Your search keyword '"Reinhard Schwartz-Albiez"' showing total 7 results

1. The glycome of normal and malignant plasma cells.

Author

Thomas M Moehler, Anja Seckinger, Dirk Hose, Mindaugas Andrulis, Jèrôme Moreaux, Thomas Hielscher, Martina Willhauck-Fleckenstein, Anette Merling, Uta Bertsch, Anna Jauch, Hartmut Goldschmidt, Bernard Klein, and Reinhard Schwartz-Albiez

Subjects

Medicine, Science

Abstract

The glycome, i.e. the cellular repertoire of glycan structures, contributes to important functions such as adhesion and intercellular communication. Enzymes regulating cellular glycosylation processes are related to the pathogenesis of cancer including multiple myeloma. Here we analyze the transcriptional differences in the glycome of normal (n = 10) and two cohorts of 332 and 345 malignant plasma-cell samples, association with known multiple myeloma subentities as defined by presence of chromosomal aberrations, potential therapeutic targets, and its prognostic impact. We found i) malignant vs. normal plasma cells to show a characteristic glycome-signature. They can ii) be delineated by a lasso-based predictor from normal plasma cells based on this signature. iii) Cytogenetic aberrations lead to distinct glycan-gene expression patterns for t(11;14), t(4;14), hyperdiploidy, 1q21-gain and deletion of 13q14. iv) A 38-gene glycome-signature significantly delineates patients with adverse survival in two independent cohorts of 545 patients treated with high-dose melphalan and autologous stem cell transplantation. v) As single gene, expression of the phosphatidyl-inositol-glycan protein M as part of the targetable glycosyl-phosphatidyl-inositol-anchor-biosynthesis pathway is associated with adverse survival. The prognostically relevant glycome deviation in malignant cells invites novel strategies of therapy for multiple myeloma.

Published

2013

2. Understanding the specificity of human Galectin-8C domain interactions with its glycan ligands based on molecular dynamics simulations.

Author

Sonu Kumar, Martin Frank, and Reinhard Schwartz-Albiez

Subjects

Medicine, Science

Abstract

Human Galectin-8 (Gal-8) is a member of the galectin family which shares an affinity for β-galactosides. The tandem-repeat Gal-8 consists of a N- and a C-terminal carbohydrate recognition domain (N- and C-CRD) joined by a linker peptide of various length. Despite their structural similarity both CRDs recognize different oligosaccharides. While the molecular requirements of the N-CRD for high binding affinity to sulfated and sialylated glycans have recently been elucidated by crystallographic studies of complexes with several oligosaccharides, the binding specificities of the C-CRD for a different set of oligosaccharides, as derived from experimental data, has only been explained in terms of the three-dimensional structure for the complex C-CRD with lactose. In this study we performed molecular dynamics (MD) simulations using the recently released crystal structure of the Gal-8C-CRD to analyse the three-dimensional conditions for its specific binding to a variety of oligosaccharides as previously defined by glycan-microarray analysis. The terminal β-galactose of disaccharides (LacNAc, lacto-N-biose and lactose) and the internal β-galactose moiety of blood group antigens A and B (BGA, BGB) as well as of longer linear oligosaccharide chains (di-LacNAc and lacto-N-neotetraose) are interacting favorably with conserved amino acids (H53, R57, N66, W73, E76). Lacto-N-neotetraose and di-LacNAc as well as BGA and BGB are well accommodated. BGA and BGB showed higher affinity than LacNAc and lactose due to generally stronger hydrogen bond interactions and water mediated hydrogen bonds with α1-2 fucose respectively. Our results derived from molecular dynamics simulations are able to explain the glycan binding specificities of the Gal-8C-CRD in comparison to those of the Gal-8N -CRD.

Published

2013

3. Synergism between Hedgehog-GLI and EGFR signaling in Hedgehog-responsive human medulloblastoma cells induces downregulation of canonical Hedgehog-target genes and stabilized expression of GLI1.

Author

Frank Götschel, Daniela Berg, Wolfgang Gruber, Christian Bender, Markus Eberl, Myriam Friedel, Johanna Sonntag, Elena Rüngeler, Hendrik Hache, Christoph Wierling, Wilfried Nietfeld, Hans Lehrach, Annemarie Frischauf, Reinhard Schwartz-Albiez, Fritz Aberger, and Ulrike Korf

Subjects

Medicine, Science

Abstract

Aberrant activation of Hedgehog (HH) signaling has been identified as a key etiologic factor in many human malignancies. Signal strength, target gene specificity, and oncogenic activity of HH signaling depend profoundly on interactions with other pathways, such as epidermal growth factor receptor-mediated signaling, which has been shown to cooperate with HH/GLI in basal cell carcinoma and pancreatic cancer. Our experimental data demonstrated that the Daoy human medulloblastoma cell line possesses a fully inducible endogenous HH pathway. Treatment of Daoy cells with Sonic HH or Smoothened agonist induced expression of GLI1 protein and simultaneously prevented the processing of GLI3 to its repressor form. To study interactions between HH- and EGF-induced signaling in greater detail, time-resolved measurements were carried out and analyzed at the transcriptomic and proteomic levels. The Daoy cells responded to the HH/EGF co-treatment by downregulating GLI1, PTCH, and HHIP at the transcript level; this was also observed when Amphiregulin (AREG) was used instead of EGF. We identified a novel crosstalk mechanism whereby EGFR signaling silences proteins acting as negative regulators of HH signaling, as AKT- and ERK-signaling independent process. EGFR/HH signaling maintained high GLI1 protein levels which contrasted the GLI1 downregulation on the transcript level. Conversely, a high-level synergism was also observed, due to a strong and significant upregulation of numerous canonical EGF-targets with putative tumor-promoting properties such as MMP7, VEGFA, and IL-8. In conclusion, synergistic effects between EGFR and HH signaling can selectively induce a switch from a canonical HH/GLI profile to a modulated specific target gene profile. This suggests that there are more wide-spread, yet context-dependent interactions, between HH/GLI and growth factor receptor signaling in human malignancies.

Published

2013

4. Modulation of the CD95-induced apoptosis: the role of CD95 N-glycosylation.

Author

Olga M Shatnyeva, Andriy V Kubarenko, Claudia E M Weber, Alexander Pappa, Reinhard Schwartz-Albiez, Alexander N R Weber, Peter H Krammer, and Inna N Lavrik

Subjects

Medicine, Science

Abstract

Protein modifications of death receptor pathways play a central role in the regulation of apoptosis. It has been demonstrated that O-glycosylation of TRAIL-receptor (R) is essential for sensitivity and resistance towards TRAIL-mediated apoptosis. In this study we ask whether and how glycosylation of CD95 (Fas/APO-1), another death receptor, influences DISC formation and procaspase-8 activation at the CD95 DISC and thereby the onset of apoptosis. We concentrated on N-glycostructure since O-glycosylation of CD95 was not found. We applied different approaches to analyze the role of CD95 N-glycosylation on the signal transduction: in silico modeling of CD95 DISC, generation of CD95 glycosylation mutants (at N136 and N118), modulation of N-glycosylation by deoxymannojirimycin (DMM) and sialidase from Vibrio cholerae (VCN). We demonstrate that N-deglycosylation of CD95 does not block DISC formation and results only in the reduction of the procaspase-8 activation at the DISC. These findings are important for the better understanding of CD95 apoptosis regulation and reveal differences between apoptotic signaling pathways of the TRAIL and CD95 systems.

Published

2011

5. Understanding the Specificity of Human Galectin-8C Domain Interactions with Its Glycan Ligands Based on Molecular Dynamics Simulations

Author

Martin Frank, Reinhard Schwartz-Albiez, and Sonu Kumar

Subjects

Glycan, Galectins, Glycobiology, Carbohydrates, Biophysics, lcsh:Medicine, Oligosaccharides, Lactose, Molecular Dynamics Simulation, Ligands, Biochemistry, Fucose, 03 medical and health sciences, chemistry.chemical_compound, Protein structure, Polysaccharides, Macromolecular Structure Analysis, Humans, Binding site, Biomacromolecule-Ligand Interactions, lcsh:Science, Biology, Macromolecular Complex Analysis, 030304 developmental biology, Galectin, Glycoproteins, chemistry.chemical_classification, 0303 health sciences, Multidisciplinary, Binding Sites, biology, Chemistry, Hydrogen bond, lcsh:R, 030302 biochemistry & molecular biology, Computational Biology, Water, Hydrogen Bonding, Oligosaccharide, eye diseases, Amino acid, Protein Structure, Tertiary, biology.protein, Thermodynamics, lcsh:Q, Research Article

Abstract

Human Galectin-8 (Gal-8) is a member of the galectin family which shares an affinity for β-galactosides. The tandem-repeat Gal-8 consists of a N- and a C-terminal carbohydrate recognition domain (N- and C-CRD) joined by a linker peptide of various length. Despite their structural similarity both CRDs recognize different oligosaccharides. While the molecular requirements of the N-CRD for high binding affinity to sulfated and sialylated glycans have recently been elucidated by crystallographic studies of complexes with several oligosaccharides, the binding specificities of the C-CRD for a different set of oligosaccharides, as derived from experimental data, has only been explained in terms of the three-dimensional structure for the complex C-CRD with lactose. In this study we performed molecular dynamics (MD) simulations using the recently released crystal structure of the Gal-8C-CRD to analyse the three-dimensional conditions for its specific binding to a variety of oligosaccharides as previously defined by glycan-microarray analysis. The terminal β-galactose of disaccharides (LacNAc, lacto-N-biose and lactose) and the internal β-galactose moiety of blood group antigens A and B (BGA, BGB) as well as of longer linear oligosaccharide chains (di-LacNAc and lacto-N-neotetraose) are interacting favorably with conserved amino acids (H53, R57, N66, W73, E76). Lacto-N-neotetraose and di-LacNAc as well as BGA and BGB are well accommodated. BGA and BGB showed higher affinity than LacNAc and lactose due to generally stronger hydrogen bond interactions and water mediated hydrogen bonds with α1-2 fucose respectively. Our results derived from molecular dynamics simulations are able to explain the glycan binding specificities of the Gal-8C-CRD in comparison to those of the Gal-8N -CRD.

Published

2013

6. Synergism between Hedgehog-GLI and EGFR signaling in Hedgehog-responsive human medulloblastoma cells induces downregulation of canonical Hedgehog-target genes and stabilized expression of GLI1

Author

Hans Lehrach, Wolfgang Gruber, Christoph Wierling, Johanna Sonntag, Markus Eberl, Frank Götschel, Daniela Berg, Fritz Aberger, Myriam Friedel, Ulrike Korf, Reinhard Schwartz-Albiez, Wilfried Nietfeld, Annemarie Frischauf, Hendrik Hache, Christian Bender, and Elena Rüngeler

Subjects

Vascular Endothelial Growth Factor A, Proteomics, lcsh:Medicine, Hedgehog signaling, Transcriptomes, Epidermal growth factor, Molecular Cell Biology, Basic Cancer Research, Signaling in Cellular Processes, Enzyme Inhibitors, Phosphorylation, lcsh:Science, Protein kinase signaling cascade, Cells, Cultured, Oligonucleotide Array Sequence Analysis, Cyclohexylamines, Multidisciplinary, Membrane Glycoproteins, biology, Reverse Transcriptase Polymerase Chain Reaction, Veratrum Alkaloids, Drug Synergism, Dermis, Genomics, Signaling in Selected Disciplines, Hedgehog signaling pathway, Signal inhibition, ErbB Receptors, Patched-1 Receptor, Oncology, Matrix Metalloproteinase 7, Medicine, EGFR signaling, Research Article, Signal Transduction, Patched Receptors, MAPK signaling cascades, Blotting, Western, Protein Array Analysis, Enzyme-Linked Immunosorbent Assay, Receptors, Cell Surface, Thiophenes, Real-Time Polymerase Chain Reaction, Zinc Finger Protein GLI1, Amphiregulin, Growth factor receptor, GLI1, Genome Analysis Tools, GLI3, Biomarkers, Tumor, Humans, Hedgehog Proteins, RNA, Messenger, Cerebellar Neoplasms, Hedgehog, Biology, Cell Proliferation, Oncogenic Signaling, Gene Expression Profiling, lcsh:R, Interleukin-8, Computational Biology, Fibroblasts, Cell cultures, HEK293 Cells, Cancer research, biology.protein, Protein expression, lcsh:Q, Gene expression, Transcriptional Signaling, Smoothened, Carrier Proteins, Medulloblastoma, Transcription Factors

Abstract

Aberrant activation of Hedgehog (HH) signaling has been identified as a key etiologic factor in many human malignancies. Signal strength, target gene specificity, and oncogenic activity of HH signaling depend profoundly on interactions with other pathways, such as epidermal growth factor receptor-mediated signaling, which has been shown to cooperate with HH/GLI in basal cell carcinoma and pancreatic cancer. Our experimental data demonstrated that the Daoy human medulloblastoma cell line possesses a fully inducible endogenous HH pathway. Treatment of Daoy cells with Sonic HH or Smoothened agonist induced expression of GLI1 protein and simultaneously prevented the processing of GLI3 to its repressor form. To study interactions between HH- and EGF-induced signaling in greater detail, time-resolved measurements were carried out and analyzed at the transcriptomic and proteomic levels. The Daoy cells responded to the HH/EGF co-treatment by downregulating GLI1, PTCH, and HHIP at the transcript level; this was also observed when Amphiregulin (AREG) was used instead of EGF. We identified a novel crosstalk mechanism whereby EGFR signaling silences proteins acting as negative regulators of HH signaling, as AKT- and ERK-signaling independent process. EGFR/HH signaling maintained high GLI1 protein levels which contrasted the GLI1 downregulation on the transcript level. Conversely, a high-level synergism was also observed, due to a strong and significant upregulation of numerous canonical EGF-targets with putative tumor-promoting properties such as MMP7, VEGFA, and IL-8. In conclusion, synergistic effects between EGFR and HH signaling can selectively induce a switch from a canonical HH/GLI profile to a modulated specific target gene profile. This suggests that there are more wide-spread, yet context-dependent interactions, between HH/GLI and growth factor receptor signaling in human malignancies. P20652 (VLID)1679798

Published

2013

7. Modulation of the CD95-induced apoptosis: the role of CD95 N-glycosylation

Author

Inna N. Lavrik, Alexander N.R. Weber, Peter H. Krammer, Reinhard Schwartz-Albiez, Andriy V. Kubarenko, Claudia E.M. Weber, Alexander Pappa, and Olga Shatnyeva

Subjects

Glycosylation, Protein Conformation, Glycobiology, lcsh:Medicine, Apoptosis, Biochemistry, TNF-Related Apoptosis-Inducing Ligand, chemistry.chemical_compound, N-linked glycosylation, hemic and lymphatic diseases, Molecular Cell Biology, Macromolecular Structure Analysis, Lymphocytes, Biomacromolecule-Ligand Interactions, Receptor, lcsh:Science, Cells, Cultured, Caspase 8, Multidisciplinary, Cell Death, hemic and immune systems, Fas receptor, Flow Cytometry, Cell biology, Death-inducing signaling complex, Signal transduction, biological phenomena, cell phenomena, and immunity, Signal Transduction, Research Article, Death Domain Receptor Signaling Adaptor Proteins, Protein Structure, Blotting, Western, Immunology, Biophysics, Enzyme-Linked Immunosorbent Assay, chemical and pharmacologic phenomena, Biology, Humans, Immunoprecipitation, fas Receptor, lcsh:R, Computational Biology, biological factors, chemistry, Mutation, lcsh:Q

Abstract

Protein modifications of death receptor pathways play a central role in the regulation of apoptosis. It has been demonstrated that O-glycosylation of TRAIL-receptor (R) is essential for sensitivity and resistance towards TRAIL-mediated apoptosis. In this study we ask whether and how glycosylation of CD95 (Fas/APO-1), another death receptor, influences DISC formation and procaspase-8 activation at the CD95 DISC and thereby the onset of apoptosis. We concentrated on N-glycostructure since O-glycosylation of CD95 was not found. We applied different approaches to analyze the role of CD95 N-glycosylation on the signal transduction: in silico modeling of CD95 DISC, generation of CD95 glycosylation mutants (at N136 and N118), modulation of N-glycosylation by deoxymannojirimycin (DMM) and sialidase from Vibrio cholerae (VCN). We demonstrate that N-deglycosylation of CD95 does not block DISC formation and results only in the reduction of the procaspase-8 activation at the DISC. These findings are important for the better understanding of CD95 apoptosis regulation and reveal differences between apoptotic signaling pathways of the TRAIL and CD95 systems.

Published

2011