. We also validate the CLASP concept in synaptic vesicles, demonstrating its applicability to different sub-cellular compartments. This study extends the scope of cross-linking mass spectrometry beyond protein structure and interaction analysis towards spatial proteomics, and establishes a method for concomitant profiling of sub-organelle and membrane proteomes.

Published

2024

3. Canonical and non-canonical integrin-based adhesions dynamically interconvert

Author

Fabian Lukas, Claudia Matthaeus, Tania López-Hernández, Ines Lahmann, Nicole Schultz, Martin Lehmann, Dmytro Puchkov, Jan Pielage, Volker Haucke, and Tanja Maritzen

Subjects

Science

Abstract

Abstract Adhesions are critical for anchoring cells in their environment, as signaling platforms and for cell migration. In line with these diverse functions different types of cell-matrix adhesions have been described. Best-studied are the canonical integrin-based focal adhesions. In addition, non-canonical integrin adhesions lacking focal adhesion proteins have been discovered. These include reticular adhesions also known as clathrin plaques or flat clathrin lattices, that are enriched in clathrin and other endocytic proteins, as well as extensive adhesion networks and retraction fibers. How these different adhesion types that share a common integrin backbone are related and whether they can interconvert is unknown. Here, we identify the protein stonin1 as a marker for non-canonical αVβ5 integrin-based adhesions and demonstrate by live cell imaging that canonical and non-canonical adhesions can reciprocally interconvert by the selective exchange of components on a stable αVβ5 integrin scaffold. Hence, non-canonical adhesions can serve as points of origin for the generation of canonical focal adhesions.

Published

2024

4. Supporting regional pandemic management by enabling self-service reporting-A case report.

Author

Richard Gebler, Martin Lehmann, Maik Löwe, Mirko Gruhl, Markus Wolfien, Miriam Goldammer, Franziska Bathelt, Jens Karschau, Andreas Hasselberg, Veronika Bierbaum, Toni Lange, Katja Polotzek, Hanns-Christoph Held, Michael Albrecht, Jochen Schmitt, and Martin Sedlmayr

Subjects

Medicine, Science

Abstract

BackgroundThe COVID-19 pandemic revealed a need for better collaboration among research, care, and management in Germany as well as globally. Initially, there was a high demand for broad data collection across Germany, but as the pandemic evolved, localized data became increasingly necessary. Customized dashboards and tools were rapidly developed to provide timely and accurate information. In Saxony, the DISPENSE project was created to predict short-term hospital bed capacity demands, and while it was successful, continuous adjustments and the initial monolithic system architecture of the application made it difficult to customize and scale.MethodsTo analyze the current state of the DISPENSE tool, we conducted an in-depth analysis of the data processing steps and identified data flows underlying users' metrics and dashboards. We also conducted a workshop to understand the different views and constraints of specific user groups, and brought together and clustered the information according to content-related service areas to determine functionality-related service groups. Based on this analysis, we developed a concept for the system architecture, modularized the main services by assigning specialized applications and integrated them into the existing system, allowing for self-service reporting and evaluation of the expert groups' needs.ResultsWe analyzed the applications' dataflow and identified specific user groups. The functionalities of the monolithic application were divided into specific service groups for data processing, data storage, predictions, content visualization, and user management. After composition and implementation, we evaluated the new system architecture against the initial requirements by enabling self-service reporting to the users.DiscussionBy modularizing the monolithic application and creating a more flexible system, the challenges of rapidly changing requirements, growing need for information, and high administrative efforts were addressed.ConclusionWe demonstrated an improved adaptation towards the needs of various user groups, increased efficiency, and reduced burden on administrators, while also enabling self-service functionalities and specialization of single applications on individual service groups.

Published

2024

5. Analyzing the cellular plasma membrane by fast and efficient correlative STED and platinum replica EM

Author

Dmytro Puchkov, Paul Markus Müller, Martin Lehmann, and Claudia Matthaeus

Subjects

plasma membrane, endocytosis, CLEM, STED, TEM, SEM, Biology (General), QH301-705.5

Abstract

The plasma membrane of mammalian cells links transmembrane receptors, various structural components, and membrane-binding proteins to subcellular processes, allowing inter- and intracellular communication. Therefore, membrane-binding proteins, together with structural components such as actin filaments, modulate the cell membrane in their flexibility, stiffness, and curvature. Investigating membrane components and curvature in cells remains challenging due to the diffraction limit in light microscopy. Preparation of 5–15-nm-thin plasma membrane sheets and subsequent inspection by metal replica transmission electron microscopy (TEM) reveal detailed information about the cellular membrane topology, including the structure and curvature. However, electron microscopy cannot identify proteins associated with specific plasma membrane domains. Here, we describe a novel adaptation of correlative super-resolution light microscopy and platinum replica TEM (CLEM-PREM), allowing the analysis of plasma membrane sheets with respect to their structural details, curvature, and associated protein composition. We suggest a number of shortcuts and troubleshooting solutions to contemporary PREM protocols. Thus, implementation of super-resolution stimulated emission depletion (STED) microscopy offers significant reduction in sample preparation time and reduced technical challenges for imaging and analysis. Additionally, highly technical challenges associated with replica preparation and transfer on a TEM grid can be overcome by scanning electron microscopy (SEM) imaging. The combination of STED microscopy and platinum replica SEM or TEM provides the highest spatial resolution of plasma membrane proteins and their underlying membrane and is, therefore, a suitable method to study cellular events like endocytosis, membrane trafficking, or membrane tension adaptations.

Published

2023

6. The molecular organization of differentially curved caveolae indicates bendable structural units at the plasma membrane

Author

Claudia Matthaeus, Kem A. Sochacki, Andrea M. Dickey, Dmytro Puchkov, Volker Haucke, Martin Lehmann, and Justin W. Taraska

Subjects

Science

Abstract

Abstract Caveolae are small coated plasma membrane invaginations with diverse functions. Caveolae undergo curvature changes. Yet, it is unclear which proteins regulate this process. To address this gap, we develop a correlative stimulated emission depletion (STED) fluorescence and platinum replica electron microscopy imaging (CLEM) method to image proteins at single caveolae. Caveolins and cavins are found at all caveolae, independent of curvature. EHD2 is detected at both low and highly curved caveolae. Pacsin2 associates with low curved caveolae and EHBP1 with mostly highly curved caveolae. Dynamin is absent from caveolae. Cells lacking dynamin show no substantial changes to caveolae, suggesting that dynamin is not directly involved in caveolae curvature. We propose a model where caveolins, cavins, and EHD2 assemble as a cohesive structural unit regulated by intermittent associations with pacsin2 and EHBP1. These coats can flatten and curve to enable lipid traffic, signaling, and changes to the surface area of the cell.

Published

2022

7. Nanoscale segregation of channel and barrier claudins enables paracellular ion flux

Author

Hannes Gonschior, Christopher Schmied, Rozemarijn Eva Van der Veen, Jenny Eichhorst, Nina Himmerkus, Jörg Piontek, Dorothee Günzel, Markus Bleich, Mikio Furuse, Volker Haucke, and Martin Lehmann

Subjects

Science

Abstract

Meshworks of claudin polymers control the paracellular transport and barrier properties of epithelial tight junctions. Here, the authors show different claudin nanoscale organization principles, finding that claudin segregation enables barrier formation and paracellular ion flux across tight junctions.

Published

2022

8. A New Rapid and Quantitative Assay to Determine the Phytase Activity of Feed

Author

Eric C. D. Willard, Alfred Sundquist, Vibe Glitsoe, Jose Otavio Sorbara, Paulina Tamez-Hidalgo, Cornelia Heine, Tara Ricker, Martin Lehmann, Andre Bergman, Stéphane Etheve, and Claire V. Chatelle

Subjects

Chemistry, QD1-999

Published

2022

9. β-D-XYLOSIDASE 4 modulates systemic immune signaling in Arabidopsis thaliana

Author

Kornelia Bauer, Shahran Nayem, Martin Lehmann, Marion Wenig, Lin-Jie Shu, Stefanie Ranf, Peter Geigenberger, and A. Corina Vlot

Subjects

plant immunity, plant defense, systemic acquired resistance, cell wall, xylosidase, xylose, Plant culture, SB1-1110

Abstract

Pectin- and hemicellulose-associated structures of plant cell walls participate in defense responses against pathogens of different parasitic lifestyles. The resulting immune responses incorporate phytohormone signaling components associated with salicylic acid (SA) and jasmonic acid (JA). SA plays a pivotal role in systemic acquired resistance (SAR), a form of induced resistance that - after a local immune stimulus - confers long-lasting, systemic protection against a broad range of biotrophic invaders. β-D-XYLOSIDASE 4 (BXL4) protein accumulation is enhanced in the apoplast of plants undergoing SAR. Here, two independent Arabidopsis thaliana mutants of BXL4 displayed compromised systemic defenses, while local resistance responses to Pseudomonas syringae remained largely intact. Because both phloem-mediated and airborne systemic signaling were abrogated in the mutants, the data suggest that BXL4 is a central component in SAR signaling mechanisms. Exogenous xylose, a possible product of BXL4 enzymatic activity in plant cell walls, enhanced systemic defenses. However, GC-MS analysis of SAR-activated plants revealed BXL4-associated changes in the accumulation of certain amino acids and soluble sugars, but not xylose. In contrast, the data suggest a possible role of pectin-associated fucose as well as of the polyamine putrescine as regulatory components of SAR. This is the first evidence of a central role of cell wall metabolic changes in systemic immunity. Additionally, the data reveal a so far unrecognized complexity in the regulation of SAR, which might allow the design of (crop) plant protection measures including SAR-associated cell wall components.

Published

2023

10. Remote ischemic preconditioning causes transient cell cycle arrest and renal protection by a NF-κB–dependent Sema5B pathway

Author

Jan Rossaint, Melanie Meersch, Katharina Thomas, Sina Mersmann, Martin Lehmann, Jennifer Skupski, Tobias Tekath, Peter Rosenberger, John A. Kellum, Hermann Pavenstädt, and Alexander Zarbock

Subjects

Immunology, Nephrology, Medicine

Abstract

Acute kidney injury increases morbidity and mortality, and previous studies have shown that remote ischemic preconditioning (RIPC) reduces the risk of acute kidney injury after cardiac surgery. RIPC increases urinary high mobility group box protein-1 (HMGB1) levels in patients, and this correlates with kidney protection. Here, we show that RIPC reduces renal ischemia-reperfusion injury and improves kidney function in mice. Mechanistically, RIPC increases HMGB1 levels in the plasma and urine, and HMGB1 binds to TLR4 on renal tubular epithelial cells, inducing transcriptomic modulation of renal tubular epithelial cells and providing renal protection, whereas TLR4 activation on nonrenal cells was shown to contribute to renal injury. This protection is mediated by activation of induction of AMPKα and NF-κB; this induction contributes to the upregulation of Sema5b, which triggers a transient, protective G1 cell cycle arrest. In cardiac surgery patients at high risk for postoperative acute kidney injury, increased HMGB1 and Sema5b levels after RIPC were associated with renal protection after surgery. The results may help to develop future clinical treatment options for acute kidney injury.

Published

2022

11. The Autophagy Nucleation Factor ATG9 Forms Nanoclusters with the HIV-1 Receptor DC-SIGN and Regulates Early Antiviral Autophagy in Human Dendritic Cells

Author

Laure Papin, Martin Lehmann, Justine Lagisquet, Ghizlane Maarifi, Véronique Robert-Hebmann, Christophe Mariller, Yann Guerardel, Lucile Espert, Volker Haucke, and Fabien P. Blanchet

Subjects

autophagy, dendritic cells, HIV-1, DC-SIGN, innate immunity, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Dendritic cells (DC) are critical cellular mediators of host immunity, notably by expressing a broad panel of pattern recognition receptors. One of those receptors, the C-type lectin receptor DC-SIGN, was previously reported as a regulator of endo/lysosomal targeting through functional connections with the autophagy pathway. Here, we confirmed that DC-SIGN internalization intersects with LC3+ autophagy structures in primary human monocyte-derived dendritic cells (MoDC). DC-SIGN engagement promoted autophagy flux which coincided with the recruitment of ATG-related factors. As such, the autophagy initiation factor ATG9 was found to be associated with DC-SIGN very early upon receptor engagement and required for an optimal DC-SIGN-mediated autophagy flux. The autophagy flux activation upon DC-SIGN engagement was recapitulated using engineered DC-SIGN-expressing epithelial cells in which ATG9 association with the receptor was also confirmed. Finally, Stimulated emission depletion (STED) microscopy performed in primary human MoDC revealed DC-SIGN-dependent submembrane nanoclusters formed with ATG9, which was required to degrade incoming viruses and further limit DC-mediated transmission of HIV-1 infection to CD4+ T lymphocytes. Our study unveils a physical association between the Pattern Recognition Receptor DC-SIGN and essential components of the autophagy pathway contributing to early endocytic events and the host’s antiviral immune response.

Published

2023

12. The Pathogenesis of Ischemia-Reperfusion Induced Acute Kidney Injury Depends on Renal Neutrophil Recruitment Whereas Sepsis-Induced AKI Does Not

Author

Zhenhan Li, Nadine Ludwig, Katharina Thomas, Sina Mersmann, Martin Lehmann, Dietmar Vestweber, Jean-Francois Pittet, Hernando Gomez, John A. Kellum, Jan Rossaint, and Alexander Zarbock

Subjects

neutrophils, kidney, ischemia-reperfusion injury, cecal ligation and puncture, sepsis, acute kidney injury, Immunologic diseases. Allergy, RC581-607

Abstract

Acute kidney injury (AKI) may be induced by different causes, including renal ischemia-reperfusion injury and sepsis, which represent the most common reasons for AKI in hospitalized patients. AKI is defined by reduced urine production and/or increased plasma creatinine. However, this definition does not address the molecular mechanisms of different AKI entities, and uncertainties remain regarding distinct pathophysiological events causing kidney injury in the first place. In particular, sepsis-induced AKI is considered not to be associated with leukocyte infiltration into the kidney, but a direct investigation of this process is missing to this date. In this study, we used two murine AKI models induced by either renal ischemia-reperfusion injury (IRI) or cecal ligation and puncture (CLP) to investigate the contribution of neutrophils to tissue injury and kidney function. By using VEC-Y731F mice, in which neutrophil recruitment is impaired, we analyzed the specific contribution of neutrophil recruitment to the pathogenesis of IRI- and CLP-induced AKI. We observed that the degree of renal injury evaluated by plasma creatinine, urinary biomarkers and histological analyses, following IRI-induction was dependent on neutrophil migration into the kidney, whereas the pathogenesis of CLP-induced AKI was independent of neutrophil recruitment. Furthermore, plasma transfer experiments suggest that the pathogenesis of CLP-induced AKI relies on circulating inflammatory mediators. These results extend our knowledge of the AKI pathogenesis and may help in the development of prophylactic and therapeutic treatments for AKI patients.

Published

2022

13. Identifying coastal towns and small cities in Denmark using global population data to support climate change adaptation

Author

James M. Fitton, Martin Lehmann, and David C. Major

Subjects

climate change adaptation, global data, coastal hazards, denmark, small urban areas, Mathematical geography. Cartography, GA1-1776

Abstract

Coastal settlements face many hazards from climate change. Consequently, there has been extensive focus on developing and implementing adaptation. However, these efforts have prodominantly centred on larger cities. Coastal towns and small cities (urban areas between 1000 and 100,000 people) have received little attention, despite experiencing a number of barriers to adaptation. The absence of information on the global scale of the adaptation challenge within coastal towns and small cities may have contributed to these settlements being overlooked. This paper develops a method that can be used to estimate the numbers, sizes, and locations of coastal towns and small cities worldwide from global population data (Global Human Settlement data). Denmark is used as a pilot for this method with settlements over 1000 people classified with relatively high accuracy. The method developed here represents a potentially fruitful approach to supporting coastal adaptation, as coastal towns and small cities are identifiable globally, they can be classified into types. This will support an assessment of their risk to coastal hazards, and could facilitate knowledge and practice sharing between similar coastal towns and small cities.

Published

2020

14. SynActJ: Easy-to-Use Automated Analysis of Synaptic Activity

Author

Christopher Schmied, Tolga Soykan, Svenja Bolz, Volker Haucke, and Martin Lehmann

Subjects

pHluorin imaging, calcium imaging, synapse, synaptic activity, ImageJ, Fiji, Electronic computers. Computer science, QA75.5-76.95

Abstract

Neuronal synapses are highly dynamic communication hubs that mediate chemical neurotransmission via the exocytic fusion and subsequent endocytic recycling of neurotransmitter-containing synaptic vesicles (SVs). Functional imaging tools allow for the direct visualization of synaptic activity by detecting action potentials, pre- or postsynaptic calcium influx, SV exo- and endocytosis, and glutamate release. Fluorescent organic dyes or synapse-targeted genetic molecular reporters, such as calcium, voltage or neurotransmitter sensors and synapto-pHluorins reveal synaptic activity by undergoing rapid changes in their fluorescence intensity upon neuronal activity on timescales of milliseconds to seconds, which typically are recorded by fast and sensitive widefield live cell microscopy. The analysis of the resulting time-lapse movies in the past has been performed by either manually picking individual structures, custom scripts that have not been made widely available to the scientific community, or advanced software toolboxes that are complicated to use. For the precise, unbiased and reproducible measurement of synaptic activity, it is key that the research community has access to bio-image analysis tools that are easy-to-apply and allow the automated detection of fluorescent intensity changes in active synapses. Here we present SynActJ (Synaptic Activity in ImageJ), an easy-to-use fully open-source workflow that enables automated image and data analysis of synaptic activity. The workflow consists of a Fiji plugin performing the automated image analysis of active synapses in time-lapse movies via an interactive seeded watershed segmentation that can be easily adjusted and applied to a dataset in batch mode. The extracted intensity traces of each synaptic bouton are automatically processed, analyzed, and plotted using an R Shiny workflow. We validate the workflow on time-lapse images of stimulated synapses expressing the SV exo-/endocytosis reporter Synaptophysin-pHluorin or a synapse-targeted calcium sensor, Synaptophysin-RGECO. We compare the automatic workflow to manual analysis and compute calcium-influx and SV exo-/endocytosis kinetics and other parameters for synaptic vesicle recycling under different conditions. We predict SynActJ to become an important tool for the analysis of synaptic activity and synapse properties.

Published

2021

15. Role of S100A8/A9 in Platelet–Neutrophil Complex Formation during Acute Inflammation

Author

Julian Revenstorff, Nadine Ludwig, Annika Hilger, Sina Mersmann, Martin Lehmann, Julia Chiara Grenzheuser, Marina Kardell, Julia Bone, Niklas Martin Kötting, Nina Christine Marx, Johannes Roth, Thomas Vogl, and Jan Rossaint

Subjects

MRP8/14, calprotectin, platelets, neutrophils, platelet–neutrophil complexes, acute inflammation, Cytology, QH573-671

Abstract

Acute respiratory distress syndrome (ARDS) due to pulmonary infections is associated with high morbidity and mortality. Upon inflammation, the alarmin S100A8/A9 is released and stimulates neutrophil recruitment mainly via binding to Toll-like receptor 4 (TLR4). TLR4 is also expressed on platelets, which modulate the immune response through direct interaction with leukocytes. In a murine model of Klebsiella pneumoniae-induced pulmonary inflammation, global S100A9 deficiency resulted in diminished neutrophil recruitment into the lung alveoli and neutrophil accumulation in the intravascular space, indicating an impaired neutrophil migration. A lack of TLR4 on platelets resulted in reduced neutrophil counts in the whole lung, emphasising the impact of TLR4-mediated platelet activity on neutrophil behaviour. Flow cytometry-based analysis indicated elevated numbers of platelet–neutrophil complexes in the blood of S100A9−/− mice. Intravital microscopy of the murine cremaster muscle confirmed these findings and further indicated a significant increase in neutrophil–platelet complex formation in S100A9−/− mice, which was reversed by administration of the S100A8/A9 tetramer. An in vitro bilayer assay simulated the murine alveolar capillary barrier during inflammation and validated significant differences in transmigration behaviour between wild-type and S100A9−/− neutrophils. This study demonstrates the role of S100A8/A9 during platelet–neutrophil interactions and neutrophil recruitment during pulmonary inflammation.

Published

2022

16. Introduction of the Carotenoid Biosynthesis α-Branch Into Synechocystis sp. PCC 6803 for Lutein Production

Author

Martin Lehmann, Evgenia Vamvaka, Alejandro Torrado, Peter Jahns, Marcel Dann, Lea Rosenhammer, Amel Aziba, Dario Leister, and Thilo Rühle

Subjects

lutein, carotenoids, cyanobacteria, Synechocystis, cyclase, genetic engineering, Plant culture, SB1-1110

Abstract

Lutein, made by the α-branch of the methyl-erythritol phosphate (MEP) pathway, is one of the most abundant xanthophylls in plants. It is involved in the structural stabilization of light-harvesting complexes, transfer of excitation energy to chlorophylls and photoprotection. In contrast, lutein and the α-branch of the MEP pathway are not present in cyanobacteria. In this study, we genetically engineered the cyanobacterium Synechocystis for the missing MEP α-branch resulting in lutein accumulation. A cassette comprising four Arabidopsis thaliana genes coding for two lycopene cyclases (AtLCYe and AtLCYb) and two hydroxylases (AtCYP97A and AtCYP97C) was introduced into a Synechocystis strain that lacks the endogenous, cyanobacterial lycopene cyclase cruA. The resulting synlut strain showed wild-type growth and only moderate changes in total pigment composition under mixotrophic conditions, indicating that the cruA deficiency can be complemented by Arabidopsis lycopene cyclases leaving the endogenous β-branch intact. A combination of liquid chromatography, UV-Vis detection and mass spectrometry confirmed a low but distinct synthesis of lutein at rates of 4.8 ± 1.5 nmol per liter culture at OD730 (1.03 ± 0.47 mmol mol–1 chlorophyll). In conclusion, synlut provides a suitable platform to study the α-branch of the plastidic MEP pathway and other functions related to lutein in a cyanobacterial host system.

Published

2021

17. Autophagy within the mushroom body protects from synapse aging in a non-cell autonomous manner

Author

Anuradha Bhukel, Christine Brigitte Beuschel, Marta Maglione, Martin Lehmann, Gabor Juhász, Frank Madeo, and Stephan J. Sigrist

Subjects

Science

Abstract

The role of macroautophagy in neuronal processes mediating brain maintenance remains enigmatic. Authors show here that impairing autophagy within the major learning related brain center of Drosophila, and not other regions, triggered a form of presynaptic metaplasticity that was invariably connected to the absence of the specific component of aversive olfactory memory, which normally only declines in the course of aging process

Published

2019

18. Rapid active zone remodeling consolidates presynaptic potentiation

Author

Mathias A. Böhme, Anthony W. McCarthy, Andreas T. Grasskamp, Christine B. Beuschel, Pragya Goel, Meida Jusyte, Desiree Laber, Sheng Huang, Ulises Rey, Astrid G. Petzoldt, Martin Lehmann, Fabian Göttfert, Pejmun Haghighi, Stefan W. Hell, David Owald, Dion Dickman, Stephan J. Sigrist, and Alexander M. Walter

Subjects

Science

Abstract

Synaptic plasticity ensures functionality during perturbations and enables memory formation. Here, the authors describe homeostatic functional and nano-modular active zone modifications for immediate and long-lasting enhancement of neurotransmitter release, and identify Unc13 as a presynaptic molecular target for homeostatic potentiation and learning.

Published

2019

19. Translational Components Contribute to Acclimation Responses to High Light, Heat, and Cold in Arabidopsis

Author

Antoni Garcia-Molina, Tatjana Kleine, Kevin Schneider, Timo Mühlhaus, Martin Lehmann, and Dario Leister

Subjects

Biological Sciences, Metabolomics, Plant Biology, Plants, Transcriptomics, Science

Abstract

Summary: Plant metabolism is broadly reprogrammed during acclimation to abiotic changes. Most previous studies have focused on transitions from standard to single stressful conditions. Here, we systematically analyze acclimation processes to levels of light, heat, and cold stress that subtly alter physiological parameters and assess their reversibility during de-acclimation. Metabolome and transcriptome changes were monitored at 11 different time points. Unlike transcriptome changes, most alterations in metabolite levels did not readily return to baseline values, except in the case of cold acclimation. Similar regulatory networks operate during (de-)acclimation to high light and cold, whereas heat and high-light responses exhibit similar dynamics, as determined by surprisal and conditional network analyses. In all acclimation models tested here, super-hubs in conditional transcriptome networks are enriched for components involved in translation, particularly ribosomes. Hence, we suggest that the ribosome serves as a common central hub for the control of three different (de-)acclimation responses.

Published

2020

20. The Carta Marina of Martin Waldseemüller from 1516 – political geography in context of the struggle for the spices of Southeast India

Author

Martin Lehmann

Subjects

waldseemüller, carta marina, caveri, india, spice islands, the portuguese crown, the fugger family, maximilian i of habsburg, economical interests, Fine Arts, Arts in general, NX1-820, General Works, History of scholarship and learning. The humanities, AZ20-999

Abstract

This paper demonstrates that the highly accurate depiction of the Indian Ocean on the Carta marina of Martin Waldseemueller from 1516 is mainly caused by the extremely powerful political and economic interests of the Portuguese Crown and the Upper German-trading companies in the conflict with the Kingdom of Castile over supremacy in the spice trade in India. It is shown that the Portuguese—after reaching the archipelago of the Moluccas before their Iberian rival in 1512—were subsequently most interested in the geographical documentation of the Spice Islands in the Southeast of Asia in order to claim the ownership for this economically extremely important part of the world. Furthermore, the paper aims to raise awareness of the fact that the resulting depiction of America on this map had become completely insignificant from a political point of view because of the changed political conditions in the second decade of the sixteenth century mentioned above. Finally, the cartographical representation will be related to the network of relationships between the Portuguese crown, the Upper German-trading companies and Maximilian I of Habsburg to illustrate the incredibly high correlation between the depiction of the 1516 Carta marina and the political and economic interests of all competitors involved in this commercial model.

Published

2020

21. Investigation of the Impact of Micro-Structuring on the Bonding Performance of Beechwood (Fagus Sylvatica L.)

Author

Destin Bamokina Moanda, Martin Lehmann, and Peter Niemz

Subjects

structural planing, micro-structured, sanding, planing, roughness, surfacing method, Plant ecology, QK900-989

Abstract

Although glueing softwood is well mastered by the industry, predicting and controlling bond quality for hardwood is still challenging after years of research. Parameters such as the adhesive type, resin–hardener ratio, and the penetration behaviour of the wood are determinants for the bond quality. The aim of this work was to assess to what extent the glueing behaviour of beechwood can be improved by using structural planing. The different surfacing methods were characterised by their roughness. The bond strength of the micro-structured surfaces was determined according to EN 302-1, and the delamination resistance was tested as indicated by EN 302-2 for type I adhesives. Micro-structured surfaces were compared with different surfaces (generated by surfacing methods such as dull/sharp planing and sanding). In dry test conditions, all surfacing methods gave satisfying results. In the wet stage, the bond strength on the finer micro-structured surface slightly outperformed the coarse structure surface. For the delamination resistance, a clear improvement could be observed for melamine-formaldehyde-bonded specimens since, when using the recommended amount of adhesive, micro-structured surfaces fulfilled the requirements. Nevertheless, structural planing cannot lead to a reduction in the applied grammage since no sample with a smaller amount fulfilled EN 302-2 requirements even by observing the recommended closed assembly waiting time. Adhesion area enlargement of the micro-structuring is minor. The good delamination performance without waiting time (CAT) is not caused by surface enlargement, since finer micro-structured surface with negligible area increase and delivered even better delamination resistance. Subsurface analysis should be carried out to thoroughly investigate this phenomenon.

Published

2022

22. Aurora Kinase A Is Involved in Controlling the Localization of Aquaporin-2 in Renal Principal Cells

Author

Sandrine Baltzer, Timur Bulatov, Christopher Schmied, Andreas Krämer, Benedict-Tilman Berger, Andreas Oder, Ryan Walker-Gray, Christin Kuschke, Kerstin Zühlke, Jenny Eichhorst, Martin Lehmann, Stefan Knapp, John Weston, Jens Peter von Kries, Roderich D. Süssmuth, and Enno Klussmann

Subjects

AURKA, AQP2, AVP, cofilin-1, actin cytoskeleton, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The cAMP-dependent aquaporin-2 (AQP2) redistribution from intracellular vesicles into the plasma membrane of renal collecting duct principal cells induces water reabsorption and fine-tunes body water homeostasis. However, the mechanisms controlling the localization of AQP2 are not understood in detail. Using immortalized mouse medullary collecting duct (MCD4) and primary rat inner medullary collecting duct (IMCD) cells as model systems, we here discovered a key regulatory role of Aurora kinase A (AURKA) in the control of AQP2. The AURKA-selective inhibitor Aurora-A inhibitor I and novel derivatives as well as a structurally different inhibitor, Alisertib, prevented the cAMP-induced redistribution of AQP2. Aurora-A inhibitor I led to a depolymerization of actin stress fibers, which serve as tracks for the translocation of AQP2-bearing vesicles to the plasma membrane. The phosphorylation of cofilin-1 (CFL1) inactivates the actin-depolymerizing function of CFL1. Aurora-A inhibitor I decreased the CFL1 phosphorylation, accounting for the removal of the actin stress fibers and the inhibition of the redistribution of AQP2. Surprisingly, Alisertib caused an increase in actin stress fibers and did not affect CFL1 phosphorylation, indicating that AURKA exerts its control over AQP2 through different mechanisms. An involvement of AURKA and CFL1 in the control of the localization of AQP2 was hitherto unknown.

Published

2022

23. Active Zone Scaffold Protein Ratios Tune Functional Diversity across Brain Synapses

Author

Andreas Fulterer, Till F.M. Andlauer, Anatoli Ender, Marta Maglione, Katherine Eyring, Jennifer Woitkuhn, Martin Lehmann, Tanja Matkovic-Rachid, Joerg R.P. Geiger, Alexander M. Walter, Katherine I. Nagel, and Stephan J. Sigrist

Subjects

Biology (General), QH301-705.5

Abstract

Summary: High-throughput electron microscopy has started to reveal synaptic connectivity maps of single circuits and whole brain regions, for example, in the Drosophila olfactory system. However, efficacy, timing, and frequency tuning of synaptic vesicle release are also highly diversified across brain synapses. These features critically depend on the nanometer-scale coupling distance between voltage-gated Ca2+ channels (VGCCs) and the synaptic vesicle release machinery. Combining light super resolution microscopy with in vivo electrophysiology, we show here that two orthogonal scaffold proteins (ELKS family Bruchpilot, BRP, and Syd-1) cluster-specific (M)Unc13 release factor isoforms either close (BRP/Unc13A) or further away (Syd-1/Unc13B) from VGCCs across synapses of the Drosophila olfactory system, resulting in different synapse-characteristic forms of short-term plasticity. Moreover, BRP/Unc13A versus Syd-1/Unc13B ratios were different between synapse types. Thus, variation in tightly versus loosely coupled scaffold protein/(M)Unc13 modules can tune synapse-type-specific release features, and “nanoscopic molecular fingerprints” might identify synapses with specific temporal features. : Fulterer et al. demonstrates that the scaffold proteins Bruchpilot and Syd-1 cluster (M)Unc13 release factor isoforms either close (BRP/Unc13A) or further away (Syd-1/Unc13B) from voltage-gated Ca2+ channels in the Drosophila olfactory system. These scaffold/release factor “modules” varied significantly between different synapse types, thereby tuning release features toward depression or facilitation. Keywords: neurotransmitter release, positional priming, munc13, Bruchpilot, Syd-1, synapse diversity, olfactory system, Drosophila, nanoscopy, synapse physiology, active zone

Published

2018

24. Metabolic Dynamics in Short- and Long-Term Microgravity in Human Primary Macrophages

Author

Cora S. Thiel, Christian Vahlensieck, Timothy Bradley, Svantje Tauber, Martin Lehmann, and Oliver Ullrich

Subjects

spaceflight, sounding rocket, microgravity, metabolomics, immune cells, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Microgravity acts on cellular systems on several levels. Cells of the immune system especially react rapidly to changes in gravity. In this study, we performed a correlative metabolomics analysis on short-term and long-term microgravity effects on primary human macrophages. We could detect an increased amino acid concentration after five minutes of altered gravity, that was inverted after 11 days of microgravity. The amino acids that reacted the most to changes in gravity were tightly clustered. The observed effects indicated protein degradation processes in microgravity. Further, glucogenic and ketogenic amino acids were further degraded to Glucose and Ketoleucine. The latter is robustly accumulated in short-term and long-term microgravity but not in hypergravity. We detected highly dynamic and also robust adaptative metabolic changes in altered gravity. Metabolomic studies could contribute significantly to the understanding of gravity-induced integrative effects in human cells.

Published

2021

25. Lipid-mediated PX-BAR domain recruitment couples local membrane constriction to endocytic vesicle fission

Author

Johannes Schöneberg, Martin Lehmann, Alexander Ullrich, York Posor, Wen-Ting Lo, Gregor Lichtner, Jan Schmoranzer, Volker Haucke, and Frank Noé

Subjects

Science

Abstract

The spatiotemporal regulation of membrane scaffolds recruitment and coupling between membrane deformation and fission in endocytosis are unclear. Here the authors show that lipid conversion at endocytic pits recruits SNX9, which couples local membrane constriction to fission in endocytosis.

Published

2017

26. RIM-BP2 primes synaptic vesicles via recruitment of Munc13-1 at hippocampal mossy fiber synapses

Author

Marisa M Brockmann, Marta Maglione, Claudia G Willmes, Alexander Stumpf, Boris A Bouazza, Laura M Velasquez, M Katharina Grauel, Prateep Beed, Martin Lehmann, Niclas Gimber, Jan Schmoranzer, Stephan J Sigrist, Christian Rosenmund, and Dietmar Schmitz

Subjects

neurotransmitter release, active zone, vesicle priming, calcium channel, hippocampus, Medicine, Science, Biology (General), QH301-705.5

Abstract

All synapses require fusion-competent vesicles and coordinated Ca2+-secretion coupling for neurotransmission, yet functional and anatomical properties are diverse across different synapse types. We show that the presynaptic protein RIM-BP2 has diversified functions in neurotransmitter release at different central murine synapses and thus contributes to synaptic diversity. At hippocampal pyramidal CA3-CA1 synapses, RIM-BP2 loss has a mild effect on neurotransmitter release, by only regulating Ca2+-secretion coupling. However, at hippocampal mossy fiber synapses, RIM-BP2 has a substantial impact on neurotransmitter release by promoting vesicle docking/priming and vesicular release probability via stabilization of Munc13-1 at the active zone. We suggest that differences in the active zone organization may dictate the role a protein plays in synaptic transmission and that differences in active zone architecture is a major determinant factor in the functional diversity of synapses.

Published

2019

27. Low wnt/β-catenin signaling determines leaky vessels in the subfornical organ and affects water homeostasis in mice

Author

Fabienne Benz, Viraya Wichitnaowarat, Martin Lehmann, Raoul FV Germano, Diana Mihova, Jadranka Macas, Ralf H Adams, M Mark Taketo, Karl-Heinz Plate, Sylvaine Guérit, Benoit Vanhollebeke, and Stefan Liebner

Subjects

circumventricular organs, subfornical organ, beta-catenin, blood-brain barrier, Wnt, water homeostasis, Medicine, Science, Biology (General), QH301-705.5

Abstract

The circumventricular organs (CVOs) in the central nervous system (CNS) lack a vascular blood-brain barrier (BBB), creating communication sites for sensory or secretory neurons, involved in body homeostasis. Wnt/β-catenin signaling is essential for BBB development and maintenance in endothelial cells (ECs) in most CNS vessels. Here we show that in mouse development, as well as in adult mouse and zebrafish, CVO ECs rendered Wnt-reporter negative, suggesting low level pathway activity. Characterization of the subfornical organ (SFO) vasculature revealed heterogenous claudin-5 (Cldn5) and Plvap/Meca32 expression indicative for tight and leaky vessels, respectively. Dominant, EC-specific β-catenin transcription in mice, converted phenotypically leaky into BBB-like vessels, by augmenting Cldn5+vessels, stabilizing junctions and by reducing Plvap/Meca32+ and fenestrated vessels, resulting in decreased tracer permeability. Endothelial tightening augmented neuronal activity in the SFO of water restricted mice. Hence, regulating the SFO vessel barrier may influence neuronal function in the context of water homeostasis.

Published

2019

28. eNOS-NO-induced small blood vessel relaxation requires EHD2-dependent caveolae stabilization.

Author

Claudia Matthaeus, Xiaoming Lian, Séverine Kunz, Martin Lehmann, Cheng Zhong, Carola Bernert, Ines Lahmann, Dominik N Müller, Maik Gollasch, and Oliver Daumke

Subjects

Medicine, Science

Abstract

Endothelial nitric oxide synthase (eNOS)-related vessel relaxation is a highly coordinated process that regulates blood flow and pressure and is dependent on caveolae. Here, we investigated the role of caveolar plasma membrane stabilization by the dynamin-related ATPase EHD2 on eNOS-nitric oxide (NO)-dependent vessel relaxation. Loss of EHD2 in small arteries led to increased numbers of caveolae that were detached from the plasma membrane. Concomitantly, impaired relaxation of mesenteric arteries and reduced running wheel activity were observed in EHD2 knockout mice. EHD2 deletion or knockdown led to decreased production of nitric oxide (NO) although eNOS expression levels were not changed. Super-resolution imaging revealed that eNOS was redistributed from the plasma membrane to internalized detached caveolae in EHD2-lacking tissue or cells. Following an ATP stimulus, reduced cytosolic Ca2+ peaks were recorded in human umbilical vein endothelial cells (HUVECs) lacking EHD2. Our data suggest that EHD2-controlled caveolar dynamics orchestrates the activity and regulation of eNOS/NO and Ca2+ channel localization at the plasma membrane.

Published

2019

29. Thioredoxin h2 and o1 Show Different Subcellular Localizations and Redox-Active Functions, and Are Extrachloroplastic Factors Influencing Photosynthetic Performance in Fluctuating Light

Author

Liang-Yu Hou, Martin Lehmann, and Peter Geigenberger

Subjects

Trx o1, Trx h2, metabolomics, ascorbate, glutathione, NAD(P)(H), Therapeutics. Pharmacology, RM1-950

Abstract

Arabidopsis contains eight different h-type thioredoxins (Trx) being distributed in different cell organelles. Although Trx h2 is deemed to be confined to mitochondria, its subcellular localization and function are discussed controversially. Here, cell fractionation studies were used to clarify this question, showing Trx h2 protein to be exclusively localized in microsomes rather than mitochondria. Furthermore, Arabidopsis trxo1, trxh2 and trxo1h2 mutants were analyzed to compare the role of Trx h2 with mitochondrial Trx o1. Under medium light, trxo1 and trxo1h2 showed impaired growth, while trxh2 was similar to wild type. In line with this, trxo1 and trxo1h2 clustered differently from wild type with respect to nocturnal metabolite profiles, revealing a decrease in ascorbate and glutathione redox states. Under fluctuating light, these genotypic differences were attenuated. Instead, the trxo1h2 double mutant showed an improved NADPH redox balance, compared to wild type, accompanied by increased photosynthetic efficiency, specifically in the high-light phases. Conclusively, Trx h2 and Trx o1 are differentially localized in microsomes and mitochondria, respectively, which is associated with different redox-active functions and effects on plant growth in constant light, while there is a joint role of both Trxs in regulating NADPH redox balance and photosynthetic performance in fluctuating light.

Published

2021

30. Super-Resolution Imaging of Tight and Adherens Junctions: Challenges and Open Questions

Author

Hannes Gonschior, Volker Haucke, and Martin Lehmann

Subjects

super-resolution microscopy, structured illumination microscopy, stimulated emission depletion, single molecule localization microscopy, adherens junction, tight junction, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The tight junction (TJ) and the adherens junction (AJ) bridge the paracellular cleft of epithelial and endothelial cells. In addition to their role as protective barriers against bacteria and their toxins they maintain ion homeostasis, cell polarity, and mechano-sensing. Their functional loss leads to pathological changes such as tissue inflammation, ion imbalance, and cancer. To better understand the consequences of such malfunctions, the junctional nanoarchitecture is of great importance since it remains so far largely unresolved, mainly because of major difficulties in dynamically imaging these structures at sufficient resolution and with molecular precision. The rapid development of super-resolution imaging techniques ranging from structured illumination microscopy (SIM), stimulated emission depletion (STED) microscopy, and single molecule localization microscopy (SMLM) has now enabled molecular imaging of biological specimens from cells to tissues with nanometer resolution. Here we summarize these techniques and their application to the dissection of the nanoscale molecular architecture of TJs and AJs. We propose that super-resolution imaging together with advances in genome engineering and functional analyses approaches will create a leap in our understanding of the composition, assembly, and function of TJs and AJs at the nanoscale and, thereby, enable a mechanistic understanding of their dysfunction in disease.

Published

2020

31. Inhibition of oxidative stress in cholinergic projection neurons fully rescues aging-associated olfactory circuit degeneration in Drosophila

Author

Ashiq Hussain, Atefeh Pooryasin, Mo Zhang, Laura F Loschek, Marco La Fortezza, Anja B Friedrich, Catherine-Marie Blais, Habibe K Üçpunar, Vicente A Yépez, Martin Lehmann, Nicolas Gompel, Julien Gagneur, Stephan J Sigrist, and Ilona C Grunwald Kadow

Subjects

olfactory system, ageing, neurodegeneration, oxidative stress, behaviour, Medicine, Science, Biology (General), QH301-705.5

Abstract

Loss of the sense of smell is among the first signs of natural aging and neurodegenerative diseases such as Alzheimer’s and Parkinson’s. Cellular and molecular mechanisms promoting this smell loss are not understood. Here, we show that Drosophila melanogaster also loses olfaction before vision with age. Within the olfactory circuit, cholinergic projection neurons show a reduced odor response accompanied by a defect in axonal integrity and reduction in synaptic marker proteins. Using behavioral functional screening, we pinpoint that expression of the mitochondrial reactive oxygen scavenger SOD2 in cholinergic projection neurons is necessary and sufficient to prevent smell degeneration in aging flies. Together, our data suggest that oxidative stress induced axonal degeneration in a single class of neurons drives the functional decline of an entire neural network and the behavior it controls. Given the important role of the cholinergic system in neurodegeneration, the fly olfactory system could be a useful model for the identification of drug targets.

Published

2018

32. Phosphatidylinositol 4,5-bisphosphate optical uncaging potentiates exocytosis

Author

Alexander M Walter, Rainer Müller, Bassam Tawfik, Keimpe DB Wierda, Paulo S Pinheiro, André Nadler, Anthony W McCarthy, Iwona Ziomkiewicz, Martin Kruse, Gregor Reither, Jens Rettig, Martin Lehmann, Volker Haucke, Bertil Hille, Carsten Schultz, and Jakob Balslev Sørensen

Subjects

phosphatidylinositols, exocytosis, adrenal chromaffin cell, synaptotagmin, Munc13, optical uncaging, Medicine, Science, Biology (General), QH301-705.5

Abstract

Phosphatidylinositol-4,5-bisphosphate [PI(4,5)P2] is essential for exocytosis. Classical ways of manipulating PI(4,5)P2 levels are slower than its metabolism, making it difficult to distinguish effects of PI(4,5)P2 from those of its metabolites. We developed a membrane-permeant, photoactivatable PI(4,5)P2, which is loaded into cells in an inactive form and activated by light, allowing sub-second increases in PI(4,5)P2 levels. By combining this compound with electrophysiological measurements in mouse adrenal chromaffin cells, we show that PI(4,5)P2 uncaging potentiates exocytosis and identify synaptotagmin-1 (the Ca2+ sensor for exocytosis) and Munc13-2 (a vesicle priming protein) as the relevant effector proteins. PI(4,5)P2 activation of exocytosis did not depend on the PI(4,5)P2-binding CAPS-proteins, suggesting that PI(4,5)P2 uncaging may bypass CAPS-function. Finally, PI(4,5)P2 uncaging triggered the rapid fusion of a subset of readily-releasable vesicles, revealing a rapid role of PI(4,5)P2 in fusion triggering. Thus, optical uncaging of signaling lipids can uncover their rapid effects on cellular processes and identify lipid effectors.

Published

2017

33. Cytoskeletal stability and metabolic alterations in primary human macrophages in long-term microgravity.

Author

Svantje Tauber, Beatrice A Lauber, Katrin Paulsen, Liliana E Layer, Martin Lehmann, Swantje Hauschild, Naomi R Shepherd, Jennifer Polzer, Jürgen Segerer, Cora S Thiel, and Oliver Ullrich

Subjects

Medicine, Science

Abstract

The immune system is one of the most affected systems of the human body during space flight. The cells of the immune system are exceptionally sensitive to microgravity. Thus, serious concerns arise, whether space flight associated weakening of the immune system ultimately precludes the expansion of human presence beyond the Earth's orbit. For human space flight, it is an urgent need to understand the cellular and molecular mechanisms by which altered gravity influences and changes the functions of immune cells. The CELLBOX-PRIME (= CellBox-Primary Human Macrophages in Microgravity Environment) experiment investigated for the first time microgravity-associated long-term alterations in primary human macrophages, one of the most important effector cells of the immune system. The experiment was conducted in the U.S. National Laboratory on board of the International Space Station ISS using the NanoRacks laboratory and Biorack type I standard CELLBOX EUE type IV containers. Upload and download were performed with the SpaceX CRS-3 and the Dragon spaceship on April 18th, 2014 / May 18th, 2014. Surprisingly, primary human macrophages exhibited neither quantitative nor structural changes of the actin and vimentin cytoskeleton after 11 days in microgravity when compared to 1g controls. Neither CD18 or CD14 surface expression were altered in microgravity, however ICAM-1 expression was reduced. The analysis of 74 metabolites in the cell culture supernatant by GC-TOF-MS, revealed eight metabolites with significantly different quantities when compared to 1g controls. In particular, the significant increase of free fucose in the cell culture supernatant was associated with a significant decrease of cell surface-bound fucose. The reduced ICAM-1 expression and the loss of cell surface-bound fucose may contribute to functional impairments, e.g. the activation of T cells, migration and activation of the innate immune response. We assume that the surprisingly small and non-significant cytoskeletal alterations represent a stable "steady state" after adaptive processes are initiated in the new microgravity environment. Due to the utmost importance of the human macrophage system for the elimination of pathogens and the clearance of apoptotic cells, its apparent robustness to a low gravity environment is crucial for human health and performance during long-term space missions.

Published

2017

34. Cross-over endocytosis of claudins is mediated by interactions via their extracellular loops.

Author

Nora Gehne, Agathe Lamik, Martin Lehmann, Reiner F Haseloff, Anuska V Andjelkovic, and Ingolf E Blasig

Subjects

Medicine, Science

Abstract

Claudins (Cldns) are transmembrane tight junction (TJ) proteins that paracellularly seal endo- and epithelial barriers by their interactions within the TJs. However, the mechanisms allowing TJ remodeling while maintaining barrier integrity are largely unknown. Cldns and occludin are heterophilically and homophilically cross-over endocytosed into neighboring cells in large, double membrane vesicles. Super-resolution microscopy confirmed the presence of Cldns in these vesicles and revealed a distinct separation of Cldns derived from opposing cells within cross-over endocytosed vesicles. Colocalization of cross-over endocytosed Cldn with the autophagosome markers as well as inhibition of autophagosome biogenesis verified involvement of the autophagosomal pathway. Accordingly, cross-over endocytosed Cldns underwent lysosomal degradation as indicated by lysosome markers. Cross-over endocytosis of Cldn5 depended on clathrin and caveolin pathways but not on dynamin. Cross-over endocytosis also depended on Cldn-Cldn-interactions. Amino acid substitutions in the second extracellular loop of Cldn5 (F147A, Q156E) caused impaired cis- and trans-interaction, as well as diminished cross-over endocytosis. Moreover, F147A exhibited an increased mobility in the membrane, while Q156E was not as mobile but enhanced the paracellular permeability. In conclusion, the endocytosis of TJ proteins depends on their ability to interact strongly with each other in cis and trans, and the mobility of Cldns in the membrane is not necessarily an indicator of barrier permeability. TJ-remodeling via cross-over endocytosis represents a general mechanism for the degradation of transmembrane proteins in cell-cell contacts and directly links junctional membrane turnover to autophagy.

Published

2017

35. Functional Expression and Regulation of Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels (HCN) in Mouse iPS Cell-derived Cardiomyocytes after UTF1-Neo Selection

Author

Judith Semmler, Martin Lehmann, Kurt Pfannkuche, Michael Reppel, Jürgen Hescheler, and Filomain Nguemo

Subjects

Cardiomyocytes, Heart development, Induced pluripotent stem cells, Hyperpolarization-activated cation channel, Whole-cell patch-clamp, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: In vitro reprogramming of somatic cells holds great potential to serve as an autologous source of cells for tissue repair. However, major difficulties in achieving this potential include obtaining homogeneous and stable cells for transplantation. High electrical activity of cells such as cardiomyocytes (CMs) is crucial for both, safety and efficiency of cell replacement therapy. Moreover, the function of the cardiac pacemaker is controlled by the activities of hyperpolarization-activated cyclic nucleotide-gated (HCN) channels. Here we have examined changes in HCN gene expression and function during cardiomyogenesis. Methods: We differentiated murine iPS cells selected by an undifferentiated transcription factor 1 (UTF1) -promoter-driven G418 resistance to CMs in vitro and characterized them by RT-PCR, immunocytochemistry, and electrophysiology. Results: As key cardiac markers alpha-actinin and cardiac troponin T could be identified in derived CMs. Immunocytochemical staining of CMs showed the presence of all HCN subunits (HCN1-4). Electrophysiology experiments revealed developmental changes of action potentials and If currents as well as functional hormonal regulation and sensitivity to If channel blockers. Conclusion: We conclude that iPS cells derived from UTF-selection give rise to functional CMs in vitro, with established hormonal regulation pathways and functionally expressed If current in a development-dependent manner; and have all phenotypes with the pacemaker as predominant subtype. This might be of great importance for transplantation purposes.

Published

2014

36. The depiction of America on Martin Waldseemüller’s world map from 1507—Humanistic geography in the service of political propaganda

Author

Martin Lehmann

Subjects

america, waldseemüller, ringmann, vespucci, columbus, continens, insula, propaganda, india, interdisciplinary humanities, Fine Arts, Arts in general, NX1-820, General Works, History of scholarship and learning. The humanities, AZ20-999

Abstract

This paper demonstrates that the depiction of America on Waldseemüller’s world map of 1507, regardless of its apparently modern depiction, was not a rendering based primarily on geographical knowledge of new discoveries across the Atlantic Ocean. On the contrary, this depiction of America should instead be considered to have been much more influenced by the extremely powerful political and economic interests of the Portuguese Crown and the southern German-trading houses in the impending conflict with the Spanish royal family over supremacy in the spice trade with India. After having demonstrated that this map’s depiction of America, which based on an insular conception, neither corresponded to contemporary ideas nor was verifiable in any way at the beginning of the sixteenth century in the European cultural sphere, the map itself will serve—in a way that has not yet been employed in research related to Waldseemüller’s world map—to illustrate the extent to which this supposedly groundbreaking depiction was capable of serving the political and economic interests of the Portuguese and those of the southern German merchant houses in equal measure.

Published

2016

37. CHARACTERIZATION OF THE FORMATION OF FILTER PAPER USING THE BARTLETT SPECTRUM OF THE FIBER STRUCTURE

Author

Martin Lehmann, Jobst Eisengräber-Pabst, Joachim Ohser, and Ali Moghiseh

Subjects

Bartlett spectrum, chart cloudiness, fiber system, filter paper, formation, image analysis, Medicine (General), R5-920, Mathematics, QA1-939

Abstract

The formation index of filter paper is one of the most important characteristics used in industrial quality control. Its estimation is often based on subjective comparison chart rating or, even more objective, on the power spectrum of the paper structure observed on a transmission light table. It is shown that paper formation can be modeled as Gaussian random fields with a well defined class of correlation functions, and a formation index can be derived from the density of the Bartlett spectrum estimated from image data. More precisely, the formation index is the mean of the Bessel transform of the correlation taken for wave lengths between 2 and 5 mm.

Published

2013

38. Screening of Vision and Hearing in Primary School Children

Author

Martin Lehmann Boesen and Kirsten Lykke

Subjects

Children, hearing, senses, sight, vision, Medicine

Abstract

Background: Hearing and sight are two basic senses in terms of education and profession. The World Health Organization (WHO) estimates that 15 million children worldwide suffer from uncorrected refractive disorders and another 275 million people are handicapped due to compromised hearing. In Indonesia, screening primary school children for hearing and vision is not part of the free public health-care system. Knowledge of the status of a child′s hearing and vision may help secure the child′s education and future profession. Materials and Methods: In five primary schools in a poor urban neighborhood in Yogyakarta, Indonesia, we screened pupils from class 1 to 6, for vision and hearing handicaps, following the WHO′s definitions of handicap. On location in the primary schools, we screened vision using a Snellen chart and hearing using distortion product otoacoustic emission (DPOAE). Those with vision below 6/18 were referred to an ophthalmologist and pupils with hearing below 30 decibels at 0.5, 1, 2, and 4 kilohertz were referred to an ear nose and throat (ENT) specialist for final testing. Results: Totally, 775 pupils were vision screened and 777 pupils were hearing screened. We found that 2% were disabled by sight and 6% by hearing. Conclusion: Lost without proper education, these pupils can, with simple recommendations, have access to education. We recommend that Indonesia start screening its primary school pupils for hearing and vision to secure the country′s future productivity and socioeconomic development.

Published

2012

39. How HIV-1 Takes Advantage of the Cytoskeleton during Replication and Cell-to-Cell Transmission

Author

Vincent Piguet, Martin Lehmann, and Damjan S. Nikolic

Subjects

HIV-1, actin, microtubules, virological synapse, dendritic cells, cell-to-cell transfer, Microbiology, QR1-502

Abstract

Human immunodeficiency virus 1 (HIV-1) infects T cells, macrophages and dendritic cells and can manipulate their cytoskeleton structures at multiple steps during its replication cycle. Based on pharmacological and genetic targeting of cytoskeleton modulators, new imaging approaches and primary cell culture models, important roles for actin and microtubules during entry and cell-to-cell transfer have been established. Virological synapses and actin-containing membrane extensions can mediate HIV-1 transfer from dendritic cells or macrophage cells to T cells and between T cells. We will review the role of the cytoskeleton in HIV-1 entry, cellular trafficking and cell-to-cell transfer between primary cells.

Published

2011

40. Evidence for a critical role of catecholamines for cardiomyocyte lineage commitment in murine embryonic stem cells.

Author

Martin Lehmann, Filomain Nguemo, Vilas Wagh, Kurt Pfannkuche, Jürgen Hescheler, and Michael Reppel

Subjects

Medicine, Science

Abstract

Catecholamine release is known to modulate cardiac output by increasing heart rate. Although much is known about catecholamine function and regulation in adults, little is known about the presence and role of catecholamines during heart development. The present study aimed therefore to evaluate the effects of different catecholamines on early heart development in an in vitro setting using embryonic stem (ES) cell-derived cardiomyocytes. Effects of catecholamine depletion induced by reserpine were examined in murine ES cells (line D3, αPIG44) during differentiation. Cardiac differentiation was assessed by immunocytochemistry, qRT-PCR, quantification of beating clusters, flow cytometry and pharmacological approaches. Proliferation was analyzed by EB cross-section measurements, while functionality of cardiomyocytes was studied by extracellular field potential (FP) measurements using microelectrode arrays (MEAs). To further differentiate between substance-specific effects of reserpine and catecholamine action via α- and β-receptors we proved the involvement of adrenergic receptors by application of unspecific α- and β-receptor antagonists. Reserpine treatment led to remarkable down-regulation of cardiac-specific genes, proteins and mesodermal marker genes. In more detail, the average ratio of ∼40% spontaneously beating control clusters was significantly reduced by 100%, 91.1% and 20.0% on days 10, 12, and 14, respectively. Flow cytometry revealed a significant reduction (by 71.6%, n = 11) of eGFP positive CMs after reserpine treatment. By contrast, reserpine did not reduce EB growth while number of neuronal cells in reserpine-treated EBs was significantly increased. MEA measurements of reserpine-treated EBs showed lower FP frequencies and weak responsiveness to adrenergic and muscarinic stimulation. Interestingly we found that developmental inhibition after α- and β-adrenergic blocker application mimicked developmental changes with reserpine. Using several methodological approaches our data suggest that reserpine inhibits cardiac differentiation. Thus catecholamines play a critical role during development.

Published

2013

41. Quantitative multicolor super-resolution microscopy reveals tetherin HIV-1 interaction.

Author

Martin Lehmann, Susana Rocha, Bastien Mangeat, Fabien Blanchet, Hiroshi Uji-I, Johan Hofkens, and Vincent Piguet

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Virus assembly and interaction with host-cell proteins occur at length scales below the diffraction limit of visible light. Novel super-resolution microscopy techniques achieve nanometer resolution of fluorescently labeled molecules. The cellular restriction factor tetherin (also known as CD317, BST-2 or HM1.24) inhibits the release of human immunodeficiency virus 1 (HIV-1) through direct incorporation into viral membranes and is counteracted by the HIV-1 protein Vpu. For super-resolution analysis of HIV-1 and tetherin interactions, we established fluorescence labeling of HIV-1 proteins and tetherin that preserved HIV-1 particle formation and Vpu-dependent restriction, respectively. Multicolor super-resolution microscopy revealed important structural features of individual HIV-1 virions, virus assembly sites and their interaction with tetherin at the plasma membrane. Tetherin localization to micro-domains was dependent on both tetherin membrane anchors. Tetherin clusters containing on average 4 to 7 tetherin dimers were visualized at HIV-1 assembly sites. Combined biochemical and super-resolution analysis revealed that extended tetherin dimers incorporate both N-termini into assembling virus particles and restrict HIV-1 release. Neither tetherin domains nor HIV-1 assembly sites showed enrichment of the raft marker GM1. Together, our super-resolution microscopy analysis of HIV-1 interactions with tetherin provides new insights into the mechanism of tetherin-mediated HIV-1 restriction and paves the way for future studies of virus-host interactions.

Published

2011

42. HIV-1 Vpu neutralizes the antiviral factor Tetherin/BST-2 by binding it and directing its beta-TrCP2-dependent degradation.

Author

Bastien Mangeat, Gustavo Gers-Huber, Martin Lehmann, Madeleine Zufferey, Jeremy Luban, and Vincent Piguet

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Host cells impose a broad range of obstacles to the replication of retroviruses. Tetherin (also known as CD317, BST-2 or HM1.24) impedes viral release by retaining newly budded HIV-1 virions on the surface of cells. HIV-1 Vpu efficiently counteracts this restriction. Here, we show that HIV-1 Vpu induces the depletion of tetherin from cells. We demonstrate that this phenomenon correlates with the ability of Vpu to counteract the antiviral activity of both overexpressed and interferon-induced endogenous tetherin. In addition, we show that Vpu co-immunoprecipitates with tetherin and beta-TrCP in a tri-molecular complex. This interaction leads to Vpu-mediated proteasomal degradation of tetherin in a beta-TrCP2-dependent manner. Accordingly, in conditions where Vpu-beta-TrCP2-tetherin interplay was not operative, including cells stably knocked down for beta-TrCP2 expression or cells expressing a dominant negative form of beta-TrCP, the ability of Vpu to antagonize the antiviral activity of tetherin was severely impaired. Nevertheless, tetherin degradation did not account for the totality of Vpu-mediated counteraction against the antiviral factor, as binding of Vpu to tetherin was sufficient for a partial relief of the restriction. Finally, we show that the mechanism used by Vpu to induce tetherin depletion implicates the cellular ER-associated degradation (ERAD) pathway, which mediates the dislocation of ER membrane proteins into the cytosol for subsequent proteasomal degradation. In conclusion, we show that Vpu interacts with tetherin to direct its beta-TrCP2-dependent proteasomal degradation, thereby alleviating the blockade to the release of infectious virions. Identification of tetherin binding to Vpu provides a potential novel target for the development of drugs aimed at inhibiting HIV-1 replication.

Published

2009

43. Alexandreis: Lateinisch - deutsch

Author

Walter von Châtillon, Martin Lehmann

Published

2023

44. A framework for evaluating continuous microservice delivery strategies.

Author

Martin Lehmann and Frode Eika Sandnes

Published

2017

45. Particle technology’s contributions to the major challenges of the 21st century A predictive retrospective as a particular birthday present of IChemE

Author

Martin Morgeneyer, Hermann Josef Feise, Jerry Y.Y. Heng, Martin Lehmann, Daniele Marchisio, Maria Rasteiro, and Steve Ward-Smith

Subjects

200 years IChemE, Future of particle technology, Happy birthday, General Chemical Engineering, General Chemistry

Published

2022

46. Neue Aspekte der perioperativen Organprotektion

Author

Martin Lehmann, Alexander Zarbock, and Jan Rossaint

Published

2022

47. Synoptische Quellenanalyse und die Frage nach dem historischen Jesus: Kriterien der Jesusforschung untersucht in Auseinandersetzung mit Emanuel Hirschs Frühgeschichte des Evangeliums

Author

Martin Lehmann

Published

2018

48. Data Analysis as a Service: An Infrastructure for Storing and Analyzing the Internet of Things.

Author

Martin Lehmann, Andreas Biørn-Hansen, Gheorghita Ghinea, Tor-Morten Grønli, and Muhammad Younas 0001

Published

2015

49. Influence of cold atmospheric-pressure-plasma in combination with different pretreatment methods on the pull-off tensile load in two-piece abutment-crowns: an in-vitro study

Author

Carolin-Isabel Görgen, Kawe Sagheb, Karl Martin Lehmann, Irene Schmidtmann, and Stefan Wentaschek

Subjects

General Dentistry

Abstract

Background In implant prosthetic dentistry, the adhesive connection of individualized ceramic crowns and prefabricated titanium bases leads to several benefits. However, the durability of the bonding could be a weak point and especially depends on sufficient surface pretreatment. Cold atmospheric-pressure plasma (CAP) is a pretreatment method that should improve the surface properties without physical damage. Thus, the purpose of this study was to investigate the influence of CAP treatment on pull-off tensile load in two-piece abutment crowns. Methods Eighty zirconia crowns and titanium bases were divided into eight groups (n = 10) according to their surface pretreatment prior to cementation with Panavia V5: no treatment (A); sandblasting (B); 10-MDP primer (C); sandblasting and primer (D); CAP (AP); sandblasting and CAP (BP); CAP and primer (CP); sandblasting, CAP and primer (DP). The specimens were thermocycled (5°/55°, 5000 cycles), and then the pull-off tensile load (TL) was measured. Statistical analyses were performed using three-way ANOVA with Tukey post-hoc and Fisher’s exact tests. Results The results showed that the TL was highest in group D (p Conclusion Within the limitations of this study, CAP treatment cannot be recommended in this specific field of indication due to its unreliable influence on TL in combination with other pretreatment methods.

Published

2023

50. N-Methyl deuterated rhodamines for protein labelling in sensitive fluorescence microscopy

Author

Kilian Roßmann, Kerem C. Akkaya, Pascal Poc, Corentin Charbonnier, Jenny Eichhorst, Hannes Gonschior, Abha Valavalkar, Nicolas Wendler, Thorben Cordes, Benjamin Dietzek-Ivanšić, Ben Jones, Martin Lehmann, and Johannes Broichhagen

Subjects

General Chemistry

Abstract

Deuteration enhances photophysical and chemical properties of fluorescent rhodamine dyes for higher brightness in sensitive microscopy.

Published

2022