Your search keyword '"Olaf Jahn"' showing total 177 results

1. Protein translation rate determines neocortical neuron fate

Author

Ekaterina Borisova, Andrew G. Newman, Marta Couce Iglesias, Rike Dannenberg, Theres Schaub, Bo Qin, Alexandra Rusanova, Marisa Brockmann, Janina Koch, Marieatou Daniels, Paul Turko, Olaf Jahn, David R. Kaplan, Marta Rosário, Takao Iwawaki, Christian M. T. Spahn, Christian Rosenmund, David Meierhofer, Matthew L. Kraushar, Victor Tarabykin, and Mateusz C. Ambrozkiewicz

Subjects

Science

Abstract

Abstract The mammalian neocortex comprises an enormous diversity regarding cell types, morphology, and connectivity. In this work, we discover a post-transcriptional mechanism of gene expression regulation, protein translation, as a determinant of cortical neuron identity. We find specific upregulation of protein synthesis in the progenitors of later-born neurons and show that translation rates and concomitantly protein half-lives are inherent features of cortical neuron subtypes. In a small molecule screening, we identify Ire1α as a regulator of Satb2 expression and neuronal polarity. In the developing brain, Ire1α regulates global translation rates, coordinates ribosome traffic, and the expression of eIF4A1. Furthermore, we demonstrate that the Satb2 mRNA translation requires eIF4A1 helicase activity towards its 5’-untranslated region. Altogether, we show that cortical neuron diversity is generated by mechanisms operating beyond gene transcription, with Ire1α-safeguarded proteostasis serving as an essential regulator of brain development.

Published

2024

2. Temporal dynamics of acoustic diversity in managed forests

Author

Sandra Müller, Olaf Jahn, Kirsten Jung, Oliver Mitesser, Christian Ammer, Stefan Böhm, Martin Ehbrecht, Almo Farina, Swen C. Renner, Nadia Pieretti, Peter Schall, Marco Tschapka, Konstans Wells, and Michael Scherer-Lorenzen

Subjects

acoustic diversity index, acoustic diversity, temporal dynamics, forest management, ecoacoustics, soundscape phenology, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

IntroductionIn production forests, management can have cascading effects on biodiversity and ecosystem services. Acoustic diversity reflects the diversity of vocalizing animals and has also considerable recreational value for human well-being, but the relationship between acoustic diversity and forest management remains largely unexploredMethodWe recorded acoustic diversity on forest plots along a gradient of silvicultural management intensity (SMI) in three regions of Germany. We explored the diurnal and seasonal temporal dynamics in acoustic diversity index (ADI) from March to July using generalized additive mixed models (GAMMs). We further investigated the interrelation between acoustic diversity and silvicultural management intensity, forest structural diversity, as well as tree diversity, bird species richness and abundance using structural equation modeling (SEM).ResultsSilvicultural management intensity had significant effects on the temporal dynamics of ADI in May and June from dawn till dusk, but variance explained by SMI was low. We confirmed our hypothesis that ADI was reduced by SMI due to its cascading effects on forest structural diversity and bird species richness and abundance.DiscussionAcoustic diversity indices can provide valuable insights into how forest management affects the acoustic activity of soniferous communities. We discuss how this can indicate both changes in species diversity as well as their vocal activity. We further address potential implications for forest management.

Published

2024

3. Light-dependent regulation of neurotransmitter release from rod photoreceptor ribbon synapses involves an interplay of Complexin 4 and Transducin with the SNARE complex

Author

Uwe Thorsten Lux, Jutta Meyer, Olaf Jahn, Adam Davison, Norbert Babai, Andreas Gießl, Anna Wartenberg, Heinrich Sticht, Nils Brose, Kerstin Reim, and Johann Helmut Brandstätter

Subjects

mouse retina, G protein, ribbon synapses, neurotransmitter release, rod photoreceptor, light adaptation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Adaptation of photoreceptor sensitivity to varying light intensities is a fundamental requirement for retinal function and vision. Adaptive mechanisms in signal transduction are well described, but little is known about the mechanisms that adapt the photoreceptor synapse to changing light intensities. The SNARE complex regulators Complexin 3 and Complexin 4 have been proposed to be involved in synaptic light adaptation by limiting synaptic vesicle recruitment and fusion. How this Complexin effect is exerted is unknown. Focusing on rod photoreceptors, we established Complexin 4 as the predominant Complexin in the light-dependent regulation of neurotransmitter release. The number of readily releasable synaptic vesicles is significantly smaller in light than in dark at wildtype compared to Complexin 4 deficient rod photoreceptor ribbon synapses. Electrophysiology indicates that Complexin 4 reduces or clamps Ca2+-dependent sustained synaptic vesicle release, thereby enhancing light signaling at the synapse. Complexin 4 deficiency increased synaptic vesicle release and desensitized light signaling. In a quantitative proteomic screen, we identified Transducin as an interactor of the Complexin 4-SNARE complex. Our results provide evidence for a presynaptic interplay of both Complexin 4 and Transducin with the SNARE complex, an interplay that may facilitate the adaptation of synaptic transmission to light at rod photoreceptor ribbon synapses.

Published

2024

4. Is plasma amyloid-β 1–42/1–40 a better biomarker for Alzheimer’s disease than AβX–42/X–40?

Author

Hans-Wolfgang Klafki, Barbara Morgado, Oliver Wirths, Olaf Jahn, Chris Bauer, Hermann Esselmann, Johannes Schuchhardt, and Jens Wiltfang

Subjects

Alzheimer’s disease, Biomarker, Amyloid-β peptides, Blood plasma, Aβ42/40 ratio, Immunoassay, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background A reduced amyloid-β (Aβ)42/40 peptide ratio in blood plasma represents a peripheral biomarker of the cerebral amyloid pathology observed in Alzheimer’s disease brains. The magnitude of the measurable effect in plasma is smaller than in cerebrospinal fluid, presumably due to dilution by Aβ peptides originating from peripheral sources. We hypothesized that the observable effect in plasma can be accentuated to some extent by specifically measuring Aβ1–42 and Aβ1–40 instead of AβX–42 and AβX–40. Methods We assessed the plasma AβX–42/X–40 and Aβ1–42/1–40 ratios in an idealized clinical sample by semi-automated Aβ immunoprecipitation followed by closely related sandwich immunoassays. The amyloid-positive and amyloid-negative groups (dichotomized according to Aβ42/40 in cerebrospinal fluid) were compared regarding the median difference, mean difference, standardized effect size (Cohen’s d) and receiver operating characteristic curves. For statistical evaluation, we applied bootstrapping. Results The median Aβ1–42/1–40 ratio was 20.86% lower in amyloid-positive subjects than in the amyloid-negative group, while the median AβX–42/X–40 ratio was only 15.56% lower. The relative mean difference between amyloid-positive and amyloid-negative subjects was −18.34% for plasma Aβ1–42/1–40 compared to −15.50% for AβX–42/X–40. Cohen’s d was 1.73 for Aβ1–42/1–40 and 1.48 for plasma AβX–42/X–40. Unadjusted p-values

Published

2022

5. White matter integrity in mice requires continuous myelin synthesis at the inner tongue

Author

Martin Meschkat, Anna M. Steyer, Marie-Theres Weil, Kathrin Kusch, Olaf Jahn, Lars Piepkorn, Paola Agüi-Gonzalez, Nhu Thi Ngoc Phan, Torben Ruhwedel, Boguslawa Sadowski, Silvio O. Rizzoli, Hauke B. Werner, Hannelore Ehrenreich, Klaus-Armin Nave, and Wiebke Möbius

Subjects

Science

Abstract

Myelin is formed of proteins of long half-lives. The mechanisms of renewal of such a stable structure are unclear. Here, the authors show that myelin integrity requires continuous myelin synthesis at the inner tongue, contributing to the maintenance of a functional axon-myelin unit.

Published

2022

6. Brain Region-Specific Differences in Amyloid-β Plaque Composition in 5XFAD Mice

Author

Angelika Sabine Bader, Marius-Uwe Gnädig, Merle Fricke, Luca Büschgens, Lena Josefine Berger, Hans-Wolfgang Klafki, Thomas Meyer, Olaf Jahn, Sascha Weggen, and Oliver Wirths

Subjects

Alzheimer’s disease, amyloid, Abeta, 5XFAD, transgenic mice, plaque load, Science

Abstract

Senile plaques consisting of amyloid-beta (Aβ) peptides are a major pathological hallmark of Alzheimer’s disease (AD). Aβ peptides are heterogeneous regarding the exact length of their amino- and carboxy-termini. Aβ1-40 and Aβ1-42 are often considered to represent canonical “full-length” Aβ species. Using immunohistochemistry, we analyzed the distribution of Aβ1-x, Aβx-42 and Aβ4-x species in amyloid deposits in the subiculum, hippocampus and cortex in 5XFAD mice during aging. Overall plaque load increased in all three brain regions, with the subiculum being the area with the strongest relative plaque coverage. In the subiculum, but not in the other brain regions, the Aβ1-x load peaked at an age of five months and decreased thereafter. In contrast, the density of plaques positive for N-terminally truncated Aβ4-x species increased continuously over time. We hypothesize that ongoing plaque remodeling takes place, leading to a conversion of deposited Aβ1-x peptides into Aβ4-x peptides in brain regions with a high Aβ plaque burden.

Published

2023

7. Conservation and divergence of myelin proteome and oligodendrocyte transcriptome profiles between humans and mice

Author

Vasiliki-Ilya Gargareta, Josefine Reuschenbach, Sophie B Siems, Ting Sun, Lars Piepkorn, Carolina Mangana, Erik Späte, Sandra Goebbels, Inge Huitinga, Wiebke Möbius, Klaus-Armin Nave, Olaf Jahn, and Hauke B Werner

Subjects

Oligodendrocyte, myelin sheath, axon-glia interaction, label-free proteomics, scRNA-seq, cross-species comparison, Medicine, Science, Biology (General), QH301-705.5

Abstract

Human myelin disorders are commonly studied in mouse models. Since both clades evolutionarily diverged approximately 85 million years ago, it is critical to know to what extent the myelin protein composition has remained similar. Here, we use quantitative proteomics to analyze myelin purified from human white matter and find that the relative abundance of the structural myelin proteins PLP, MBP, CNP, and SEPTIN8 correlates well with that in C57Bl/6N mice. Conversely, multiple other proteins were identified exclusively or predominantly in human or mouse myelin. This is exemplified by peripheral myelin protein 2 (PMP2), which was specific to human central nervous system myelin, while tetraspanin-2 (TSPAN2) and connexin-29 (CX29/GJC3) were confined to mouse myelin. Assessing published scRNA-seq-datasets, human and mouse oligodendrocytes display well-correlating transcriptome profiles but divergent expression of distinct genes, including Pmp2, Tspan2, and Gjc3. A searchable web interface is accessible via www.mpinat.mpg.de/myelin. Species-dependent diversity of oligodendroglial mRNA expression and myelin protein composition can be informative when translating from mouse models to humans.

Published

2022

8. Progressive axonopathy when oligodendrocytes lack the myelin protein CMTM5

Author

Tobias J Buscham, Maria A Eichel-Vogel, Anna M Steyer, Olaf Jahn, Nicola Strenzke, Rakshit Dardawal, Tor R Memhave, Sophie B Siems, Christina Müller, Martin Meschkat, Ting Sun, Torben Ruhwedel, Wiebke Möbius, Eva-Maria Krämer-Albers, Susann Boretius, Klaus-Armin Nave, and Hauke B Werner

Subjects

oligodendrocyte, myelin sheath, axon/glia-interaction, axon degeneration, focused ion beam scanning electron microscopy, differential myelin proteome analysis, Medicine, Science, Biology (General), QH301-705.5

Abstract

Oligodendrocytes facilitate rapid impulse propagation along the axons they myelinate and support their long-term integrity. However, the functional relevance of many myelin proteins has remained unknown. Here, we find that expression of the tetraspan-transmembrane protein CMTM5 (chemokine-like factor-like MARVEL-transmembrane domain containing protein 5) is highly enriched in oligodendrocytes and central nervous system (CNS) myelin. Genetic disruption of the Cmtm5 gene in oligodendrocytes of mice does not impair the development or ultrastructure of CNS myelin. However, oligodendroglial Cmtm5 deficiency causes an early-onset progressive axonopathy, which we also observe in global and tamoxifen-induced oligodendroglial Cmtm5 mutants. Presence of the WldS mutation ameliorates the axonopathy, implying a Wallerian degeneration-like pathomechanism. These results indicate that CMTM5 is involved in the function of oligodendrocytes to maintain axonal integrity rather than myelin biogenesis.

Published

2022

9. Proteome Profile of Myelin in the Zebrafish Brain

Author

Sophie B. Siems, Olaf Jahn, Laura J. Hoodless, Ramona B. Jung, Dörte Hesse, Wiebke Möbius, Tim Czopka, and Hauke B. Werner

Subjects

oligodendrocyte, myelin proteome, myelin evolution, label-free proteomics, MBP, MPZ, Biology (General), QH301-705.5

Abstract

The velocity of nerve conduction along vertebrate axons depends on their ensheathment with myelin. Myelin membranes comprise specialized proteins well characterized in mice. Much less is known about the protein composition of myelin in non-mammalian species. Here, we assess the proteome of myelin biochemically purified from the brains of adult zebrafish (Danio rerio), considering its increasing popularity as model organism for myelin biology. Combining gel-based and gel-free proteomic approaches, we identified > 1,000 proteins in purified zebrafish myelin, including all known constituents. By mass spectrometric quantification, the predominant Ig-CAM myelin protein zero (MPZ/P0), myelin basic protein (MBP), and the short-chain dehydrogenase 36K constitute 12%, 8%, and 6% of the total myelin protein, respectively. Comparison with previously established mRNA-abundance profiles shows that expression of many myelin-related transcripts coincides with the maturation of zebrafish oligodendrocytes. Zebrafish myelin comprises several proteins that are not present in mice, including 36K, CLDNK, and ZWI. However, a surprisingly large number of ortholog proteins is present in myelin of both species, indicating partial evolutionary preservation of its constituents. Yet, the relative abundance of CNS myelin proteins can differ markedly as exemplified by the complement inhibitor CD59 that constitutes 5% of the total zebrafish myelin protein but is a low-abundant myelin component in mice. Using novel transgenic reporter constructs and cryo-immuno electron microscopy, we confirm the incorporation of CD59 into myelin sheaths. These data provide the first proteome resource of zebrafish CNS myelin and demonstrate both similarities and heterogeneity of myelin composition between teleost fish and rodents.

Published

2021

10. The CNS Myelin Proteome: Deep Profile and Persistence After Post-mortem Delay

Author

Olaf Jahn, Sophie B. Siems, Kathrin Kusch, Dörte Hesse, Ramona B. Jung, Thomas Liepold, Marina Uecker, Ting Sun, and Hauke B. Werner

Subjects

oligodendrocyte, myelin proteome, central nervous system (CNS), demyelination, post-mortem delay, autopsy, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Myelin membranes are dominated by lipids while the complexity of their protein composition has long been considered to be low. However, numerous additional myelin proteins have been identified since. Here we revisit the proteome of myelin biochemically purified from the brains of healthy c56Bl/6N-mice utilizing complementary proteomic approaches for deep qualitative and quantitative coverage. By gel-free, label-free mass spectrometry, the most abundant myelin proteins PLP, MBP, CNP, and MOG constitute 38, 30, 5, and 1% of the total myelin protein, respectively. The relative abundance of myelin proteins displays a dynamic range of over four orders of magnitude, implying that PLP and MBP have overshadowed less abundant myelin constituents in initial gel-based approaches. By comparisons with published datasets we evaluate to which degree the CNS myelin proteome correlates with the mRNA and protein abundance profiles of myelin and oligodendrocytes. Notably, the myelin proteome displays only minor changes if assessed after a post-mortem delay of 6 h. These data provide the most comprehensive proteome resource of CNS myelin so far and a basis for addressing proteomic heterogeneity of myelin in mouse models and human patients with white matter disorders.

Published

2020

11. Proteome profile of peripheral myelin in healthy mice and in a neuropathy model

Author

Sophie B Siems, Olaf Jahn, Maria A Eichel, Nirmal Kannaiyan, Lai Man N Wu, Diane L Sherman, Kathrin Kusch, Dörte Hesse, Ramona B Jung, Robert Fledrich, Michael W Sereda, Moritz J Rossner, Peter J Brophy, and Hauke B Werner

Subjects

schwann cell, peripheral nervous system, myelin proteome, charcot-marie-tooth (cmt) neuropathy, demyelination, Medicine, Science, Biology (General), QH301-705.5

Abstract

Proteome and transcriptome analyses aim at comprehending the molecular profiles of the brain, its cell-types and subcellular compartments including myelin. Despite the relevance of the peripheral nervous system for normal sensory and motor capabilities, analogous approaches to peripheral nerves and peripheral myelin have fallen behind evolving technical standards. Here we assess the peripheral myelin proteome by gel-free, label-free mass-spectrometry for deep quantitative coverage. Integration with RNA-Sequencing-based developmental mRNA-abundance profiles and neuropathy disease genes illustrates the utility of this resource. Notably, the periaxin-deficient mouse model of the neuropathy Charcot-Marie-Tooth 4F displays a highly pathological myelin proteome profile, exemplified by the discovery of reduced levels of the monocarboxylate transporter MCT1/SLC16A1 as a novel facet of the neuropathology. This work provides the most comprehensive proteome resource thus far to approach development, function and pathology of peripheral myelin, and a straightforward, accurate and sensitive workflow to address myelin diversity in health and disease.

Published

2020

12. The Calmodulin Binding Region of the Synaptic Vesicle Protein Mover Is Required for Homomeric Interaction and Presynaptic Targeting

Author

Asha Kiran Akula, Xin Zhang, Julio S. Viotti, Dennis Nestvogel, Jeong-Seop Rhee, Rene Ebrecht, Kerstin Reim, Fred Wouters, Thomas Liepold, Olaf Jahn, Ivan Bogeski, and Thomas Dresbach

Subjects

synaptic vesicle, mover, TPRGL, calmodulin, presynaptic, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Neurotransmitter release is mediated by an evolutionarily conserved machinery. The synaptic vesicle (SV) associated protein Mover/TPRGL/SVAP30 does not occur in all species and all synapses. Little is known about its molecular properties and how it may interact with the conserved components of the presynaptic machinery. Here, we show by deletion analysis that regions required for homomeric interaction of Mover are distributed across the entire molecule, including N-terminal, central and C-terminal regions. The same regions are also required for the accumulation of Mover in presynaptic terminals of cultured neurons. Mutating two phosphorylation sites in N-terminal regions did not affect these properties. In contrast, a point mutation in the predicted Calmodulin (CaM) binding sequence of Mover abolished both homomeric interaction and presynaptic targeting. We show that this sequence indeed binds Calmodulin, and that recombinant Mover increases Calmodulin signaling upon heterologous expression. Our data suggest that presynaptic accumulation of Mover requires homomeric interaction mediated by regions distributed across large areas of the protein, and corroborate the hypothesis that Mover functionally interacts with Calmodulin signaling.

Published

2019

13. Cytosolic Trapping of a Mitochondrial Heat Shock Protein Is an Early Pathological Event in Synucleinopathies

Author

Éva M. Szegő, Antonio Dominguez-Meijide, Ellen Gerhardt, Annekatrin König, David J. Koss, Wen Li, Raquel Pinho, Christiane Fahlbusch, Mary Johnson, Patricia Santos, Anna Villar-Piqué, Tobias Thom, Silvio Rizzoli, Matthias Schmitz, Jiayi Li, Inga Zerr, Johannes Attems, Olaf Jahn, and Tiago F. Outeiro

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Alpha-synuclein (aSyn) accumulates in intracellular inclusions in synucleinopathies, but the molecular mechanisms leading to disease are unclear. We identify the 10 kDa heat shock protein (HSP10) as a mediator of aSyn-induced mitochondrial impairments in striatal synaptosomes. We find an age-associated increase in the cytosolic levels of HSP10, and a concomitant decrease in the mitochondrial levels, in aSyn transgenic mice. The levels of superoxide dismutase 2, a client of the HSP10/HSP60 folding complex, and synaptosomal spare respiratory capacity are also reduced. Overexpression of HSP10 ameliorates aSyn-associated mitochondrial dysfunction and delays aSyn pathology in vitro and in vivo. Altogether, our data indicate that increased levels of aSyn induce mitochondrial deficits, at least partially, by sequestering HSP10 in the cytosol and preventing it from acting in mitochondria. Importantly, these alterations manifest first at presynaptic terminals. Our study not only provides mechanistic insight into synucleinopathies but opens new avenues for targeting underlying cellular pathologies. : Szegő et al. identify HSP10 as a modulator of alpha-synuclein-induced mitochondrial impairment in striatal synaptosomes. Age-associated increase in the cytosolic and decrease in mitochondrial levels of HSP10 results in a reduction in the levels of SOD2 and of synaptosomal ATP production on demand. HSP10 overexpression delays alpha-synuclein pathology both in vitro and in vivo. Keywords: HSP10, alpha-synuclein, Parkinson’s disease, mitochondria, synaptosome, striatum, proteostasis

Published

2019

14. Acute Complexin Knockout Abates Spontaneous and Evoked Transmitter Release

Author

Francisco José López-Murcia, Kerstin Reim, Olaf Jahn, Holger Taschenberger, and Nils Brose

Subjects

Biology (General), QH301-705.5

Abstract

Summary: SNARE-mediated synaptic vesicle (SV) fusion is controlled by multiple regulatory proteins that determine neurotransmitter release efficiency. Complexins are essential SNARE regulators whose mode of action is unclear, as available evidence indicates positive SV fusion facilitation and negative “fusion clamp”-like activities, with the latter occurring only in certain contexts. Because these contradictory findings likely originate in part from different experimental perturbation strategies, we attempted to resolve them by examining a conditional complexin-knockout mouse line as the most stringent genetic perturbation model available. We found that acute complexin loss after synaptogenesis in autaptic and mass-cultured hippocampal neurons reduces SV fusion probability and thus abates the rates of spontaneous, synchronous, asynchronous, and delayed transmitter release but does not affect SV priming or cause “unclamping” of spontaneous SV fusion. Thus, complexins act as facilitators of SV fusion but are dispensable for “fusion clamping” in mammalian forebrain neurons. : Complexins are thought to either promote synaptic vesicle fusion or act as “fusion clamps.” López-Murcia et al. show that acute genetic complexin deletion reduces the rates of all forms of transmitter release in forebrain neurons without affecting vesicle priming. Thus, complexins are facilitators of vesicle fusion and dispensable for “fusion clamping.” Keywords: complexin, synaptic vesicle, fusion, hippocampal neurons, synaptic transmission

Published

2019

15. Anillin facilitates septin assembly to prevent pathological outfoldings of central nervous system myelin

Author

Michelle S Erwig, Julia Patzig, Anna M Steyer, Payam Dibaj, Mareike Heilmann, Ingo Heilmann, Ramona B Jung, Kathrin Kusch, Wiebke Möbius, Olaf Jahn, Klaus-Armin Nave, and Hauke B Werner

Subjects

oligodendrocyte, myelin pathology, myelin outfoldings / redundant myelin, focused ion beam scanning electron microscopy (FIB-SEM), septin filament, anillin (ANLN), Medicine, Science, Biology (General), QH301-705.5

Abstract

Myelin serves as an axonal insulator that facilitates rapid nerve conduction along axons. By transmission electron microscopy, a healthy myelin sheath comprises compacted membrane layers spiraling around the cross-sectioned axon. Previously we identified the assembly of septin filaments in the innermost non-compacted myelin layer as one of the latest steps of myelin maturation in the central nervous system (CNS) (Patzig et al., 2016). Here we show that loss of the cytoskeletal adaptor protein anillin (ANLN) from oligodendrocytes disrupts myelin septin assembly, thereby causing the emergence of pathological myelin outfoldings. Since myelin outfoldings are a poorly understood hallmark of myelin disease and brain aging we assessed axon/myelin-units in Anln-mutant mice by focused ion beam-scanning electron microscopy (FIB-SEM); myelin outfoldings were three-dimensionally reconstructed as large sheets of multiple compact membrane layers. We suggest that anillin-dependent assembly of septin filaments scaffolds mature myelin sheaths, facilitating rapid nerve conduction in the healthy CNS.

Published

2019

16. Development and Technical Validation of an Immunoassay for the Detection of APP669–711 (Aβ−3–40) in Biological Samples

Author

Hans W. Klafki, Petra Rieper, Anja Matzen, Silvia Zampar, Oliver Wirths, Jonathan Vogelgsang, Dirk Osterloh, Lara Rohdenburg, Timo J. Oberstein, Olaf Jahn, Isaak Beyer, Ingolf Lachmann, Hans-Joachim Knölker, and Jens Wiltfang

Subjects

Alzheimer’s disease, biomarker, amyloid β, assay development, assay validation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The ratio of amyloid precursor protein (APP)669–711 (Aβ−3–40)/Aβ1–42 in blood plasma was reported to represent a novel Alzheimer’s disease biomarker. Here, we describe the characterization of two antibodies against the N-terminus of Aβ−3–x and the development and “fit-for-purpose” technical validation of a sandwich immunoassay for the measurement of Aβ−3–40. Antibody selectivity was assessed by capillary isoelectric focusing immunoassay, Western blot analysis, and immunohistochemistry. The analytical validation addressed assay range, repeatability, specificity, between-run variability, impact of pre-analytical sample handling procedures, assay interference, and analytical spike recoveries. Blood plasma was analyzed after Aβ immunoprecipitation by a two-step immunoassay procedure. Both monoclonal antibodies detected Aβ−3–40 with no appreciable cross reactivity with Aβ1–40 or N-terminally truncated Aβ variants. However, the amyloid precursor protein was also recognized. The immunoassay showed high selectivity for Aβ−3–40 with a quantitative assay range of 22 pg/mL–7.5 ng/mL. Acceptable intermediate imprecision of the complete two-step immunoassay was reached after normalization. In a small clinical sample, the measured Aβ42/Aβ−3–40 and Aβ42/Aβ40 ratios were lower in patients with dementia of the Alzheimer’s type than in other dementias. In summary, the methodological groundwork for further optimization and future studies addressing the Aβ42/Aβ−3–40 ratio as a novel biomarker candidate for Alzheimer’s disease has been set.

Published

2020

17. The Secretome Analysis of Activated Human Renal Fibroblasts Revealed Beneficial Effect of the Modulation of the Secreted Peptidyl-Prolyl Cis-Trans Isomerase A in Kidney Fibrosis

Author

Gry H. Dihazi, Marwa Eltoweissy, Olaf Jahn, Björn Tampe, Michael Zeisberg, Hauke S. Wülfrath, Gerhard A. Müller, and Hassan Dihazi

Subjects

secretome, kidney fibrosis, PPIA, transforming growth factor beta 1 (TGFβ1), Cytology, QH573-671

Abstract

The secretome is an important mediator in the permanent process of reciprocity between cells and their environment. Components of secretome are involved in a large number of physiological mechanisms including differentiation, migration, and extracellular matrix modulation. Alteration in secretome composition may therefore trigger cell transformation, inflammation, and diseases. In the kidney, aberrant protein secretion plays a central role in cell activation and transition and in promoting renal fibrosis onset and progression. Using comparative proteomic analyses, we investigated in the present study the impact of cell transition on renal fibroblast cells secretome. Human renal cell lines were stimulated with profibrotic hormones and cytokines, and alterations in secretome were investigated using proteomic approaches. We identified protein signatures specific for the fibrotic phenotype and investigated the impact of modeling secretome proteins on extra cellular matrix accumulation. The secretion of peptidyl-prolyl cis-trans isomerase A (PPIA) was demonstrated to be associated with fibrosis phenotype. We showed that the in-vitro inhibition of PPIA with ciclosporin A (CsA) resulted in downregulation of PPIA and fibronectin (FN1) expression and significantly reduced their secretion. Knockdown studies of PPIA in a three-dimensional (3D) cell culture model significantly impaired the secretion and accumulation of the extracellular matrix (ECM), suggesting a positive therapeutic effect on renal fibrosis progression.

Published

2020

18. Delineating the Molecular Basis of the Calmodulin–bMunc13-2 Interaction by Cross-Linking/Mass Spectrometry—Evidence for a Novel CaM Binding Motif in bMunc13-2

Author

Christine Piotrowski, Rocco Moretti, Christian H. Ihling, André Haedicke, Thomas Liepold, Noa Lipstein, Jens Meiler, Olaf Jahn, and Andrea Sinz

Subjects

munc13, calmodulin, cross-linking, mass spectrometry, protein–protein interaction, Cytology, QH573-671

Abstract

Exploring the interactions between the Ca2+ binding protein calmodulin (CaM) and its target proteins remains a challenging task. Members of the Munc13 protein family play an essential role in short-term synaptic plasticity, modulated via the interaction with CaM at the presynaptic compartment. In this study, we focus on the bMunc13-2 isoform expressed in the brain, as strong changes in synaptic transmission were observed upon its mutagenesis or deletion. The CaM−bMunc13-2 interaction was previously characterized at the molecular level using short bMunc13-2-derived peptides only, revealing a classical 1−5−10 CaM binding motif. Using larger protein constructs, we have now identified for the first time a novel and unique CaM binding site in bMunc13-2 that contains an N-terminal extension of a classical 1−5−10 CaM binding motif. We characterize this motif using a range of biochemical and biophysical methods and highlight its importance for the CaM−bMunc13-2 interaction.

Published

2020

19. Automated Sound Recognition Provides Insights into the Behavioral Ecology of a Tropical Bird.

Author

Olaf Jahn, Todor D Ganchev, Marinez I Marques, and Karl-L Schuchmann

Subjects

Medicine, Science

Abstract

Computer-assisted species recognition facilitates the analysis of relevant biological information in continuous audio recordings. In the present study, we assess the suitability of this approach for determining distinct life-cycle phases of the Southern Lapwing Vanellus chilensis lampronotus based on adult vocal activity. For this purpose we use passive 14-min and 30-min soundscape recordings (n = 33 201) collected in 24/7 mode between November 2012 and October 2013 in Brazil's Pantanal wetlands. Time-stamped detections of V. chilensis call events (n = 62 292) were obtained with a species-specific sound recognizer. We demonstrate that the breeding season fell in a three-month period from mid-May to early August 2013, between the end of the flood cycle and the height of the dry season. Several phases of the lapwing's life history were identified with presumed error margins of a few days: pre-breeding, territory establishment and egg-laying, incubation, hatching, parental defense of chicks, and post-breeding. Diurnal time budgets confirm high acoustic activity levels during midday hours in June and July, indicative of adults defending young. By August, activity patterns had reverted to nonbreeding mode, with peaks around dawn and dusk and low call frequency during midday heat. We assess the current technological limitations of the V. chilensis recognizer through a comprehensive performance assessment and scrutinize the usefulness of automated acoustic recognizers in studies on the distribution pattern, ecology, life history, and conservation status of sound-producing animal species.

Published

2017

20. Mapping Cellular Microenvironments: Proximity Labeling and Complexome Profiling (Seventh Symposium of the Göttingen Proteomics Forum)

Author

Oliver Valerius, Abdul R. Asif, Tim Beißbarth, Rainer Bohrer, Hassan Dihazi, Kirstin Feussner, Olaf Jahn, Andrzej Majcherczyk, Bernhard Schmidt, Kerstin Schmitt, Henning Urlaub, and Christof Lenz

Subjects

proteomics, complexome profiling, proximity labeling, mass spectrometry, Cytology, QH573-671

Abstract

Mass spectrometry-based proteomics methods are finding increasing use in structural biology research. Beyond simple interaction networks, information about stable protein-protein complexes or spatially proximal proteins helps to elucidate the biological functions of proteins in a wider cellular context. To shed light on new developments in this field, the Göttingen Proteomics Forum organized a one-day symposium focused on complexome profiling and proximity labeling, two emerging technologies that are gaining significant attention in biomolecular research. The symposium was held in Göttingen, Germany on 23 May, 2019, as part of a series of regular symposia organized by the Göttingen Proteomics Forum.

Published

2019

21. The functional readthrough extension of malate dehydrogenase reveals a modification of the genetic code

Author

Julia Hofhuis, Fabian Schueren, Christopher Nötzel, Thomas Lingner, Jutta Gärtner, Olaf Jahn, and Sven Thoms

Subjects

translational readthrough, genetic code, peroxisome, mdh1x, ldhbx, redox shuttle, Biology (General), QH301-705.5

Abstract

Translational readthrough gives rise to C-terminally extended proteins, thereby providing the cell with new protein isoforms. These may have different properties from the parental proteins if the extensions contain functional domains. While for most genes amino acid incorporation at the stop codon is far lower than 0.1%, about 4% of malate dehydrogenase (MDH1) is physiologically extended by translational readthrough and the actual ratio of MDH1x (extended protein) to ‘normal' MDH1 is dependent on the cell type. In human cells, arginine and tryptophan are co-encoded by the MDH1x UGA stop codon. Readthrough is controlled by the 7-nucleotide high-readthrough stop codon context without contribution of the subsequent 50 nucleotides encoding the extension. All vertebrate MDH1x is directed to peroxisomes via a hidden peroxisomal targeting signal (PTS) in the readthrough extension, which is more highly conserved than the extension of lactate dehydrogenase B. The hidden PTS of non-mammalian MDH1x evolved to be more efficient than the PTS of mammalian MDH1x. These results provide insight into the genetic and functional co-evolution of these dually localized dehydrogenases.

Published

2016

22. Partial Immunoblotting of 2D-Gels: A Novel Method to Identify Post-Translationally Modified Proteins Exemplified for the Myelin Acetylome

Author

Kathrin Kusch, Marina Uecker, Thomas Liepold, Wiebke Möbius, Christian Hoffmann, Heinz Neumann, Hauke B. Werner, and Olaf Jahn

Subjects

post-translational modification (PTM), 2D gel electrophoresis (2DE) blot, myelin, acetylome, SERPA, immunoproteomics, tubulin acetylation, cyclic nucleotide phosphodiesterase (CNP), septin 8 (SEPT8), isoelectric focusing (IEF), immunoblot, cryo immuno-electron microscopy (IEM), Microbiology, QR1-502

Abstract

Post-translational modifications (PTMs) play a key role in regulating protein function, yet their identification is technically demanding. Here, we present a straightforward workflow to systematically identify post-translationally modified proteins based on two-dimensional gel electrophoresis. Upon colloidal Coomassie staining the proteins are partially transferred, and the investigated PTMs are immunodetected. This strategy allows tracking back the immunopositive antigens to the corresponding spots on the original gel, from which they are excised and mass spectrometrically identified. Candidate proteins are validated on the same membrane by immunodetection using a second fluorescence channel. We exemplify the power of partial immunoblotting with the identification of lysine-acetylated proteins in myelin, the oligodendroglial membrane that insulates neuronal axons. The excellent consistency of the detected fluorescence signals at all levels allows the differential comparison of PTMs across multiple conditions. Beyond PTM screening, our multi-level workflow can be readily adapted to clinical applications such as identifying auto-immune antigens or host-pathogen interactions.

Published

2017

23. Munc13-like skMLCK variants cannot mimic the unique calmodulin binding mode of Munc13 as evidenced by chemical cross-linking and mass spectrometry.

Author

Sabine Herbst, Daniel Maucher, Marian Schneider, Christian H Ihling, Olaf Jahn, and Andrea Sinz

Subjects

Medicine, Science

Abstract

Among the neuronal binding partners of calmodulin (CaM) are Munc13 proteins as essential presynaptic regulators that play a key role in synaptic vesicle priming and are crucial for presynaptic short-term plasticity. Recent NMR structural investigations of a CaM/Munc13-1 peptide complex have revealed an extended structure, which contrasts the compact structures of most classical CaM/target complexes. This unusual binding mode is thought to be related to the presence of an additional hydrophobic anchor residue at position 26 of the CaM binding motif of Munc13-1, resulting in a novel 1-5-8-26 motif. Here, we addressed the question whether the 1-5-8-26 CaM binding motif is a Munc13-related feature or whether it can be induced in other CaM targets by altering the motif's core residues. For this purpose, we chose skeletal muscle myosin light chain kinase (skMLCK) with a classical 1-5-8-14 CaM binding motif and constructed three skMLCK peptide variants mimicking Munc13-1, in which the hydrophobic anchor amino acid at position 14 was moved to position 26. Chemical cross-linking between CaM and skMLCK peptide variants combined with high-resolution mass spectrometry yielded insights into the peptides' binding modes. This structural comparison together with complementary binding data from surface plasmon resonance experiments revealed that skMLCK variants with an artificial 1-5-8-26 motif cannot mimic CaM binding of Munc13-1. Apparently, additional features apart from the spacing of the hydrophobic anchor residues are required to define the functional 1-5-8-26 motif of Munc13-1. We conclude that Munc13 proteins display a unique CaM binding behavior to fulfill their role as efficient presynaptic calcium sensors over broad range of Ca(2+) concentrations.

Published

2013

24. Differential sialylation of serpin A1 in the early diagnosis of Parkinson's disease dementia.

Author

Sarah Jesse, Stefan Lehnert, Olaf Jahn, Lucilla Parnetti, Hilkka Soininen, Sanna-Kaisa Herukka, Petra Steinacker, Saskia Tawfik, Hayrettin Tumani, Christine A F von Arnim, Manuela Neumann, Hans A Kretzschmar, Hasan Kulaksiz, Martin Lenter, Jens Wiltfang, Boris Ferger, Bastian Hengerer, and Markus Otto

Subjects

Medicine, Science

Abstract

The prevalence of Parkinson's disease (PD) increases with age. Up to 50% of PD show cognitive decline in terms of a mild cognitive impairment already in early stages that predict the development of dementia, which can occur in up to 80% of PD patients over the long term, called Parkinson's disease dementia (PDD). So far, diagnosis of PD/PDD is made according to clinical and neuropsychological examinations while laboratory data is only used for exclusion of other diseases. The aim of this study was the identification of possible biomarkers in cerebrospinal fluid (CSF) of PD, PDD and controls (CON) which predict the development of dementia in PD. For this, a proteomic approach optimized for CSF was performed using 18 clinically well characterized patients in a first step with subsequent validation using 84 patients. Here, we detected differentially sialylated isoforms of Serpin A1 as marker for differentiation of PD versus PDD in CSF. Performing 2D-immunoblots, all PDD patients could be identified correctly (sensitivity 100%). Ten out of 24 PD patients showed Serpin A1 isoforms in a similar pattern like PDD, indicating a specificity of 58% for the test-procedure. In control samples, no additional isoform was detected. On the basis of these results, we conclude that differentially sialylated products of Serpin A1 are an interesting biomarker to indicate the development of a dementia during the course of PD.

Published

2012

25. A proteomic approach for the diagnosis of bacterial meningitis.

Author

Sarah Jesse, Petra Steinacker, Stefan Lehnert, Martin Sdzuj, Lukas Cepek, Hayrettin Tumani, Olaf Jahn, Holger Schmidt, and Markus Otto

Subjects

Medicine, Science

Abstract

BACKGROUND: The discrimination of bacterial meningitis (BM) versus viral meningitis (VM) shapes up as a problem, when laboratory data are not equivocal, in particular, when Gram stain is negative. METHODOLOGY/PRINCIPAL FINDINGS: With the aim to determine reliable marker for bacterial or viral meningitis, we subjected cerebrospinal fluid (CSF) to a quantitative proteomic screening. By using a recently established 2D-DIGE protocol which was adapted to the individual CSF flow, we compared a small set of patients with proven BM and VM. Thereby, we identified six potential biomarkers out of which Prostaglandin-H2 D-isomerase was already described in BM, showing proof of concept. In the subsequent validation phase on a more comprehensive collective of 80 patients, we could validate that in BM high levels of glial fibrillary acidic protein (GFAP) and low levels of soluble amyloid precursor protein alpha/beta (sAPPalpha/beta) are present as possible binding partner of Fibulin-1. CONCLUSIONS/SIGNIFICANCE: We conclude that our CSF flow-adapted 2D-DIGE protocol is valid especially in comparing samples with high differences in total protein and suppose that GFAP and sAPPalpha/beta have a high potential as additional diagnostic markers for differentiation of BM from VM. In the clinical setting, this might lead to an improved early diagnosis and to an individual therapy.

Published

2010

26. A new paradigm for MAPK: structural interactions of hERK1 with mitochondria in HeLa cells.

Author

Soledad Galli, Olaf Jahn, Reiner Hitt, Doerte Hesse, Lennart Opitz, Uwe Plessmann, Henning Urlaub, Juan Jose Poderoso, Elizabeth A Jares-Erijman, and Thomas M Jovin

Subjects

Medicine, Science

Abstract

Extracellular signal-regulated protein kinase 1 and 2 (ERK1/2) are members of the MAPK family and participate in the transduction of stimuli in cellular responses. Their long-term actions are accomplished by promoting the expression of specific genes whereas faster responses are achieved by direct phosphorylation of downstream effectors located throughout the cell. In this study we determined that hERK1 translocates to the mitochondria of HeLa cells upon a proliferative stimulus. In the mitochondrial environment, hERK1 physically associates with (i) at least 5 mitochondrial proteins with functions related to transport (i.e. VDAC1), signalling, and metabolism; (ii) histones H2A and H4; and (iii) other cytosolic proteins. This work indicates for the first time the presence of diverse ERK-complexes in mitochondria and thus provides a new perspective for assessing the functions of ERK1 in the regulation of cellular signalling and trafficking in HeLa cells.

Published

2009

27. Proteome profiling in murine models of multiple sclerosis: identification of stage specific markers and culprits for tissue damage.

Author

Ralf A Linker, Peter Brechlin, Sarah Jesse, Petra Steinacker, D H Lee, Abdul R Asif, Olaf Jahn, Hayrettin Tumani, Ralf Gold, and Markus Otto

Subjects

Medicine, Science

Abstract

The identification of new biomarkers is of high interest for the prediction of the disease course and also for the identification of pathomechanisms in multiple sclerosis (MS). To specify markers of the chronic disease phase, we performed proteome profiling during the later phase of myelin oligodendrocyte glycoprotein induced experimental autoimmune encephalomyelitis (MOG-EAE, day 35 after immunization) as a model disease mimicking many aspects of secondary progressive MS. In comparison to healthy controls, high resolution 2 dimensional gel electrophoresis revealed a number of regulated proteins, among them glial fibrilary acidic protein (GFAP). Phase specific up-regulation of GFAP in chronic EAE was confirmed by western blotting and immunohistochemistry. Protein levels of GFAP were also increased in the cerebrospinal fluid of MS patients with specificity for the secondary progressive disease phase. In a next step, proteome profiling of an EAE model with enhanced degenerative mechanisms revealed regulation of alpha-internexin, syntaxin binding protein 1, annexin V and glutamate decarboxylase in the ciliary neurotrophic factor (CNTF) knockout mouse. The identification of these proteins implicate an increased apoptosis and enhanced axonal disintegration and correlate well the described pattern of tissue injury in CNTF -/- mice which involve oligodendrocyte (OL) apoptosis and axonal injury.In summary, our findings underscore the value of proteome analyses as screening method for stage specific biomarkers and for the identification of new culprits for tissue damage in chronic autoimmune demyelination.

Published

2009

28. Separation of Bird Calls and DOA estimation using a 4-Microphone Array.

Author

Paul M. Baggenstoss, Karl-Heinz Frommolt, Olaf Jahn, and Frank Kurth

Published

2021

29. Matrix Development for the Detection of Phosphorylated Amyloid-β Peptides by MALDI-TOF-MS

Author

Thomas Liepold, Hans-Wolfgang Klafki, Sathish Kumar, Jochen Walter, Oliver Wirths, Jens Wiltfang, and Olaf Jahn

Subjects

Structural Biology, Spectroscopy

Abstract

Amyloid-β (Aβ) peptides, including post-translationally modified variants thereof, are believed to play a key role in the onset and progression of Alzheimer’s disease. Suggested modified Aβ species with potential disease relevance include Aβ peptides phosphorylated at serine in position eight (pSer8-Aβ) or 26 (pSer26-Aβ). However, the published studies on those Aβ peptides essentially relied on antibody-based approaches. Thus, complementary analyses by mass spectrometry, as shown for other modified Aβ variants, will be necessary not only to unambiguously verify the existence of phosphorylated Aβ species in brain samples but also to reveal their exact identity as to phosphorylation sites and potential terminal truncations. With the aim of providing a novel tool for addressing this still-unresolved issue, we developed a customized matrix formulation, referred to as TOPAC, that allows for improved detection of synthetic phosphorylated Aβ species by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. When TOPAC was compared with standard matrices, we observed higher signal intensities but minimal methionine oxidation and phosphate loss for intact pSer8-Aβ(1–40) and pSer26-Aβ(1–40). Similarly, TOPAC also improved the mass spectrometric detection and sequencing of the proteolytic cleavage products pSer8-Aβ(1–16) and pSer26-Aβ(17–28). We expect that TOPAC will facilitate future efforts to detect and characterize endogenous phosphorylated Aβ species in biological samples and that it may also find its use in phospho-proteomic approaches apart from applications in the Aβ field.

Published

2023

30. C1q is increased in cerebrospinal fluid-derived extracellular vesicles in Alzheimer's disease: A multi-cohort proteomics and immuno-assay validation study

Author

Madhurima Chatterjee, Selcuk Özdemir, Marcel Kunadt, Marleen Koel‐Simmelink, Walter Boiten, Lars Piepkorn, Thang V. Pham, Davide Chiasserini, Sander R. Piersma, Jaco C. Knol, Wiebke Möbius, Brit Mollenhauer, Wiesje M. van der Flier, Connie R. Jimenez, Charlotte E. Teunissen, Olaf Jahn, Anja Schneider, Laboratory Medicine, Anatomy and neurosciences, Medical oncology laboratory, CCA - Cancer biology and immunology, CCA - Imaging and biomarkers, Epidemiology and Data Science, Neurology, APH - Methodology, APH - Personalized Medicine, Amsterdam Neuroscience - Neurodegeneration, Neurochemistry Laboratory, and Amsterdam Neuroscience - Neuroinfection & -inflammation

Subjects

Epidemiology, Health Policy, cerebrospinal fluid (CSF), Psychiatry and Mental health, Cellular and Molecular Neuroscience, immune system, proteomics, Developmental Neuroscience, mild cognitive impairment (MCI), Alzheimer's disease (AD), biomarker, complement, ddc:610, Neurology (clinical), Geriatrics and Gerontology, extracellular vesicles

Abstract

Introduction:Extracellular vesicles (EVs) may propagate and modulate Alzheimer's disease (AD) pathology. We aimed to comprehensively characterize the proteome of cerebrospinal fluid (CSF) EVs to identify proteins and pathways altered in AD.Methods:CSF EVs were isolated by ultracentrifugation (Cohort 1) or Vn96 peptide (Cohort 2) from non-neurodegenerative controls (n = 15, 16) and AD patients (n = 22, 20, respectively). EVs were subjected to untargeted quantitative mass spectrometry-based proteomics. Results were validated by enzyme-linked immunosorbent assay (ELISA) in Cohorts 3 and 4, consisting of controls (n = 16, n = 43, (Cohort3, Cohort4)), and patients with AD (n = 24, n = 100).Results:We found > 30 differentially expressed proteins in AD CSF EVs involved in immune-regulation. Increase of C1q levels in AD compared to non-demented controls was validated by ELISA (∼ 1.5 fold, p (Cohort 3) = 0.03, p (Cohort 4) = 0.005).Discussion:EVs may be utilized as a potential biomarker and may play a so far unprecedented role in immune-regulation in AD.

Published

2023

31. Light Adaptation of Rod Photoreceptor Synapses by a Transducin-Complexin-SNARE Complex Interaction

Author

Uwe Thorsten Lux, Jutta Meyer, Olaf Jahn, Adam Davison, Norbert Babai, Andreas Gießl, Anna Wartenberg, Heinrich Sticht, Nils Brose, Kerstin Reim, and Johann Helmut Brandstätter

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2023

32. Automated Acoustic Classification of Bird Species from Real -Field Recordings.

Author

Iosif Mporas, Todor Ganchev, Otilia Kocsis, Nikos Fakotakis, Olaf Jahn, Klaus Riede, and Karl-L. Schuchmann

Published

2012

33. Acoustic Bird Activity Detection on Real-Field Data.

Author

Todor Ganchev, Iosif Mporas, Olaf Jahn, Klaus Riede, Karl-L. Schuchmann, and Nikos Fakotakis

Published

2012

34. Ketogenic diet uncovers differential metabolic plasticity of brain cells

Author

Tim Düking, Lena Spieth, Stefan A. Berghoff, Lars Piepkorn, Annika M. Schmidke, Miso Mitkovski, Nirmal Kannaiyan, Leon Hosang, Patricia Scholz, Ali H. Shaib, Lennart V. Schneider, Dörte Hesse, Torben Ruhwedel, Ting Sun, Lisa Linhoff, Andrea Trevisiol, Susanne Köhler, Adrian Marti Pastor, Thomas Misgeld, Michael Sereda, Imam Hassouna, Moritz J. Rossner, Francesca Odoardi, Till Ischebeck, Livia de Hoz, Johannes Hirrlinger, Olaf Jahn, and Gesine Saher

Subjects

Mice, Multidisciplinary, Proteome, metabolism [Brain], Carbohydrates, Animals, Brain, ddc:500, metabolism [Ketone Bodies], Ketone Bodies, metabolism [Proteome], Diet, Ketogenic

Abstract

To maintain homeostasis, the body, including the brain, reprograms its metabolism in response to altered nutrition or disease. However, the consequences of these challenges for the energy metabolism of the different brain cell types remain unknown. Here, we generated a proteome atlas of the major central nervous system (CNS) cell types from young and adult mice, after feeding the therapeutically relevant low-carbohydrate, high-fat ketogenic diet (KD) and during neuroinflammation. Under steady-state conditions, CNS cell types prefer distinct modes of energy metabolism. Unexpectedly, the comparison with KD revealed distinct cell type–specific strategies to manage the altered availability of energy metabolites. Astrocytes and neurons but not oligodendrocytes demonstrated metabolic plasticity. Moreover, inflammatory demyelinating disease changed the neuronal metabolic signature in a similar direction as KD. Together, these findings highlight the importance of the metabolic cross-talk between CNS cells and between the periphery and the brain to manage altered nutrition and neurological disease.

Published

2022

35. The taxonomic status of Crimson-crested Turaco Menelikornis (leucotis) donaldsoni

Author

Kai Gedeon, Olaf Jahn, and Till Töpfer

Subjects

Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics

Published

2022

36. Phosphorylation Determines Whether Neuroligin-3 is at Excitatory or Inhibitory Synapses in Different Regions of the Brain

Author

Bekir Altas, Liam P. Tuffy, Annarita Patrizi, Kalina Dimova, Tolga Soykan, Andrea J. Romanowski, Colin D. Robertson, Saovleak N. Khim, Garrett W. Bunce, Mateusz C. Ambrozkiewicz, Oleksandr Yagensky, Dilja Krueger-Burg, Matthieu Hammer, He-Hsuan Hsiao, Pawel R. Laskowski, Lydia Dyck, Marco Sassoè-Pognetto, John J.E. Chua, Henning Urlaub, Olaf Jahn, Nils Brose, and Alexandros Poulopoulos

Abstract

Neuroligin-3 is a postsynaptic adhesion molecule involved in development, function, and pathologies of synapses in the brain. It is a genetic cause of autism and a potent component of the tumor microenvironment in gliomas. There are four Neuroligins that operate at distinct synapse types, selectively interacting with presynaptic adhesion and postsynaptic scaffold proteins. We investigated the subcellular localization and scaffold specificities of synaptic Neuroligin-3 and demonstrate an unexpected pattern of localization to excitatory synapses in cortical areas, and inhibitory synapses in subcortical areas. Using phosphoproteomics, we identify Neuroligin-3-specific serine phosphorylation in cortex and hippocampus that obstructs a key binding site for inhibitory synapse scaffolds. Using in utero CRISPR/Cas9 knockout and replacement with phosphomimetic mutants, we demonstrate that phosphorylation at this site determines excitatory versus inhibitory synapse localization of Neuroligin-3 in vivo. Our data reveal a mechanism that differentially regulates the balance of Neuroligin-3 between excitatory and inhibitory synapses, adding to our emerging understanding of their role in the development of brain connectivity and associated pathologies.

Published

2022

37. Brain Region-Specific Differences in Amyloid-beta Plaque Composition in 5XFAD Mice

Author

Angelika Sabine Bader, Marius-Uwe Gnädig, Merle Fricke, Luca Büschgens, Lena Josefine Berger, Hans-Wolfgang Klafki, Thomas Meyer, Olaf Jahn, Sascha Weggen, and Oliver Wirths

Subjects

Space and Planetary Science, Alzheimer’s disease, amyloid, Abeta, 5XFAD, transgenic mice, plaque load, amino-terminal truncation, immunohistochemistry, Paleontology, General Biochemistry, Genetics and Molecular Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Senile plaques consisting of amyloid-beta (Aβ) peptides are a major pathological hallmark of Alzheimer’s disease (AD). Aβ peptides are heterogeneous regarding the exact length of their amino- and carboxy-termini. Aβ1-40 and Aβ1-42 are often considered to represent canonical “full-length” Aβ species. Using immunohistochemistry, we analyzed the distribution of Aβ1-x, Aβx-42 and Aβ4-x species in amyloid deposits in the subiculum, hippocampus and cortex in 5XFAD mice during aging. Overall plaque load increased in all three brain regions, with the subiculum being the area with the strongest relative plaque coverage. In the subiculum, but not in the other brain regions, the Aβ1-x load peaked at an age of five months and decreased thereafter. In contrast, the density of plaques positive for N-terminally truncated Aβ4-x species increased continuously over time. We hypothesize that ongoing plaque remodeling takes place, leading to a conversion of deposited Aβ1-x peptides into Aβ4-x peptides in brain regions with a high Aβ plaque burden.

Published

2023

38. Author response: Conservation and divergence of myelin proteome and oligodendrocyte transcriptome profiles between humans and mice

Author

Ting Sun, Sophie B Siems, Josefine Reuschenbach, Vasiliki-Ilya Gargareta, Lars Piepkorn, Carolina Mangana, Erik Späte, Sandra Goebbels, Inge Huitinga, Wiebke Möbius, Klaus-Armin Nave, Olaf Jahn, and Hauke B Werner

Published

2022

39. SUMOylation controls the neurodevelopmental function of the transcription factor Zbtb20

Author

Olaf Jahn, Stefan Bonn, Klaus P. Hellmann, Nils Brose, Marilyn Tirard, Kamal Chowdhury, Jeong-Seop Rhee, Orr Shomroni, and Silvia Ripamonti

Subjects

0301 basic medicine, Cell Survival, Cellular differentiation, Primary Cell Culture, SUMO protein, physiology [Neurites], metabolism [Hippocampus], Context (language use), Endogeny, SUMO2, growth & development [Nervous System], Biology, Hippocampus, Nervous System, Biochemistry, Mice, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, biosynthesis [RNA], physiology [Sumoylation], Neurites, Animals, Humans, ddc:610, Gene Knock-In Techniques, genetics [RNA], Transcription factor, Neurons, Mice, Knockout, Zinc finger, Cell growth, Gene Expression Profiling, Sumoylation, genetics [Transcription Factors], physiology [Transcription Factors], Cell biology, Mice, Inbred C57BL, HEK293 Cells, 030104 developmental biology, metabolism [Neurons], RNA, 030217 neurology & neurosurgery, Transcription Factors

Abstract

SUMOylation is a dynamic post-translational protein modification that primarily takes place in cell nuclei, where it plays a key role in multiple DNA-related processes. In neurons, the SUMOylation-dependent control of a subset of neuronal transcription factors is known to regulate various aspects of nerve cell differentiation, development, and function. In an unbiased screen for endogenous SUMOylation targets in the developing mouse brain, based on a His6 -HA-SUMO1 knock-in mouse line, we previously identified the transcription factor Zinc finger and BTB domain-containing 20 (Zbtb20) as a new SUMO1-conjugate. We show here that the three key SUMO paralogues SUMO1, SUMO2, and SUMO3 can all be conjugated to Zbtb20 in vitro in HEK293FT cells, and we confirm the SUMOylation of Zbtb20 in vivo in mouse brain. Using primary hippocampal neurons from wild-type and Zbtb20 knock-out (KO) mice as a model system, we then demonstrate that the expression of Zbtb20 is required for proper nerve cell development and neurite growth and branching. Furthermore, we show that the SUMOylation of Zbtb20 is essential for its function in this context, and provide evidence indicating that SUMOylation affects the Zbtb20-dependent transcriptional profile of neurons. Our data highlight the role of SUMOylation in the regulation of neuronal transcription factors that determine nerve cell development, and they demonstrate that key functions of the transcription factor Zbtb20 in neuronal development and neurite growth are under obligatory SUMOylation control.

Published

2020

40. The murine ortholog of Kaufman oculocerebrofacial syndrome protein Ube3b regulates synapse number by ubiquitinating Ppp3cc

Author

Rachel Straussberg, Marta Rosário, Guntram Borck, Victor Tarabykin, Olaf Jahn, Stephen Horan, A Ioana Weber, Rüstem Yilmaz, Ekrem Dere, Alina Smorodchenko, Hong Jun Rhee, Jeong-Seop Rhee, Susanne Mueller, Katrin I. Willig, Philipp Boehm-Sturm, Manuela Schwark, Mateusz C. Ambrozkiewicz, Sami Zaqout, Ekaterina Borisova, Theres Schaub, Bekir Altas, Silvia Ripamonti, Hiroshi Kawabe, and Lars Piepkorn

Subjects

0301 basic medicine, Microcephaly, Dendritic spine, Dendritic Spines, Ubiquitin-Protein Ligases, Kaufman oculocerebrofacial syndrome, Limb Deformities, Congenital, Hippocampal formation, Synapse, Mice, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, synapse, Intellectual Disability, medicine, Animals, Eye Abnormalities, Molecular Biology, Mice, Knockout, Phenocopy, biology, Calcineurin, Facies, medicine.disease, Phenotype, Cell biology, Ubiquitin ligase, Psychiatry and Mental health, 030104 developmental biology, Ube3b, Mutation, Synapses, biology.protein, 030217 neurology & neurosurgery

Abstract

Kaufman oculocerebrofacial syndrome (KOS) is a severe autosomal recessive disorder characterized by intellectual disability, developmental delays, microcephaly, and characteristic dysmorphisms. Biallelic mutations of UBE3B, encoding for a ubiquitin ligase E3B are causative for KOS. In this report, we characterize neuronal functions of its murine ortholog Ube3b and show that Ube3b regulates dendritic branching in a cell-autonomous manner. Moreover, Ube3b knockout (KO) neurons exhibit increased density and aberrant morphology of dendritic spines, altered synaptic physiology, and changes in hippocampal circuit activity. Dorsal forebrain-specific Ube3b KO animals show impaired spatial learning, altered social interactions, and repetitive behaviors. We further demonstrate that Ube3b ubiquitinates the catalytic γ-subunit of calcineurin, Ppp3cc, the overexpression of which phenocopies Ube3b loss with regard to dendritic spine density. This work provides insights into the molecular pathologies underlying intellectual disability-like phenotypes in a genetically engineered mouse model. This work was supported by the German Research Foundation (SPP1365/KA3423/1-1 and KA3423/3-1, HK; DFG TA 303/4-2, VT), and the Russian Scientific Foundation (19-14-00345, VT), JSPS KAKENHI Grant Numbers 15K21769 (HK), The Mother and Child Health Foundation (HK), the Uehara Memorial Foundation (HK), and the Fritz Thyssen Foundation (HK). Funding to SM and PBS was provided by the German Federal Ministry of Education and Research (BMBF, Center for Stroke Research Berlin 01EO1301), the BMBF under the ERA-NET NEURON scheme (01EW1811), and the German Research Foundation (DFG, Project 428869206 and EXC NeuroCure).

Published

2020

41. Myelin lipids as nervous system energy reserves

Author

Ebrahim Asadollahi, Andrea Trevisiol, Aiman S. Saab, Zoe J. Looser, Payam Dibaj, Kathrin Kusch, Torben Ruhwedel, Wiebke Möbius, Olaf Jahn, Myriam Baes, Bruno Weber, E. Dale Abel, Andrea Balabio, Brian Popko, Celia M. Kassmann, Hannelore Ehrenreich, Johannes Hirrlinger, and Klaus-Armin Nave

Abstract

Neuronal functions and impulse propagation depend on the continuous supply of glucose1,2. Surprisingly, the mammalian brain has no obvious energy stores, except for astroglial glycogen granules3. Oligodendrocytes make myelin for rapid axonal impulse conduction4 and also support axons metabolically with lactate5–7. Here, we show that myelin itself, a lipid-rich membrane compartment, becomes a local energy reserve when glucose is lacking. In the mouse optic nerve, a model white matter tract, oligodendrocytes survive glucose deprivation far better than astrocytes, by utilizing myelin lipids which requires oxygen and fatty acid beta-oxidation. Importantly, fatty acid oxidation also contributes to axonal ATP and basic conductivity. This metabolic support by fatty acids is an oligodendrocyte function, involving mitochondria and myelin-associated peroxisomes, as shown with mice lacking Mfp2. To study reduced glucose availability in vivo without physically starving mice, we deleted the Slc2a1 gene from mature oligodendrocytes. This caused a significant decline of the glucose transporter GLUT1 from the myelin compartment leading to myelin sheath thinning. We suggest a model in which myelin turnover under low glucose conditions can transiently buffer axonal energy metabolism. This model may explain the gradual loss of myelin in a range of neurodegenerative diseases8 with underlying hypometabolism9.

Published

2022

42. Author response: Progressive axonopathy when oligodendrocytes lack the myelin protein CMTM5

Author

Tobias J Buscham, Maria A Eichel-Vogel, Anna M Steyer, Olaf Jahn, Nicola Strenzke, Rakshit Dardawal, Tor R Memhave, Sophie B Siems, Christina Müller, Martin Meschkat, Ting Sun, Torben Ruhwedel, Wiebke Möbius, Eva-Maria Krämer-Albers, Susann Boretius, Klaus-Armin Nave, and Hauke B Werner

Published

2022

43. Detection and quantification of Aβ-3-40 (APP669-711) in cerebrospinal fluid

Author

Hans‐Wolfgang Klafki, Oliver Wirths, Brit Mollenhauer, Thomas Liepold, Petra Rieper, Hermann Esselmann, Jonathan Vogelgsang, Jens Wiltfang, and Olaf Jahn

Subjects

Amyloid, Amyloid beta-Peptides, tau Proteins, cerebrospinal fluid [Amyloid beta-Peptides], Alzheimer's disease, immunoprecipitation, Biochemistry, cerebrospinal fluid, Peptide Fragments, cerebrospinal fluid [Alzheimer Disease], Cellular and Molecular Neuroscience, cerebrospinal fluid [Biomarkers], cerebrospinal fluid [tau Proteins], Alzheimer Disease, Positron-Emission Tomography, mental disorders, biomarker, Humans, ddc:610, cerebrospinal fluid [Peptide Fragments], immunoassay, diagnostic imaging [Alzheimer Disease], Biomarkers, mass spectrometry

Abstract

Neurochemical biomarkers can support the diagnosis of Alzheimer’s disease and may facilitate clinical trials. In blood plasma, the ratio of the amyloid-β (Aβ) peptides Aβ−3– 40/Aβ1–42 can predict cerebral amyloid-β pathology with high accuracy (Nakamura et al., 2018). Whether or not Aβ−3–40 (aka. amyloid precursor protein (APP) 669– 711) is also present in cerebrospinal fluid (CSF) is not clear. Here, we investigated whether Aβ−3–40 can be detected in CSF and to what extent the CSF Aβ−3–40/Aβ42 ratio is able to differentiate between individuals with or without amyloid-β positron emission tomography (PET) evidence of brain amyloid. The occurrence of Aβ−3–40 in human CSF was assessed by immunoprecipitation followed by mass spectrometry. For quantifying the CSF concentrations of Aβ−3–40 in 23 amyloid PET- negative and 17 amyloid PET- positive subjects, we applied a sandwich-type immunoassay. Our findings provide clear evidence of the presence of Aβ−3–40 and Aβ−3–38 in human CSF. While there was no statistically significant difference in the CSF concentration of Aβ−3–40 between the two diagnostic groups, the CSF Aβ−3–40/Aβ42 ratio was increased in the amyloid PET- positive individuals. We conclude that Aβ−3– 40 appears to be a regular constituent of CSF and may potentially serve to accentuate the selec-tive decrease in CSF Aβ42 in Alzheimer's disease.

Published

2021

44. Progressive axonopathy when oligodendrocytes lack the myelin protein CMTM5

Author

Eva-Maria Krämer-Albers, Rakshit Dardawal, Martin Meschkat, Ting Sun, Maria A. Eichel-Vogel, Sophie B Siems, Torben Ruhwedel, Olaf Jahn, Christina Müller, Hauke B. Werner, Susann Boretius, Tor R. Memhave, Wiebke Möbius, Klaus-Armin Nave, Tobias J. Buscham, Anna M. Steyer, and Nicola Strenzke

Subjects

0303 health sciences, Mutation, Biology, medicine.disease_cause, Cell biology, 03 medical and health sciences, Myelin, 0302 clinical medicine, medicine.anatomical_structure, nervous system, Ultrastructure, medicine, 030217 neurology & neurosurgery, Biogenesis, 030304 developmental biology

Abstract

Oligodendrocytes facilitate rapid impulse propagation along the axons they myelinate and support their long-term integrity. However, the functional relevance of many myelin proteins has remained unknown. Here we find that expression of the tetraspan-transmembrane protein CMTM5 (Chemokine-like factor-like MARVEL-transmembrane domain containing protein 5) is highly enriched in oligodendrocytes and CNS myelin. Genetic disruption of the Cmtm5-gene in oligodendrocytes of mice does not impair the development or ultrastructure of CNS myelin. However, oligodendroglial Cmtm5-deficiency causes an early-onset progressive axonopathy, which we also observe in global and in tamoxifen-induced oligodendroglial Cmtm5-mutants. Presence of the Wlds mutation ameliorates the axonopathy, implying a Wallerian degeneration-like pathomechanism. These results indicate that CMTM5 is involved in the function of oligodendrocytes to maintain axonal integrity rather than myelin biogenesis.

Published

2021

45. Ire1α-Regulated mRNA Translation Rate Controls the Identity and Polarity of Upper Layer Cortical Neurons

Author

Theres Schaub, Olaf Jahn, Paul Turko, Marta Rosário, Christian M. T. Spahn, Ekaterina Borisova, Victor Tarabykin, Matthew L. Kraushar, Andrew G. Newman, Takao Iwawaki, Christian Rosenmund, Mateusz C. Ambrozkiewicz, Marisa M Brockmann, Rike Dannenberg, and David L. Kaplan

Subjects

medicine.anatomical_structure, Ribosomal protein, Polarity (physics), medicine, Regulator, Protein biosynthesis, Translation (biology), Axon, Biology, Ribosome, Neuroscience, Cortex (botany)

Abstract

SUMMARYEvolutionary expansion of the neocortex is associated with the increase in upper layer neurons. Here, we present Inositol-Requiring Enzyme 1α, Ire1α, as an essential determinant of upper layer fate, neuronal polarization and cortical lamination. We demonstrate a non-canonical function of Ire1α in the regulation of global translation rates in the developing neocortex through its dynamic interaction with the ribosome and regulation of eIF4A1 and eEF-2 expression. Inactivation of Ire1α engenders lower protein synthesis rates associated with stalled ribosomes and decreased number of translation start sites. We show unique sensitivity of upper layer fate to translation rates. Whereas eEF-2 is required for cortical lamination, eIF4A1 regulates acquisition of upper layer fate downstream of Ire1α in a mechanism of translational control dependent on 5’UTR-embedded structural elements in fate determinant genes. Our data unveil developmental regulation of ribosome dynamics as post-transcriptional mechanisms orchestrating neuronal diversity establishment and assembly of cortical layers.HIGHLIGHTSSmall molecule screening reveals Ire1α upstream of upper layer neuronal identityPolarization and proper lamination of layer II/III neurons require Ire1αDevelopment of upper layers requires high translation rates driven by eIF4A1 and eEF-2 downstream of Ire1αeIF4A1-dependent Satb2 mRNA translation initiation is a mechanism of upper layer fate acquisition

Published

2021

46. Complexin cooperates with Bruchpilot to tether synaptic vesicles to the active zone cytomatrix

Author

Divya Sachidanandan, Steffen Altrichter, Nadine Ehmann, Kerstin Reim, Nicole Scholz, Cordelia Imig, Robert J. Kittel, Olaf Jahn, Jutta Meyer, Marius Lamberty, Manfred Heckmann, Martin Pauli, Nils Brose, Benjamin H. Cooper, Anne Bormann, Stefan Hallermann, Christian Stigloher, and Tobias Langenhan

Subjects

Nerve Tissue Proteins, Neurotransmission, Biology, Synaptic vesicle, Article, Exocytosis, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Protein Domains, Complexin, Animals, Drosophila Proteins, Active zone, Neurotransmitter, Research Articles, Adaptor Proteins, Signal Transducing, 030304 developmental biology, SNARE complex assembly, Mice, Knockout, 0303 health sciences, Neuronal Plasticity, Cell Biology, Cell biology, Adaptor Proteins, Vesicular Transport, Drosophila melanogaster, chemistry, Synaptic Vesicles, SNARE Proteins, 030217 neurology & neurosurgery, Presynaptic active zone

Abstract

By performing an in vivo screen in Drosophila melanogaster, Scholz, Ehmann, et al. identify Complexin as a functional interaction partner of Bruchpilot. The two proteins mediate a physical attachment of synaptic vesicles to the active zone cytomatrix and promote rapid, sustained synaptic transmission., Information processing by the nervous system depends on neurotransmitter release from synaptic vesicles (SVs) at the presynaptic active zone. Molecular components of the cytomatrix at the active zone (CAZ) regulate the final stages of the SV cycle preceding exocytosis and thereby shape the efficacy and plasticity of synaptic transmission. Part of this regulation is reflected by a physical association of SVs with filamentous CAZ structures via largely unknown protein interactions. The very C-terminal region of Bruchpilot (Brp), a key component of the Drosophila melanogaster CAZ, participates in SV tethering. Here, we identify the conserved SNARE regulator Complexin (Cpx) in an in vivo screen for molecules that link the Brp C terminus to SVs. Brp and Cpx interact genetically and functionally. Both proteins promote SV recruitment to the Drosophila CAZ and counteract short-term synaptic depression. Analyzing SV tethering to active zone ribbons of cpx3 knockout mice supports an evolutionarily conserved role of Cpx upstream of SNARE complex assembly.

Published

2019

47. White matter integrity requires continuous myelin synthesis at the inner tongue

Author

Hauke B. Werner, Hannelore Ehrenreich, Paola Agüi-Gonzalez, Olaf Jahn, Torben Ruhwedel, Lars Piepkorn, Anna M. Steyer, Klaus-Armin Nave, Silvio O. Rizzoli, Boguslawa Sadowski, Kathrin Kusch, Martin Meschkat, Nhu Thi Ngoc Phan, Wiebke Möbius, and Marie-Theres Weil

Subjects

0303 health sciences, 3d electron microscopy, Chemistry, Axonal pathology, Myelin sheaths, Null allele, Cell biology, White matter, 03 medical and health sciences, Myelin, 0302 clinical medicine, medicine.anatomical_structure, nervous system, Tongue, medicine, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

SummaryMyelin, the electrically insulating axonal sheath, is composed of lipids and proteins with exceptionally long lifetime. This raises the question how myelin function is affected by myelin turnover. We have studied the integrity of myelinated tracts after experimentally preventing the formation of new myelin in the CNS of adult mice, using an inducibleMbpnull allele. Oligodendrocytes survived recombination, continued expressing myelin genes, but failed to maintain compacted myelin sheaths. Using 3D electron microscopy and mass spectrometry imaging we visualized myelin-like membranes that failed to incorporate adaxonally, most prominently at juxta-paranodes. Myelinoid body formation indicated degradation of existing myelin at the abaxonal side and at the inner tongue of the sheath. Compacted myelin thinning and shortening of internodes, with about 50% myelin lost after 20 weeks (=5 months), ultimately led to axonal pathology and neurological disease. These data reveal that functional axon-myelin units require the continuous incorporation of new myelin membranes.

Published

2020

48. The CNS Myelin Proteome: Deep Profile and Persistence After Post-mortem Delay

Author

Sophie B Siems, Marina Uecker, Olaf Jahn, Thomas Liepold, Dörte Hesse, Kathrin Kusch, Ting Sun, Ramona B. Jung, and Hauke B. Werner

Subjects

0301 basic medicine, Biology, lcsh:RC321-571, Transcriptome, White matter, central nervous system (CNS), 03 medical and health sciences, Cellular and Molecular Neuroscience, Myelin, autopsy, 0302 clinical medicine, label-free proteomics, post-mortem delay, medicine, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Original Research, Messenger RNA, myelin proteome, Oligodendrocyte, Orders of magnitude (mass), Cell biology, 030104 developmental biology, medicine.anatomical_structure, nervous system, Proteome, demyelination, Protein abundance, transcriptome, oligodendrocyte, 030217 neurology & neurosurgery, Neuroscience

Abstract

Myelin membranes are dominated by lipids while the complexity of their proteincomposition has long been considered to be low. However, numerous additional myelinproteins have been identified since. Here we revisit the proteome of myelin biochemicallypurified from the brains of healthy c56Bl/6N-mice utilizing complementary proteomicapproaches for deep qualitative and quantitative coverage. By gel-free, label-free massspectrometry, the most abundant myelin proteins PLP, MBP, CNP, and MOG constitute38, 30, 5, and 1% of the total myelin protein, respectively. The relative abundance ofmyelin proteins displays a dynamic range of over four orders of magnitude, implyingthat PLP and MBP have overshadowed less abundant myelin constituents in initialgel-based approaches. By comparisons with published datasets we evaluate to whichdegree the CNS myelin proteome correlates with the mRNA and protein abundanceprofiles of myelin and oligodendrocytes. Notably, the myelin proteome displays onlyminor changes if assessed after a post-mortem delay of 6 h. These data provide themost comprehensive proteome resource of CNS myelin so far and a basis for addressingproteomic heterogeneity of myelin in mouse models and human patients with whitematter disorders.

Published

2020

49. Proteome profile of peripheral myelin in healthy mice and in a neuropathy model

Author

Hauke B. Werner, Michael W. Sereda, Moritz J. Rossner, Olaf Jahn, Sophie B Siems, Maria A. Eichel, Peter J. Brophy, Robert Fledrich, Lai Man N Wu, Kathrin Kusch, Ramona B. Jung, Diane L. Sherman, Nirmal Kannaiyan, and Dörte Hesse

Subjects

Mouse, Genotype, Proteome, QH301-705.5, Science, Schwann cell, Neuropathology, General Biochemistry, Genetics and Molecular Biology, Transcriptome, 03 medical and health sciences, Myelin, Mice, 0302 clinical medicine, peripheral nervous system, medicine, Animals, Peripheral Nerves, Biology (General), Myelin Sheath, 030304 developmental biology, Monocarboxylate transporter, 0303 health sciences, General Immunology and Microbiology, biology, General Neuroscience, Membrane Proteins, Mitochondrial Myopathies, General Medicine, myelin proteome, Tools and Resources, charcot-marie-tooth (cmt) neuropathy, medicine.anatomical_structure, Gene Expression Regulation, Peripheral nervous system, schwann cell, biology.protein, Medicine, demyelination, Neuroscience, 030217 neurology & neurosurgery, Function (biology), Myelin Proteins, Retinitis Pigmentosa, Demyelinating Diseases

Abstract

Proteome and transcriptome analyses aim at comprehending the molecular profiles of the brain, its cell-types and subcellular compartments including myelin. Despite the relevance of the peripheral nervous system for normal sensory and motor capabilities, analogous approaches to peripheral nerves and peripheral myelin have fallen behind evolving technical standards. Here we assess the peripheral myelin proteome by gel-free, label-free mass-spectrometry for deep quantitative coverage. Integration with RNA-Sequencing-based developmental mRNA-abundance profiles and neuropathy disease genes illustrates the utility of this resource. Notably, the periaxin-deficient mouse model of the neuropathy Charcot-Marie-Tooth 4F displays a highly pathological myelin proteome profile, exemplified by the discovery of reduced levels of the monocarboxylate transporter MCT1/SLC16A1 as a novel facet of the neuropathology. This work provides the most comprehensive proteome resource thus far to approach development, function and pathology of peripheral myelin, and a straightforward, accurate and sensitive workflow to address myelin diversity in health and disease.

Published

2020

50. Urine E-cadherin: A Marker for Early Detection of Kidney Injury in Diabetic Patients

Author

Michael Koziolek, Gerhard A. Mueller, Gry H. Dihazi, Klaus Jung, Constanze Altubar, Manuel Wallbach, Ivana Markovic, Dirk Raddatz, Olaf Jahn, Hülya Karaköse, Christof Lenz, Henning Urlaub, Abdelhi Dihazi, Abdellatif El Meziane, and Hassan Dihazi

Subjects

Diabetic nephropathy, early diagnosis/prognosis, E-cadherin, early biomarker, lcsh:R, lcsh:Medicine, urologic and male genital diseases, Article

Abstract

Diabetic nephropathy (DN) is the main reason for end-stage renal disease. Microalbuminuria as the non-invasive available diagnosis marker lacks specificity and gives high false positive rates. To identify and validate biomarkers for DN, we used in the present study urine samples from four patient groups: diabetes without nephropathy, diabetes with microalbuminuria, diabetes with macroalbuminuria and proteinuria without diabetes. For the longitudinal validation, we recruited 563 diabetic patients and collected 1363 urine samples with the clinical data during a follow-up of 6 years. Comparative urinary proteomics identified four proteins Apolipoprotein A-I (APOA1), Beta-2-microglobulin (B2M), E-cadherin (CDH1) and Lithostathine-1-alpha (REG1A), which differentiated with high statistical strength (p &lt, 0.05) between DN patients and the other groups. Label-free mass spectrometric quantification of the candidates confirmed the discriminatory value of E-cadherin and Lithostathine-1-alpha (p &lt, 0.05). Immunological validation highlighted E-cadherin as the only marker able to differentiate significantly between the different DN stages with an area under the curve (AUC) of 0.85 (95%-CI: [0.72, 0.97]). The analysis of the samples from the longitudinal study confirmed the prognostic value of E-cadherin, the critical increase in urinary E-cadherin level was measured 20 &plusmn, 12.5 months before the onset of microalbuminuria and correlated significantly (p &lt, 0.05) with the glomerular filtration rate measured by estimated glomerular filtration rate (eGFR).

Published

2020