Your search keyword '"Huber, Sylwia"' showing total 3 results

1. The subcellular arrangement of alpha-synuclein proteoforms in the Parkinson's disease brain as revealed by multicolor STED microscopy.

Author

Moors, Tim E., Maat, Christina A., Niedieker, Daniel, Mona, Daniel, Petersen, Dennis, Timmermans-Huisman, Evelien, Kole, Jeroen, El-Mashtoly, Samir F., Spycher, Liz, Zago, Wagner, Barbour, Robin, Mundigl, Olaf, Kaluza, Klaus, Huber, Sylwia, Hug, Melanie N., Kremer, Thomas, Ritter, Mirko, Dziadek, Sebastian, Geurts, Jeroen J. G., and Gerwert, Klaus

Subjects

PARKINSON'S disease, BRAIN diseases, ALPHA-synuclein, IMMUNOGLOBULINS, NEURAL circuitry, MICROSCOPY

Abstract

Various post-translationally modified (PTM) proteoforms of alpha-synuclein (aSyn)—including C-terminally truncated (CTT) and Serine 129 phosphorylated (Ser129-p) aSyn—accumulate in Lewy bodies (LBs) in different regions of the Parkinson's disease (PD) brain. Insight into the distribution of these proteoforms within LBs and subcellular compartments may aid in understanding the orchestration of Lewy pathology in PD. We applied epitope-specific antibodies against CTT and Ser129-p aSyn proteoforms and different aSyn domains in immunohistochemical multiple labelings on post-mortem brain tissue from PD patients and non-neurological, aged controls, which were scanned using high-resolution 3D multicolor confocal and stimulated emission depletion (STED) microscopy. Our multiple labeling setup highlighted a consistent onion skin-type 3D architecture in mature nigral LBs in which an intricate and structured-appearing framework of Ser129-p aSyn and cytoskeletal elements encapsulates a core enriched in CTT aSyn species. By label-free CARS microscopy we found that enrichments of proteins and lipids were mainly localized to the central portion of nigral aSyn-immunopositive (aSyn+) inclusions. Outside LBs, we observed that 122CTT aSyn+ punctae localized at mitochondrial membranes in the cytoplasm of neurons in PD and control brains, suggesting a physiological role for 122CTT aSyn outside of LBs. In contrast, very limited to no Ser129-p aSyn immunoreactivity was observed in brains of non-neurological controls, while the alignment of Ser129-p aSyn in a neuronal cytoplasmic network was characteristic for brains with (incidental) LB disease. Interestingly, Ser129-p aSyn+ network profiles were not only observed in neurons containing LBs but also in neurons without LBs particularly in donors at early disease stage, pointing towards a possible subcellular pathological phenotype preceding LB formation. Together, our high-resolution and 3D multicolor microscopy observations in the post-mortem human brain provide insights into potential mechanisms underlying a regulated LB morphogenesis. [ABSTRACT FROM AUTHOR]

Published

2021

2. Antibody-Mediated Neutralization of the Exotoxin Mycolactone, the Main Virulence Factor Produced by Mycobacterium ulcerans.

Author

Dangy, Jean-Pierre, Scherr, Nicole, Gersbach, Philipp, Hug, Melanie N., Bieri, Raphael, Bomio, Claudio, Li, Jun, Huber, Sylwia, Altmann, Karl-Heinz, and Pluschke, Gerd

Subjects

NEUTRALIZATION (Chemistry), EXOTOXIN, MYCOBACTERIUM, MACROLIDE antibiotics, IMMUNOGLOBULINS

Abstract

Background: Mycolactone, the macrolide exotoxin produced by Mycobacterium ulcerans, causes extensive tissue destruction by inducing apoptosis of host cells. In this study, we aimed at the production of antibodies that could neutralize the cytotoxic activities of mycolactone. Methodology/Principal Findings: Using the B cell hybridoma technology, we generated a series of monoclonal antibodies with specificity for mycolactone from spleen cells of mice immunized with the protein conjugate of a truncated synthetic mycolactone derivative. L929 fibroblasts were used as a model system to investigate whether these antibodies can inhibit the biological effects of mycolactone. By measuring the metabolic activity of the fibroblasts, we found that anti-mycolactone mAbs can completely neutralize the cytotoxic activity of mycolactone. Conclusions/Significance: The toxin neutralizing capacity of anti-mycolactone mAbs supports the concept of evaluating the macrolide toxin as vaccine target. [ABSTRACT FROM AUTHOR]

Published

2016

3. Generation, Characterization, and Quantitative Bioanalysis of Drug/Anti-drug Antibody Immune Complexes to Facilitate Dedicated In Vivo Studies.

Author

Hoffmann, Eugenia, Jordan, Gregor, Lauer, Matthias, Ringler, Philippe, Kusznir, Eric A., Rufer, Arne C., Huber, Sylwia, Jochner, Anton, Winter, Gerhard, and Staack, Roland F.

Subjects

IMMUNE complexes, PHARMACOKINETICS, IMMUNOGLOBULINS, IN vivo studies, REPRODUCTION

Abstract

Purpose: Immunogenicity against biotherapeutics can lead to the formation of drug/anti-drug-antibody (ADA) immune complexes (ICs) with potential impact on safety and drug pharmacokinetics (PK). This work aimed to generate defined drug/ADA ICs, characterized by quantitative (bio) analytical methods for dedicated determination of IC sizes and IC profile changes in serum to facilitate future in vivo studies. Methods: Defined ICs were generated and extensively characterized with chromatographic, biophysical and imaging methods. Quantification of drug fully complexed with ADAs (drug in ICs) was performed with an acid dissociation ELISA. Sequential coupling of SEC and ELISA enabled the reconstruction of IC patterns and thus analysis of IC species in serum. Results: Characterization of generated ICs identified cyclic dimers, tetramers, hexamers, and larger ICs of drug and ADA as main IC species. The developed acid dissociation ELISA enabled a total quantification of drug fully complexed with ADAs. Multiplexing of SEC and ELISA allowed unbiased reconstruction of IC oligomeric states in serum. Conclusions: The developed in vitro IC model system has been properly characterized by biophysical and bioanalytical methods. The specificity of the developed methods enable discrimination between different oligomeric states of ICs and can be bench marking for future in vivo studies with ICs. [ABSTRACT FROM AUTHOR]

Published

2019