Your search keyword '"Hänzelmann S"' showing total 36 results

1. Sox5 regulates beta-cell phenotype and is reduced in type 2 diabetes

Author

Axelsson, AS, Mahdi, T, Nenonen, HA, Singh, T, Hänzelmann, S, Wendt, A, Bagge, A, Reinbothe, TM, Millstein, J, Yang, X, Zhang, B, Gusmao, EG, Shu, L, Szabat, M, Tang, Y, Wang, J, Salö, S, Eliasson, L, Artner, I, Fex, M, Johnson, JD, Wollheim, CB, Derry, JMJ, Mecham, B, Spégel, P, Mulder, H, Costa, IG, Zhang, E, and Rosengren, AH

Subjects

Biochemistry and Cell Biology, Biological Sciences, Diabetes, Obesity, Genetics, 2.1 Biological and endogenous factors, Metabolic and endocrine, Animals, Calcium, Calcium Channels, Chromatin, Diabetes Mellitus, Experimental, Diabetes Mellitus, Type 2, Exocytosis, Female, Gene Expression Regulation, Humans, Insulin, Insulin-Secreting Cells, Islets of Langerhans, Male, Mice, Mice, Inbred C57BL, Oligonucleotide Array Sequence Analysis, Phenotype, Phlorhizin, RNA, Small Interfering, Rats, SOXD Transcription Factors, Valproic Acid

Abstract

Type 2 diabetes (T2D) is characterized by insulin resistance and impaired insulin secretion, but the mechanisms underlying insulin secretion failure are not completely understood. Here, we show that a set of co-expressed genes, which is enriched for genes with islet-selective open chromatin, is associated with T2D. These genes are perturbed in T2D and have a similar expression pattern to that of dedifferentiated islets. We identify Sox5 as a regulator of the module. Sox5 knockdown induces gene expression changes similar to those observed in T2D and diabetic animals and has profound effects on insulin secretion, including reduced depolarization-evoked Ca2+-influx and β-cell exocytosis. SOX5 overexpression reverses the expression perturbations observed in a mouse model of T2D, increases the expression of key β-cell genes and improves glucose-stimulated insulin secretion in human islets from donors with T2D. We suggest that human islets in T2D display changes reminiscent of dedifferentiation and highlight SOX5 as a regulator of β-cell phenotype and function.

Published

2017

2. Mtss1 is a critical epigenetically regulated tumor suppressor in CML

Author

Schemionek, M, Herrmann, O, Reher, M M, Chatain, N, Schubert, C, Costa, I G, Hänzelmann, S, Gusmao, E G, Kintsler, S, Braunschweig, T, Hamilton, A, Helgason, G V, Copland, M, Schwab, A, Müller-Tidow, C, Li, S, Holyoake, T L, Brümmendorf, T H, and Koschmieder, S

Published

2016

3. S106: UBTF-ATXN7L3 GENE FUSION DUE TO 17Q21.31 DELETION DEFINES NOVEL HIGH-RISK ALL SUBTYPE AMENABLE TO MRD-BASED TREATMENT INTENSIFICATION

Author

Bastian, L., primary, Hartmann, A., additional, Beder, T., additional, Hänzelmann, S., additional, Kässens, J., additional, Bultmann, M., additional, Höppner, M. P., additional, Franzenburg, S., additional, Wittig, M., additional, Franke, A., additional, Nagel, I., additional, Spielmann, M., additional, Reimer, N., additional, Busch, H., additional, Schwartz, S., additional, Steffen, B., additional, Viardot, A., additional, Döhner, K., additional, Kondakci, M., additional, Wulf, G., additional, Wendelin, K., additional, Renzelmann, A., additional, Kiani, A., additional, Trautmann, H., additional, Neumann, M., additional, Gökbuget, N., additional, Brüggemann, M., additional, and Baldus, C., additional

Published

2022

4. Potential and pitfalls of whole transcriptome-based immunogenetic marker identification in acute lymphoblastic leukemia; a EuroMRD and EuroClonality-NGS Working Group study

Author

Velden, V.H. van der, Brüggemann, M., Cazzaniga, G., Scheijen, B., Tops, B., Trka, J., Pal, K., Hänzelmann, S., Fazio, G., Songia, S., Langerak, A.W., Darzentas, N., Velden, V.H. van der, Brüggemann, M., Cazzaniga, G., Scheijen, B., Tops, B., Trka, J., Pal, K., Hänzelmann, S., Fazio, G., Songia, S., Langerak, A.W., and Darzentas, N.

Abstract

Contains fulltext : 232927.pdf (Publisher’s version ) (Open Access)

Published

2021

5. 489 Investigation of the immune infiltrate of metastatic melanoma under immune checkpoint inhibition

Author

Hassel, J.C., primary, Flossdorf, M., additional, Hänzelmann, S., additional, Winkler, J., additional, Appel, L., additional, Streit, E., additional, Halama, N., additional, Faryna, M., additional, and Poschke, I., additional

Published

2016

6. Mtss1 is a critical epigenetically regulated tumor suppressor in CML

Author

Schemionek, M, primary, Herrmann, O, additional, Reher, M M, additional, Chatain, N, additional, Schubert, C, additional, Costa, I G, additional, Hänzelmann, S, additional, Gusmao, E G, additional, Kintsler, S, additional, Braunschweig, T, additional, Hamilton, A, additional, Helgason, G V, additional, Copland, M, additional, Schwab, A, additional, Müller-Tidow, C, additional, Li, S, additional, Holyoake, T L, additional, Brümmendorf, T H, additional, and Koschmieder, S, additional

Published

2015

7. The lncRNA HOTAIR impacts on mesenchymal stem cells via triple helix formation

Author

Kalwa M, Hänzelmann S, Otto S, Cc, Kuo, Franzen J, Joussen S, Fernandez-Rebollo E, Rath B, Koch C, Hofmann A, Sh, Lee, Ae, Teschendorff, Denecke B, Lin Q, Martin Widschwendter, Weinhold E, Ig, Costa, and Wagner W

8. Optimized protocol for the multiomics processing of cryopreserved human kidney tissue.

Author

Gies SE, Hänzelmann S, Kylies D, Lassé M, Lagies S, Hausmann F, Khatri R, Zolotarev N, Poets M, Zhang T, Demir F, Billing AM, Quaas J, Meister E, Engesser J, Mühlig AK, Lu S, Liu S, Chilla S, Edenhofer I, Czogalla J, Braun F, Kammerer B, Puelles VG, Bonn S, Rinschen MM, Lindenmeyer M, and Huber TB

Subjects

Humans, Animals, Swine, Transcriptome, Biopsy, Biological Specimen Banks, Multiomics, Cryopreservation methods, Kidney metabolism, Kidney pathology, Metabolomics methods, Proteomics methods

Abstract

Biobanking of tissue from clinically obtained kidney biopsies for later analysis with multiomic approaches, such as single-cell technologies, proteomics, metabolomics, and the different types of imaging, is an inevitable step to overcome the need of disease model systems and toward translational medicine. Hence, collection protocols that ensure integration into daily clinical routines by the usage of preservation media that do not require liquid nitrogen but instantly preserve kidney tissue for both clinical and scientific analyses are necessary. Thus, we modified a robust single-nucleus dissociation protocol for kidney tissue stored snap-frozen or in the preservation media RNAlater and CellCover. Using at first porcine kidney tissue as a surrogate for human kidney tissue, we conducted single-nucleus RNA sequencing with the widely recognized Chromium 10X Genomics platform. The resulting datasets from each storage condition were analyzed to identify any potential variations in transcriptomic profiles. Furthermore, we assessed the suitability of the preservation media for additional analysis techniques such as proteomics, metabolomics, and the preservation of tissue architecture for histopathological examination including immunofluorescence staining. In this study, we show that in daily clinical routines, the preservation medium RNAlater facilitates the collection of highly preserved human kidney biopsies and enables further analysis with cutting-edge techniques like single-nucleus RNA sequencing, proteomics, and histopathological evaluation. Only metabolome analysis is currently restricted to snap-frozen tissue. This work will contribute to build tissue biobanks with well-defined cohorts of the respective kidney disease that can be deeply molecularly characterized, opening up new horizons for the identification of unique cells, pathways and biomarkers for the prevention, early identification, and targeted therapy of kidney diseases. NEW & NOTEWORTHY In this study, we addressed challenges in integrating clinically obtained kidney biopsies into everyday clinical routines. Using porcine kidneys, we evaluated preservation media (RNAlater and CellCover) versus snap freezing for multi-omics processing. Our analyses highlighted RNAlater's suitability for single-nucleus RNA sequencing, proteome analysis and histopathological evaluation. Only metabolomics are currently restricted to snap-frozen biopsies. Our research established a cryopreservation protocol that facilitates tissue biobanking for advancing precision medicine in nephrology.

Published

2024

9. Multiomic ALS signatures highlight subclusters and sex differences suggesting the MAPK pathway as therapeutic target.

Author

Caldi Gomes L, Hänzelmann S, Hausmann F, Khatri R, Oller S, Parvaz M, Tzeplaeff L, Pasetto L, Gebelin M, Ebbing M, Holzapfel C, Columbro SF, Scozzari S, Knöferle J, Cordts I, Demleitner AF, Deschauer M, Dufke C, Sturm M, Zhou Q, Zelina P, Sudria-Lopez E, Haack TB, Streb S, Kuzma-Kozakiewicz M, Edbauer D, Pasterkamp RJ, Laczko E, Rehrauer H, Schlapbach R, Carapito C, Bonetto V, Bonn S, and Lingor P

Subjects

Humans, Female, Animals, Male, Mice, Pyridones pharmacology, Pyridones therapeutic use, RNA-Binding Protein FUS metabolism, RNA-Binding Protein FUS genetics, Prefrontal Cortex metabolism, Transcriptome, Superoxide Dismutase-1 genetics, Superoxide Dismutase-1 metabolism, DNA-Binding Proteins metabolism, DNA-Binding Proteins genetics, Middle Aged, MicroRNAs genetics, MicroRNAs metabolism, C9orf72 Protein genetics, C9orf72 Protein metabolism, Sex Characteristics, Aged, Sex Factors, Pyrimidinones, Amyotrophic Lateral Sclerosis genetics, Amyotrophic Lateral Sclerosis drug therapy, Amyotrophic Lateral Sclerosis metabolism, Mice, Transgenic, MAP Kinase Signaling System drug effects, Disease Models, Animal

Abstract

Amyotrophic lateral sclerosis (ALS) is a debilitating motor neuron disease and lacks effective disease-modifying treatments. This study utilizes a comprehensive multiomic approach to investigate the early and sex-specific molecular mechanisms underlying ALS. By analyzing the prefrontal cortex of 51 patients with sporadic ALS and 50 control subjects, alongside four transgenic mouse models (C9orf72-, SOD1-, TDP-43-, and FUS-ALS), we have uncovered significant molecular alterations associated with the disease. Here, we show that males exhibit more pronounced changes in molecular pathways compared to females. Our integrated analysis of transcriptomes, (phospho)proteomes, and miRNAomes also identified distinct ALS subclusters in humans, characterized by variations in immune response, extracellular matrix composition, mitochondrial function, and RNA processing. The molecular signatures of human subclusters were reflected in specific mouse models. Our study highlighted the mitogen-activated protein kinase (MAPK) pathway as an early disease mechanism. We further demonstrate that trametinib, a MAPK inhibitor, has potential therapeutic benefits in vitro and in vivo, particularly in females, suggesting a direction for developing targeted ALS treatments., (© 2024. The Author(s).)

Published

2024

10. A prognostic neural epigenetic signature in high-grade glioma.

Author

Drexler R, Khatri R, Sauvigny T, Mohme M, Maire CL, Ryba A, Zghaibeh Y, Dührsen L, Salviano-Silva A, Lamszus K, Westphal M, Gempt J, Wefers AK, Neumann JE, Bode H, Hausmann F, Huber TB, Bonn S, Jütten K, Delev D, Weber KJ, Harter PN, Onken J, Vajkoczy P, Capper D, Wiestler B, Weller M, Snijder B, Buck A, Weiss T, Göller PC, Sahm F, Menstel JA, Zimmer DN, Keough MB, Ni L, Monje M, Silverbush D, Hovestadt V, Suvà ML, Krishna S, Hervey-Jumper SL, Schüller U, Heiland DH, Hänzelmann S, and Ricklefs FL

Subjects

Humans, Prognosis, DNA Methylation genetics, Animals, Mice, Male, Female, Gene Expression Regulation, Neoplastic, Glioblastoma genetics, Glioblastoma pathology, Middle Aged, Neurons pathology, Neurons metabolism, Adult, Single-Cell Analysis, Cell Line, Tumor, Transcriptome, Neoplasm Grading, Epigenesis, Genetic, Glioma genetics, Glioma pathology, Brain Neoplasms genetics, Brain Neoplasms pathology

Abstract

Neural-tumor interactions drive glioma growth as evidenced in preclinical models, but clinical validation is limited. We present an epigenetically defined neural signature of glioblastoma that independently predicts patients' survival. We use reference signatures of neural cells to deconvolve tumor DNA and classify samples into low- or high-neural tumors. High-neural glioblastomas exhibit hypomethylated CpG sites and upregulation of genes associated with synaptic integration. Single-cell transcriptomic analysis reveals a high abundance of malignant stemcell-like cells in high-neural glioblastoma, primarily of the neural lineage. These cells are further classified as neural-progenitor-cell-like, astrocyte-like and oligodendrocyte-progenitor-like, alongside oligodendrocytes and excitatory neurons. In line with these findings, high-neural glioblastoma cells engender neuron-to-glioma synapse formation in vitro and in vivo and show an unfavorable survival after xenografting. In patients, a high-neural signature is associated with decreased overall and progression-free survival. High-neural tumors also exhibit increased functional connectivity in magnetencephalography and resting-state magnet resonance imaging and can be detected via DNA analytes and brain-derived neurotrophic factor in patients' plasma. The prognostic importance of the neural signature was further validated in patients diagnosed with diffuse midline glioma. Our study presents an epigenetically defined malignant neural signature in high-grade gliomas that is prognostically relevant. High-neural gliomas likely require a maximized surgical resection approach for improved outcomes., (© 2024. The Author(s).)

Published

2024

11. Molecular subgroups of T-cell acute lymphoblastic leukemia in adults treated according to pediatric-based GMALL protocols.

Author

Neumann M, Beder T, Bastian L, Hänzelmann S, Bultmann M, Wolgast N, Hartmann A, Trautmann H, Ortiz-Tanchez J, Schlee C, Schroeder M, Fransecky L, Vosberg S, Fiedler W, Alakel N, Heberling L, Kondakci M, Starck M, Schwartz S, Raffel S, Müller-Tidow C, Schneller F, Reichle A, Burmeister T, Greif PA, Brüggemann M, Gökbuget N, and Baldus CD

Subjects

Humans, Adult, Male, Female, Prognosis, Middle Aged, Young Adult, Adolescent, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Aged, Biomarkers, Tumor genetics, Mutation, Follow-Up Studies, Survival Rate, Transcriptome, Homeodomain Proteins genetics, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma genetics, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma mortality, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma pathology, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma therapy, DNA Methylation

Abstract

In contrast to B-cell precursor acute lymphoblastic leukemia (ALL), molecular subgroups are less well defined in T-lineage ALL. Comprehensive studies on molecular T-ALL subgroups have been predominantly performed in pediatric ALL patients. Currently, molecular characteristics are rarely considered for risk stratification. Herein, we present a homogenously treated cohort of 230 adult T-ALL patients characterized on transcriptome, and partly on DNA methylation and gene mutation level in correlation with clinical outcome. We identified nine molecular subgroups based on aberrant oncogene expression correlating to four distinct DNA methylation patterns. The subgroup distribution differed from reported pediatric T-ALL cohorts with higher frequencies of prognostic unfavorable subgroups like HOXA or LYL1/LMO2. A small subset (3%) of HOXA adult T-ALL patients revealed restricted expression of posterior HOX genes with aberrant activation of lncRNA HOTTIP. With respect to outcome, TLX1 (n = 44) and NKX2-1 (n = 4) had an exceptionally favorable 3-year overall survival (3y-OS) of 94%. Within thymic T-ALL, the non TLX1 patients had an inferior but still good prognosis. To our knowledge this is the largest cohort of adult T-ALL patients characterized by transcriptome sequencing with meaningful clinical follow-up. Risk classification based on molecular subgroups might emerge and contribute to improvements in outcome., (© 2024. The Author(s).)

Published

2024

12. Ibrutinib-associated focal segmental glomerulosclerosis and the impact of podocin mutations in chronic lymphocytic leukemia.

Author

Czogalla J, Schliffke S, Lu S, Schwerk M, Petereit H, Zhang T, Liu S, Dumoulin B, Gies S, Wu G, Hänzelmann S, Bode M, Grahammer F, Gödel M, Voigtländer M, Butt L, Bokemeyer C, Bergmann C, Benzing T, Wiech T, Puelles VG, and Huber TB

Subjects

Humans, Mutation, Glomerulosclerosis, Focal Segmental chemically induced, Glomerulosclerosis, Focal Segmental drug therapy, Glomerulosclerosis, Focal Segmental genetics, Leukemia, Lymphocytic, Chronic, B-Cell drug therapy, Leukemia, Lymphocytic, Chronic, B-Cell genetics, Nephrotic Syndrome genetics, Adenine analogs & derivatives, Membrane Proteins, Piperidines, Intracellular Signaling Peptides and Proteins

Published

2024

13. Temporal change of DNA methylation subclasses between matched newly diagnosed and recurrent glioblastoma.

Author

Drexler R, Khatri R, Schüller U, Eckhardt A, Ryba A, Sauvigny T, Dührsen L, Mohme M, Ricklefs T, Bode H, Hausmann F, Huber TB, Bonn S, Voß H, Neumann JE, Silverbush D, Hovestadt V, Suvà ML, Lamszus K, Gempt J, Westphal M, Heiland DH, Hänzelmann S, and Ricklefs FL

Subjects

Humans, DNA Methylation, Neoplasm Recurrence, Local genetics, Survival Analysis, Glioblastoma genetics, Glioblastoma therapy, Brain Neoplasms

Abstract

The longitudinal transition of phenotypes is pivotal in glioblastoma treatment resistance and DNA methylation emerged as an important tool for classifying glioblastoma phenotypes. We aimed to characterize DNA methylation subclass heterogeneity during progression and assess its clinical impact. Matched tissues from 47 glioblastoma patients were subjected to DNA methylation profiling, including CpG-site alterations, tissue and serum deconvolution, mass spectrometry, and immunoassay. Effects of clinical characteristics on temporal changes and outcomes were studied. Among 47 patients, 8 (17.0%) had non-matching classifications at recurrence. In the remaining 39 cases, 28.2% showed dominant DNA methylation subclass transitions, with 72.7% being a mesenchymal subclass. In general, glioblastomas with a subclass transition showed upregulated metabolic processes. Newly diagnosed glioblastomas with mesenchymal transition displayed increased stem cell-like states and decreased immune components at diagnosis and exhibited elevated immune signatures and cytokine levels in serum. In contrast, tissue of recurrent glioblastomas with mesenchymal transition showed increased immune components but decreased stem cell-like states. Survival analyses revealed comparable outcomes for patients with and without subclass transitions. This study demonstrates a temporal heterogeneity of DNA methylation subclasses in 28.2% of glioblastomas, not impacting patient survival. Changes in cell state composition associated with subclass transition may be crucial for recurrent glioblastoma targeted therapies., (© 2024. The Author(s).)

Published

2024

14. Fibroblast Growth Factor (FGF) 23 and FGF Receptor 4 promote cardiac metabolic remodeling in chronic kidney disease.

Author

Fuchs MA, Burke EJ, Latic N, Murray S, Li H, Sparks M, Abraham D, Zhang H, Rosenberg P, Hänzelmann S, Hausmann F, Huber T, Erben R, Fisher-Wellman K, Bursac N, Wolf M, and Grabner A

Abstract

Chronic kidney disease (CKD) is a global health epidemic that significantly increases mortality due to cardiovascular disease. Left ventricular hypertrophy (LVH) is an important mechanism of cardiac injury in CKD. High serum levels of fibroblast growth factor (FGF) 23 in patients with CKD may contribute mechanistically to the pathogenesis of LVH by activating FGF receptor (FGFR) 4 signaling in cardiac myocytes. Mitochondrial dysfunction and cardiac metabolic remodeling are early features of cardiac injury that predate development of hypertrophy, but these mechanisms of disease have been insufficiently studied in models of CKD. Wild-type mice with CKD induced by adenine diet developed LVH that was preceded by morphological changes in mitochondrial structure and evidence of cardiac mitochondrial and metabolic dysfunction. In bioengineered cardio-bundles and neonatal rat ventricular myocytes grown in vitro, FGF23-mediated activation of FGFR4 caused a mitochondrial pathology, characterized by increased bioenergetic stress and increased glycolysis, that preceded the development of cellular hypertrophy. The cardiac metabolic changes and associated mitochondrial alterations in mice with CKD were prevented by global or cardiac-specific deletion of FGFR4. These findings indicate that metabolic remodeling and eventually mitochondrial dysfunction are early cardiac complications of CKD that precede structural remodeling of the heart. Mechanistically, FGF23-mediated activation of FGFR4 causes mitochondrial dysfunction, suggesting that early pharmacologic inhibition of FGFR4 might serve as novel therapeutic intervention to prevent development of LVH and heart failure in patients with CKD.

Published

2023

15. Testosterone affects type I/type II interferon response of neutrophils during hepatic amebiasis.

Author

Er-Lukowiak M, Hänzelmann S, Rothe M, Moamenpour DT, Hausmann F, Khatri R, Hansen C, Boldt J, Bärreiter VA, Honecker B, Bea A, Groneberg M, Fehling H, Marggraff C, Cadar D, Bonn S, Sellau J, and Lotter H

Subjects

Humans, Male, Female, Mice, Animals, Neutrophils, Testosterone pharmacology, Interferon-gamma, Liver Abscess, Amebic, Interferon Type I

Abstract

Differences in immune response between men and women may influence the outcome of infectious diseases. Intestinal infection with Entamoeba histolytica leads to hepatic amebiasis, which is more common in males. Previously, we reported that innate immune cells contribute to liver damage in males in the murine model for hepatic amebiasis. Here, we focused on the influences of sex and androgens on neutrophils in particular. Infection associated with neutrophil accumulation in the liver was higher in male than in female mice and further increased after testosterone treatment in both sexes. Compared with female neutrophils, male neutrophils exhibit a more immature and less activated status, as evidenced by a lower proinflammatory N1-like phenotype and deconvolution, decreased gene expression of type I and type II interferon stimulated genes (ISGs) as well as downregulation of signaling pathways related to neutrophil activation. Neutrophils from females showed higher protein expression of the type I ISG viperin/RSAD2 during infection, which decreased by testosterone substitution. Moreover, ex vivo stimulation of human neutrophils revealed lower production of RSAD2 in neutrophils from men compared with women. These findings indicate that sex-specific effects on neutrophil physiology associated with maturation and type I IFN responsiveness might be important in the outcome of hepatic amebiasis., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Er-Lukowiak, Hänzelmann, Rothe, Moamenpour, Hausmann, Khatri, Hansen, Boldt, Bärreiter, Honecker, Bea, Groneberg, Fehling, Marggraff, Cadar, Bonn, Sellau and Lotter.)

Published

2023

16. Increased blood pressure after nonsevere COVID-19.

Author

Schmidt-Lauber C, Alba Schmidt E, Hänzelmann S, Petersen EL, Behrendt CA, Twerenbold R, Blankenberg S, Huber TB, and Wenzel UO

Subjects

Humans, Middle Aged, Blood Pressure physiology, Cross-Sectional Studies, Prospective Studies, COVID-19 complications, Hypertension

Abstract

Background: Various sequelae have been described after nonsevere coronavirus disease 2019 (COVID-19), but knowledge on postacute effects on blood pressure is limited., Methods: This is a cross-sectional analysis of blood pressure profiles in individuals after nonsevere COVID-19 compared with matched population-based individuals without prior COVID-19. Data were derived from the ongoing and prospective Hamburg City Health Study, a population-based study in Hamburg, Germany, and its associated COVID-19 program, which included individuals at least 4 months after COVID-19. Matching was performed by age, sex, education, and preexisting hypertension in a 1 : 4 ratio., Results: Four hundred and thirty-two individuals after COVID-19 (mean age 56.1 years) were matched to 1728 controls without prior COVID-19 (56.2 years). About 92.8% of COVID-19 courses were mild or moderate, only 7.2% were hospitalized, and no individual had been treated on an intensive care unit. Even after adjustment for relevant competing risk factors, DBP [+4.7 mmHg, 95% confidence interval (95% CI) 3.97-5.7, P  < 0.001] was significantly higher in individuals after COVID-19. For SBP, a trend towards increased values was observed (+1.4 mmHg, 95% CI -0.4 to 3.2, P  = 0.120). Hypertensive blood pressures at least 130/80 mmHg (according to the ACC/AHA guideline) and at least 140/90 mmHg (ESC/ESH guideline) occurred significantly more often in individuals after COVID-19 than matched controls (odds ratio 2.0, 95% CI 1.5-2.7, P  < 0.001 and odds ratio 1.6, 95% CI 1.3-2.0, P  < 0.001, respectively), mainly driven by changes in DBP., Conclusion: Blood pressure is higher in individuals after nonsevere COVID-19 compared with uninfected individuals suggesting a significant hypertensive sequela., (Copyright © 2023 The Author(s). Published by Wolters Kluwer Health, Inc.)

Published

2023

17. DISCERN: deep single-cell expression reconstruction for improved cell clustering and cell subtype and state detection.

Author

Hausmann F, Ergen C, Khatri R, Marouf M, Hänzelmann S, Gagliani N, Huber S, Machart P, and Bonn S

Subjects

Humans, Algorithms, Cell Cycle, Cell Differentiation, Cluster Analysis, COVID-19 genetics

Abstract

Background: Single-cell sequencing provides detailed insights into biological processes including cell differentiation and identity. While providing deep cell-specific information, the method suffers from technical constraints, most notably a limited number of expressed genes per cell, which leads to suboptimal clustering and cell type identification., Results: Here, we present DISCERN, a novel deep generative network that precisely reconstructs missing single-cell gene expression using a reference dataset. DISCERN outperforms competing algorithms in expression inference resulting in greatly improved cell clustering, cell type and activity detection, and insights into the cellular regulation of disease. We show that DISCERN is robust against differences between batches and is able to keep biological differences between batches, which is a common problem for imputation and batch correction algorithms. We use DISCERN to detect two unseen COVID-19-associated T cell types, cytotoxic CD4 + and CD8 + Tc2 T helper cells, with a potential role in adverse disease outcome. We utilize T cell fraction information of patient blood to classify mild or severe COVID-19 with an AUROC of 80% that can serve as a biomarker of disease stage. DISCERN can be easily integrated into existing single-cell sequencing workflow., Conclusions: Thus, DISCERN is a flexible tool for reconstructing missing single-cell gene expression using a reference dataset and can easily be applied to a variety of data sets yielding novel insights, e.g., into disease mechanisms., (© 2023. BioMed Central Ltd., part of Springer Nature.)

Published

2023

18. Kidney outcome after mild to moderate COVID-19.

Author

Schmidt-Lauber C, Hänzelmann S, Schunk S, Petersen EL, Alabdo A, Lindenmeyer M, Hausmann F, Kuta P, Renné T, Twerenbold R, Zeller T, Blankenberg S, Fliser D, and Huber TB

Subjects

Humans, SARS-CoV-2, Albuminuria, Cohort Studies, Prospective Studies, Pandemics, Hematuria, Cross-Sectional Studies, Kidney, Disease Progression, COVID-19 complications, COVID-19 epidemiology, Pyuria

Abstract

Background: Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has a remarkable kidney tropism. While kidney effects are common in severe coronavirus disease 2019 (COVID-19), data on non-severe courses are limited. Here we provide a multilevel analysis of kidney outcomes after non-severe COVID-19 to test for eventual kidney sequela., Methods: This cross-sectional study investigates individuals after COVID-19 and matched controls recruited from the Hamburg City Health Study (HCHS) and its COVID-19 program. The HCHS is a prospective population-based cohort study within the city of Hamburg, Germany. During the COVID-19 pandemic the study additionally recruited subjects after polymerase chain reaction-confirmed SARS-CoV-2 infections. Matching was performed by age, sex and education. Main outcomes were estimated glomerular filtration rate (eGFR), albuminuria, Dickkopf3, haematuria and pyuria., Results: A total of 443 subjects in a median of 9 months after non-severe COVID-19 were compared with 1328 non-COVID-19 subjects. The mean eGFR was mildly lower in post-COVID-19 than non-COVID-19 subjects, even after adjusting for known risk factors {β = -1.84 [95% confidence interval (CI) -3.16 to -0.52]}. However, chronic kidney disease [odds ratio (OR) 0.90 (95% CI 0.48-1.66)] or severely increased albuminuria [OR 0.76 (95% CI 0.49-1.09)] equally occurred in post-COVID-19 and non-COVID-19 subjects. Haematuria, pyuria and proteinuria were also similar between the two cohorts, suggesting no ongoing kidney injury after non-severe COVID-19. Further, Dickkopf3 was not increased in the post-COVID-19 cohort, indicating no systematic risk for ongoing GFR decline [β = -72.19 (95% CI -130.0 to -14.4)]., Conclusion: While mean eGFR was slightly lower in subjects after non-severe COVID-19, there was no evidence for ongoing or progressive kidney sequela., (© The Author(s) 2023. Published by Oxford University Press on behalf of the ERA.)

Published

2023

19. Epigenetic neural glioblastoma enhances synaptic integration and predicts therapeutic vulnerability.

Author

Drexler R, Khatri R, Sauvigny T, Mohme M, Maire CL, Ryba A, Zghaibeh Y, Dührsen L, Salviano-Silva A, Lamszus K, Westphal M, Gempt J, Wefers AK, Neumann J, Bode H, Hausmann F, Huber TB, Bonn S, Jütten K, Delev D, Weber KJ, Harter PN, Onken J, Vajkoczy P, Capper D, Wiestler B, Weller M, Snijder B, Buck A, Weiss T, Keough MB, Ni L, Monje M, Silverbush D, Hovestadt V, Suvà ML, Krishna S, Hervey-Jumper SL, Schüller U, Heiland DH, Hänzelmann S, and Ricklefs FL

Abstract

Neural-tumor interactions drive glioma growth as evidenced in preclinical models, but clinical validation is nascent. We present an epigenetically defined neural signature of glioblastoma that independently affects patients' survival. We use reference signatures of neural cells to deconvolve tumor DNA and classify samples into low- or high-neural tumors. High-neural glioblastomas exhibit hypomethylated CpG sites and upregulation of genes associated with synaptic integration. Single-cell transcriptomic analysis reveals high abundance of stem cell-like malignant cells classified as oligodendrocyte precursor and neural precursor cell-like in high-neural glioblastoma. High-neural glioblastoma cells engender neuron-to-glioma synapse formation in vitro and in vivo and show an unfavorable survival after xenografting. In patients, a high-neural signature associates with decreased survival as well as increased functional connectivity and can be detected via DNA analytes and brain-derived neurotrophic factor in plasma. Our study presents an epigenetically defined malignant neural signature in high-grade gliomas that is prognostically relevant., Competing Interests: Competing Interests M.L.S. is equity holder, scientific co-founder and advisory board member of Immunitas Therapeutics. M.M. holds equity in MapLight Therapeutics.

Published

2023

20. Targeted anticonvulsive treatment of IDH-wildtype glioblastoma based on DNA methylation subclasses.

Author

Drexler R, Göttsche J, Sauvigny T, Schüller U, Khatri R, Hausmann F, Hänzelmann S, Huber TB, Bonn S, Heiland DH, Delev D, Venkataramani V, Winkler F, Weller J, Zeyen T, Herrlinger U, Gempt J, Ricklefs FL, and Dührsen L

Subjects

Humans, DNA Methylation, Isocitrate Dehydrogenase genetics, Mutation, Glioblastoma drug therapy, Glioblastoma genetics, Glioma genetics, Brain Neoplasms drug therapy, Brain Neoplasms genetics

Published

2023

21. Epigenetic profiling reveals a strong association between lack of 5-ALA fluorescence and EGFR amplification in IDH -wildtype glioblastoma.

Author

Drexler R, Sauvigny T, Schüller U, Eckhardt A, Maire CL, Khatri R, Hausmann F, Hänzelmann S, Huber TB, Bonn S, Bode H, Lamszus K, Westphal M, Dührsen L, and Ricklefs FL

Abstract

Background: 5-aminolevulinic acid (5-ALA) fluorescence-guided resection increases the percentage of complete CNS tumor resections and improves the progression-free survival of IDH -wildtype glioblastoma patients. A small subset of IDH -wildtype glioblastoma shows no 5-ALA fluorescence. An explanation for these cases is missing. In this study, we used DNA methylation profiling to further characterize non-fluorescent glioblastomas., Methods: Patients with newly diagnosed and recurrent IDH -wildtype glioblastoma that underwent surgery were analyzed. The intensity of intraoperative 5-ALA fluorescence was categorized as non-visible or visible. DNA was extracted from tumors and genome-wide DNA methylation patterns were analyzed using Illumina EPIC (850k) arrays. Furthermore, 5-ALA intensity was measured by flow cytometry on human gliomasphere lines (BT112 and BT145)., Results: Of 74 included patients, 12 (16.2%) patients had a non-fluorescent glioblastoma, which were compared to 62 glioblastomas with 5-ALA fluorescence. Clinical characteristics were equally distributed between both groups. We did not find significant differences between DNA methylation subclasses and 5-ALA fluorescence ( P = .24). The distribution of cells of the tumor microenvironment was not significantly different between the non-fluorescent and fluorescent tumors. Copy number variations in EGFR and simultaneous EGFRvIII expression were strongly associated with 5-ALA fluorescence since all non-fluorescent glioblastomas were EGFR -amplified ( P < .01). This finding was also demonstrated in recurrent tumors. Similarly, EGFR -amplified glioblastoma cell lines showed no 5-ALA fluorescence after 24 h of incubation., Conclusions: Our study demonstrates an association between non-fluorescent IDH -wildtype glioblastomas and EGFR gene amplification which should be taken into consideration for recurrent surgery and future studies investigating EGFR -amplified gliomas., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Society for Neuro-Oncology and the European Association of Neuro-Oncology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2023

22. Isocitrate dehydrogenase 1 mutation drives leukemogenesis by PDGFRA activation due to insulator disruption in acute myeloid leukemia (AML).

Author

Steinhäuser S, Silva P, Lenk L, Beder T, Hartmann A, Hänzelmann S, Fransecky L, Neumann M, Bastian L, Lipinski S, Richter K, Bultmann M, Hübner E, Xia S, Röllig C, Vogiatzi F, Schewe DM, Yumiceba V, Schultz K, Spielmann M, and Baldus CD

Subjects

Humans, Aged, Dasatinib, Mutation, Oncogenes, Carcinogenesis genetics, Isocitrate Dehydrogenase genetics, Isocitrate Dehydrogenase metabolism, Leukemia, Myeloid, Acute genetics

Abstract

Acute myeloid leukemia (AML) is characterized by complex molecular alterations and driver mutations. Elderly patients show increased frequencies of IDH mutations with high chemoresistance and relapse rates despite recent therapeutic advances. Besides being associated with global promoter hypermethylation, IDH1 mutation facilitated changes in 3D DNA-conformation by CTCF-anchor methylation and upregulated oncogene expression in glioma, correlating with poor prognosis. Here, we investigated the role of IDH1 p.R132H mutation in altering 3D DNA-architecture and subsequent oncogene activation in AML. Using public RNA-Seq data, we identified upregulation of tyrosine kinase PDGFRA in IDH1-mutant patients, correlating with poor prognosis. DNA methylation analysis identified CpG hypermethylation within a CTCF-anchor upstream of PDGFRA in IDH1-mutant patients. Increased PDGFRA expression, PDGFRA-CTCF methylation and decreased CTCF binding were confirmed in AML CRISPR cells with heterozygous IDH1 p.R132H mutation and upon exogenous 2-HG treatment. IDH1-mutant cells showed higher sensitivity to tyrosine kinase inhibitor dasatinib, which was supported by reduced blast count in a patient with refractory IDH1-mutant AML after dasatinib treatment. Our data illustrate that IDH1 p.R132H mutation leads to CTCF hypermethylation, disrupting DNA-looping and insulation of PDGFRA, resulting in PDGFRA upregulation in IDH1-mutant AML. Treatment with dasatinib may offer a novel treatment strategy for IDH1-mutant AML., (© 2022. The Author(s).)

Published

2023

23. UBTF::ATXN7L3 gene fusion defines novel B cell precursor ALL subtype with CDX2 expression and need for intensified treatment.

Author

Bastian L, Hartmann AM, Beder T, Hänzelmann S, Kässens J, Bultmann M, Hoeppner MP, Franzenburg S, Wittig M, Franke A, Nagel I, Spielmann M, Reimer N, Busch H, Schwartz S, Steffen B, Viardot A, Döhner K, Kondakci M, Wulf G, Wendelin K, Renzelmann A, Kiani A, Trautmann H, Neumann M, Gökbuget N, Brüggemann M, and Baldus CD

Subjects

B-Lymphocytes metabolism, CDX2 Transcription Factor genetics, Homeodomain Proteins genetics, Humans, Gene Fusion, Transcription Factors genetics

Published

2022

24. An alternative CYB5A transcript is expressed in aneuploid ALL and enriched in relapse.

Author

Bartsch L, Schroeder MP, Hänzelmann S, Bastian L, Lázaro-Navarro J, Schlee C, Tanchez JO, Schulze V, Isaakidis K, Rieger MA, Gökbuget N, Eckert C, Serve H, Horstmann M, Schrappe M, Brüggemann M, Baldus CD, and Neumann M

Subjects

Adult, Aneuploidy, Humans, Mutation, Recurrence, Cytochromes b5 genetics, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma genetics

Abstract

Background: B-cell precursor acute lymphoblastic leukemia (BCP-ALL) is a genetically heterogenous malignancy with poor prognosis in relapsed adult patients. The genetic basis for relapse in aneuploid subtypes such as near haploid (NH) and high hyperdiploid (HeH) BCP-ALL is only poorly understood. Pathogenic genetic alterations remain to be identified. To this end, we investigated the dynamics of genetic alterations in a matched initial diagnosis-relapse (ID-REL) BCP-ALL cohort. Here, we firstly report the identification of the novel genetic alteration CYB5Aalt, an alternative transcript of CYB5A, in two independent cohorts., Methods: We identified CYB5alt in the RNAseq-analysis of a matched ID-REL BCP-ALL cohort with 50 patients and quantified its expression in various molecular BCP-ALL subtypes. Findings were validated in an independent cohort of 140 first diagnosis samples from adult BCP-ALL patients. Derived from patient material, the alternative open reading frame of CYB5Aalt was cloned (pCYB5Aalt) and pCYB5Aalt or the empty vector were stably overexpressed in NALM-6 cells. RNA sequencing was performed of pCYB5Aalt clones and empty vector controls followed by differential expression analysis, gene set enrichment analysis and complementing cell death and viability assays to determine functional implications of CYB5Aalt., Results: RNAseq data analysis revealed non-canonical exon usage of CYB5Aalt starting from a previously undescribed transcription start site. CYB5Aalt expression was increased in relapsed BCP-ALL and its occurrence was specific towards the shared gene expression cluster of NH and HeH BCP-ALL in independent cohorts. Overexpression of pCYB5Aalt in NALM-6 cells induced a distinct transcriptional program compared to empty vector controls with downregulation of pathways related to reported functions of CYB5A wildtype. Interestingly, CYB5A wildtype expression was decreased in CYB5Aalt samples in silico and in vitro. Additionally, pCYB5Aalt NALM-6 elicited a more resistant drug response., Conclusions: Across all age groups, CYB5Aalt was the most frequent secondary genetic event in relapsed NH and HeH BCP-ALL. In addition to its high subgroup specificity, CYB5Aalt is a novel candidate to be potentially implicated in therapy resistance in NH and HeH BCP-ALL. This is underlined by overexpressing CYB5Aalt providing first evidence for a functional role in BCL2-mediated apoptosis., (© 2022. The Author(s).)

Published

2022

25. Inhibiting casein kinase 2 sensitizes acute lymphoblastic leukemia cells to venetoclax via MCL1 degradation.

Author

Lázaro-Navarro J, Pimentel-Gutiérrez HJ, Gauert A, Hagemann AIH, Eisenschmid J, Gökbuget N, Vick B, Jeremias I, Seyfried F, Meyer LH, Debatin KM, Richer K, Bultman M, Neumann M, Hänzelmann S, Serve H, Astrahantseff K, Rieger MA, Eckert C, Baldus CD, and Bastian L

Subjects

Bridged Bicyclo Compounds, Heterocyclic pharmacology, Humans, Myeloid Cell Leukemia Sequence 1 Protein, Sulfonamides, Casein Kinase II, Precursor Cell Lymphoblastic Leukemia-Lymphoma drug therapy

Published

2021

26. Potential and pitfalls of whole transcriptome-based immunogenetic marker identification in acute lymphoblastic leukemia; a EuroMRD and EuroClonality-NGS Working Group study.

Author

van der Velden VHJ, Brüggemann M, Cazzaniga G, Scheijen B, Tops B, Trka J, Pal K, Hänzelmann S, Fazio G, Songia S, Langerak AW, and Darzentas N

Subjects

Humans, Neoplasm, Residual genetics, Neoplasm, Residual metabolism, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma metabolism, Prognosis, Biomarkers, Tumor genetics, Immunogenetics, Neoplasm, Residual pathology, Precursor Cell Lymphoblastic Leukemia-Lymphoma pathology, RNA-Seq standards, Transcriptome, Whole Genome Sequencing standards

Published

2021

27. PAX5 biallelic genomic alterations define a novel subgroup of B-cell precursor acute lymphoblastic leukemia.

Author

Bastian L, Schroeder MP, Eckert C, Schlee C, Tanchez JO, Kämpf S, Wagner DL, Schulze V, Isaakidis K, Lázaro-Navarro J, Hänzelmann S, James AR, Ekici A, Burmeister T, Schwartz S, Schrappe M, Horstmann M, Vosberg S, Krebs S, Blum H, Hecht J, Greif PA, Rieger MA, Brüggemann M, Gökbuget N, Neumann M, and Baldus CD

Subjects

Chromosomes, Human, Pair 9, Cyclin-Dependent Kinase Inhibitor p15 genetics, Cyclin-Dependent Kinase Inhibitor p16 genetics, DNA Methylation, Energy Metabolism, Humans, Loss of Heterozygosity, Mutation, PAX5 Transcription Factor genetics, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma genetics

Abstract

Chromosomal rearrangements and specific aneuploidy patterns are initiating events and define subgroups in B-cell precursor acute lymphoblastic leukemia (BCP-ALL). Here we analyzed 250 BCP-ALL cases and identified a novel subgroup ('PAX5-plus', n = 19) by distinct DNA methylation and gene expression profiles. All patients in this subgroup harbored mutations in the B-lineage transcription factor PAX5, with p.P80R as hotspot. Mutations either affected two independent codons, consistent with compound heterozygosity, or suffered LOH predominantly through chromosome 9p aberrations. These biallelic events resulted in disruption of PAX5 transcriptional programs regulating B-cell differentiation and tumor suppressor functions. Homozygous CDKN2A/B deletions and RAS-activating hotspot mutations were highly enriched as cooperating events in the genomic profile of PAX5-plus ALL. Together, this defined a specific pattern of triple alterations, exclusive to the novel subgroup. PAX5-plus ALL was observed in pediatric and adult patients. Although restricted by the limited sample size, a tendency for more favorable clinical outcome was observed, with 10 of 12 adult PAX5-plus patients achieving long-term survival. PAX5-plus represents the first BCP-ALL subgroup defined by sequence alterations in contrast to gross chromosomal events and exemplifies how deregulated differentiation (PAX5), impaired cell cycle control (CDKN2A/B) and sustained proliferative signaling (RAS) cooperatively drive leukemogenesis.

Published

2019

28. Detection of RNA-DNA binding sites in long noncoding RNAs.

Author

Kuo CC, Hänzelmann S, Sentürk Cetin N, Frank S, Zajzon B, Derks JP, Akhade VS, Ahuja G, Kanduri C, Grummt I, Kurian L, and Costa IG

Subjects

Algorithms, Base Sequence, Binding Sites genetics, DNA chemistry, Gene Expression, Humans, Nucleic Acid Conformation, Protein Binding, Transcription Factors metabolism, Computational Biology methods, DNA metabolism, RNA, Long Noncoding chemistry, RNA, Long Noncoding metabolism

Abstract

Long non-coding RNAs (lncRNAs) can act as scaffolds that promote the interaction of proteins, RNA, and DNA. There is increasing evidence of sequence-specific interactions of lncRNAs with DNA via triple-helix (triplex) formation. This process allows lncRNAs to recruit protein complexes to specific genomic regions and regulate gene expression. Here we propose a computational method called Triplex Domain Finder (TDF) to detect triplexes and characterize DNA-binding domains and DNA targets statistically. Case studies showed that this approach can detect the known domains of lncRNAs Fendrr, HOTAIR and MEG3. Moreover, we validated a novel DNA-binding domain in MEG3 by a genome-wide sequencing method. We used TDF to perform a systematic analysis of the triplex-forming potential of lncRNAs relevant to human cardiac differentiation. We demonstrated that the lncRNA with the highest triplex-forming potential, GATA6-AS, forms triple helices in the promoter of genes relevant to cardiac development. Moreover, down-regulation of GATA6-AS impairs GATA6 expression and cardiac development. These data indicate the unique ability of our computational tool to identify novel triplex-forming lncRNAs and their target genes., (© The Author(s) 2019. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2019

29. CDKN2A loss and PIK3CA mutation in myoepithelial-like metaplastic breast cancer.

Author

Bartels S, van Luttikhuizen JL, Christgen M, Mägel L, Luft A, Hänzelmann S, Lehmann U, Schlegelberger B, Leo F, Steinemann D, and Kreipe H

Subjects

Aged, Aged, 80 and over, Biomarkers, Tumor deficiency, Breast Neoplasms enzymology, Breast Neoplasms pathology, Cell Differentiation, Cyclin-Dependent Kinase Inhibitor p16 deficiency, Epithelial Cells pathology, Female, Genetic Predisposition to Disease, Humans, Metaplasia, Middle Aged, Myoepithelioma enzymology, Myoepithelioma pathology, Phenotype, Biomarkers, Tumor genetics, Breast Neoplasms genetics, Chromosomes, Human, Pair 9, Class I Phosphatidylinositol 3-Kinases genetics, Cyclin-Dependent Kinase Inhibitor p16 genetics, Epithelial Cells enzymology, Mutation, Myoepithelioma genetics

Abstract

Metaplastic breast carcinoma comprises a heterogeneous group of tumours with poorly understood pathogenesis. A subset of metaplastic breast cancers show myoepithelial differentiation and constitute a morphological spectrum with ill-defined borders from fibromatosis-like spindle cell carcinoma to myoepithelial carcinoma. In a series of 34 metaplastic breast cancers with spindle cell and myoepithelial differentiation, we found recurrent genetic aberrations, which set them apart from other metaplastic breast cancers and suggest a unique pathogenesis. The majority of cases (28 of 34 patients; 82.4%) showed distinct chromosomal loss in the 9p21.3 region, including CDKN2A and CDKN2B. Biallelic loss of the CDKN2A/B region was found in 50% of deleted cases. Expression of the cyclin-dependent kinase inhibitor CDKN2A (p16) was missing in all samples affected by 9p21.3 loss. Other genomic alterations frequently occurring in triple-negative and metaplastic breast cancer were absent or found in only a minority of cases. Gains of whole chromosome 5 and chromosomal region 5p were observed in nine cases, and were associated with recurrences (p < 0.001). In 64.3% of cases, 9p21.3 loss was accompanied by concurrent PIK3CA mutation. Both genomic abnormalities were also detectable in adenomyoepitheliomas (4/12), which are considered to represent the precursor lesion of myoepithelial metaplastic breast cancer. In adenomyoepithelioma, PIK3CA mutation was present in both luminal epithelial and myoepithelial cells, whereas p16 loss was found only in the latter. We conclude that 9p21.3 (CDKN2A) loss and PIK3CA mutation characterize a subgroup of metaplastic breast cancers with myoepithelial and spindle cell differentiation. Myoepithelial cells in adenomyoepithelioma may show identical aberrations. Copyright © 2018 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd., (Copyright © 2018 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.)

Published

2018

30. The lncRNA HOTAIR impacts on mesenchymal stem cells via triple helix formation.

Author

Kalwa M, Hänzelmann S, Otto S, Kuo CC, Franzen J, Joussen S, Fernandez-Rebollo E, Rath B, Koch C, Hofmann A, Lee SH, Teschendorff AE, Denecke B, Lin Q, Widschwendter M, Weinhold E, Costa IG, and Wagner W

Subjects

Base Sequence, Cell Differentiation, Cell Proliferation, Cells, Cultured, Cellular Senescence, DNA Methylation, Epigenesis, Genetic, Gene Expression, Humans, Nucleic Acid Conformation, Protein Binding, RNA, Long Noncoding chemistry, Mesenchymal Stem Cells physiology, RNA, Long Noncoding physiology

Abstract

There is a growing perception that long non-coding RNAs (lncRNAs) modulate cellular function. In this study, we analyzed the role of the lncRNA HOTAIR in mesenchymal stem cells (MSCs) with particular focus on senescence-associated changes in gene expression and DNA-methylation (DNAm). HOTAIR binding sites were enriched at genomic regions that become hypermethylated with increasing cell culture passage. Overexpression and knockdown of HOTAIR inhibited or stimulated adipogenic differentiation of MSCs, respectively. Modification of HOTAIR expression evoked only very moderate effects on gene expression, particularly of polycomb group target genes. Furthermore, overexpression and knockdown of HOTAIR resulted in DNAm changes at HOTAIR binding sites. Five potential triple helix forming domains were predicted within the HOTAIR sequence based on reverse Hoogsteen hydrogen bonds. Notably, the predicted triple helix target sites for these HOTAIR domains were also enriched in differentially expressed genes and close to DNAm changes upon modulation of HOTAIR Electrophoretic mobility shift assays provided further evidence that HOTAIR domains form RNA-DNA-DNA triplexes with predicted target sites. Our results demonstrate that HOTAIR impacts on differentiation of MSCs and that it is associated with senescence-associated DNAm. Targeting of epigenetic modifiers to relevant loci in the genome may involve triple helix formation with HOTAIR., (© The Author(s) 2016. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2016

31. The propagation of perturbations in rewired bacterial gene networks.

Author

Baumstark R, Hänzelmann S, Tsuru S, Schaerli Y, Francesconi M, Mancuso FM, Castelo R, and Isalan M

Subjects

Escherichia coli metabolism, Escherichia coli Proteins metabolism, Gene Expression Regulation, Bacterial, Promoter Regions, Genetic, Escherichia coli genetics, Escherichia coli Proteins genetics, Gene Regulatory Networks

Abstract

What happens to gene expression when you add new links to a gene regulatory network? To answer this question, we profile 85 network rewirings in E. coli. Here we report that concerted patterns of differential expression propagate from reconnected hub genes. The rewirings link promoter regions to different transcription factor and σ-factor genes, resulting in perturbations that span four orders of magnitude, changing up to ∼ 70% of the transcriptome. Importantly, factor connectivity and promoter activity both associate with perturbation size. Perturbations from related rewirings have more similar transcription profiles and a statistical analysis reveals ∼ 20 underlying states of the system, associating particular gene groups with rewiring constructs. We examine two large clusters (ribosomal and flagellar genes) in detail. These represent alternative global outcomes from different rewirings because of antagonism between these major cell states. This data set of systematically related perturbations enables reverse engineering and discovery of underlying network interactions.

Published

2015

32. Epigenetic program and transcription factor circuitry of dendritic cell development.

Author

Lin Q, Chauvistré H, Costa IG, Gusmao EG, Mitzka S, Hänzelmann S, Baying B, Klisch T, Moriggl R, Hennuy B, Smeets H, Hoffmann K, Benes V, Seré K, and Zenke M

Subjects

Animals, Cell Lineage, Cells, Cultured, Hematopoietic Stem Cells metabolism, Histones metabolism, Mice, Proto-Oncogene Proteins metabolism, Trans-Activators metabolism, Dendritic Cells metabolism, Epigenesis, Genetic, Gene Regulatory Networks, Transcription Factors metabolism

Abstract

Dendritic cells (DC) are professional antigen presenting cells that develop from hematopoietic stem cells through successive steps of lineage commitment and differentiation. Multipotent progenitors (MPP) are committed to DC restricted common DC progenitors (CDP), which differentiate into specific DC subsets, classical DC (cDC) and plasmacytoid DC (pDC). To determine epigenetic states and regulatory circuitries during DC differentiation, we measured consecutive changes of genome-wide gene expression, histone modification and transcription factor occupancy during the sequel MPP-CDP-cDC/pDC. Specific histone marks in CDP reveal a DC-primed epigenetic signature, which is maintained and reinforced during DC differentiation. Epigenetic marks and transcription factor PU.1 occupancy increasingly coincide upon DC differentiation. By integrating PU.1 occupancy and gene expression we devised a transcription factor regulatory circuitry for DC commitment and subset specification. The circuitry provides the transcription factor hierarchy that drives the sequel MPP-CDP-cDC/pDC, including Irf4, Irf8, Tcf4, Spib and Stat factors. The circuitry also includes feedback loops inferred for individual or multiple factors, which stabilize distinct stages of DC development and DC subsets. In summary, here we describe the basic regulatory circuitry of transcription factors that drives DC development., (© The Author(s) 2015. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2015

33. Replicative senescence is associated with nuclear reorganization and with DNA methylation at specific transcription factor binding sites.

Author

Hänzelmann S, Beier F, Gusmao EG, Koch CM, Hummel S, Charapitsa I, Joussen S, Benes V, Brümmendorf TH, Reid G, Costa IG, and Wagner W

Abstract

Background: Primary cells enter replicative senescence after a limited number of cell divisions. This process needs to be considered in cell culture experiments, and it is particularly important for regenerative medicine. Replicative senescence is associated with reproducible changes in DNA methylation (DNAm) at specific sites in the genome. The mechanism that drives senescence-associated DNAm changes remains unknown - it may involve stochastic DNAm drift due to imperfect maintenance of epigenetic marks or it is directly regulated at specific sites in the genome., Results: In this study, we analyzed the reorganization of nuclear architecture and DNAm changes during long-term culture of human fibroblasts and mesenchymal stromal cells (MSCs). We demonstrate that telomeres shorten and shift towards the nuclear center at later passages. In addition, DNAm profiles, either analyzed by MethylCap-seq or by 450k IlluminaBeadChip technology, revealed consistent senescence-associated hypermethylation in regions associated with H3K27me3, H3K4me3, and H3K4me1 histone marks, whereas hypomethylation was associated with chromatin containing H3K9me3 and lamina-associated domains (LADs). DNA hypermethylation was significantly enriched in the vicinity of genes that are either up- or downregulated at later passages. Furthermore, specific transcription factor binding motifs (e.g. EGR1, TFAP2A, and ETS1) were significantly enriched in differentially methylated regions and in the promoters of differentially expressed genes., Conclusions: Senescence-associated DNA hypermethylation occurs at specific sites in the genome and reflects functional changes in the course of replicative senescence. These results indicate that tightly regulated epigenetic modifications during long-term culture contribute to changes in nuclear organization and gene expression.

Published

2015

34. Thrombin stimulates insulin secretion via protease-activated receptor-3.

Author

Hänzelmann S, Wang J, Güney E, Tang Y, Zhang E, Axelsson AS, Nenonen H, Salehi AS, Wollheim CB, Zetterberg E, Berntorp E, Costa IG, Castelo R, and Rosengren AH

Subjects

Cells, Cultured, Diabetes Mellitus, Type 2 genetics, Diabetes Mellitus, Type 2 metabolism, Diabetes Mellitus, Type 2 pathology, Exocytosis drug effects, Exocytosis genetics, Gene Expression Profiling, Humans, Insulin Secretion, Insulin-Secreting Cells pathology, Microarray Analysis, Receptor, PAR-1 metabolism, Up-Regulation drug effects, Insulin metabolism, Insulin-Secreting Cells drug effects, Insulin-Secreting Cells metabolism, Receptor, PAR-1 physiology, Thrombin pharmacology

Abstract

The disease mechanisms underlying type 2 diabetes (T2D) remain poorly defined. Here we aimed to explore the pathophysiology of T2D by analyzing gene co-expression networks in human islets. Using partial correlation networks we identified a group of co-expressed genes ('module') including F2RL2 that was associated with glycated hemoglobin. F2Rl2 is a G-protein-coupled receptor (GPCR) that encodes protease-activated receptor-3 (PAR3). PAR3 is cleaved by thrombin, which exposes a 6-amino acid sequence that acts as a 'tethered ligand' to regulate cellular signaling. We have characterized the effect of PAR3 activation on insulin secretion by static insulin secretion measurements, capacitance measurements, studies of diabetic animal models and patient samples. We demonstrate that thrombin stimulates insulin secretion, an effect that was prevented by an antibody that blocks the thrombin cleavage site of PAR3. Treatment with a peptide corresponding to the PAR3 tethered ligand stimulated islet insulin secretion and single β-cell exocytosis by a mechanism that involves activation of phospholipase C and Ca(2+) release from intracellular stores. Moreover, we observed that the expression of tissue factor, which regulates thrombin generation, was increased in human islets from T2D donors and associated with enhanced β-cell exocytosis. Finally, we demonstrate that thrombin generation potential in patients with T2D was associated with increased fasting insulin and insulinogenic index. The findings provide a previously unrecognized link between hypercoagulability and hyperinsulinemia and suggest that reducing thrombin activity or blocking PAR3 cleavage could potentially counteract the exaggerated insulin secretion that drives insulin resistance and β-cell exhaustion in T2D.

Published

2015

35. GSVA: gene set variation analysis for microarray and RNA-seq data.

Author

Hänzelmann S, Castelo R, and Guinney J

Subjects

Analysis of Variance, Female, Genetic Variation, Humans, Leukemia, Biphenotypic, Acute genetics, Leukemia, Biphenotypic, Acute metabolism, Ovarian Neoplasms genetics, Ovarian Neoplasms metabolism, Ovarian Neoplasms mortality, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma metabolism, Statistics, Nonparametric, Survival Analysis, Gene Expression Profiling methods, Oligonucleotide Array Sequence Analysis methods, Sequence Analysis, RNA methods, Software

Abstract

Background: Gene set enrichment (GSE) analysis is a popular framework for condensing information from gene expression profiles into a pathway or signature summary. The strengths of this approach over single gene analysis include noise and dimension reduction, as well as greater biological interpretability. As molecular profiling experiments move beyond simple case-control studies, robust and flexible GSE methodologies are needed that can model pathway activity within highly heterogeneous data sets., Results: To address this challenge, we introduce Gene Set Variation Analysis (GSVA), a GSE method that estimates variation of pathway activity over a sample population in an unsupervised manner. We demonstrate the robustness of GSVA in a comparison with current state of the art sample-wise enrichment methods. Further, we provide examples of its utility in differential pathway activity and survival analysis. Lastly, we show how GSVA works analogously with data from both microarray and RNA-seq experiments., Conclusions: GSVA provides increased power to detect subtle pathway activity changes over a sample population in comparison to corresponding methods. While GSE methods are generally regarded as end points of a bioinformatic analysis, GSVA constitutes a starting point to build pathway-centric models of biology. Moreover, GSVA contributes to the current need of GSE methods for RNA-seq data. GSVA is an open source software package for R which forms part of the Bioconductor project and can be downloaded at http://www.bioconductor.org.

Published

2013

36. Secreted frizzled-related protein 4 reduces insulin secretion and is overexpressed in type 2 diabetes.

Author

Mahdi T, Hänzelmann S, Salehi A, Muhammed SJ, Reinbothe TM, Tang Y, Axelsson AS, Zhou Y, Jing X, Almgren P, Krus U, Taneera J, Blom AM, Lyssenko V, Esguerra JL, Hansson O, Eliasson L, Derry J, Zhang E, Wollheim CB, Groop L, Renström E, and Rosengren AH

Subjects

Animals, Calcium metabolism, Calcium Channels metabolism, Cells, Cultured, Diabetes Mellitus, Type 2 pathology, Exocytosis, Gene Expression, Glucose pharmacology, Glycated Hemoglobin metabolism, Humans, Insulin Secretion, Interleukin-1beta metabolism, Islets of Langerhans cytology, Islets of Langerhans metabolism, Mice, Proto-Oncogene Proteins antagonists & inhibitors, Proto-Oncogene Proteins genetics, RNA Interference, RNA, Small Interfering metabolism, Signal Transduction, Wnt Proteins metabolism, Diabetes Mellitus, Type 2 metabolism, Insulin metabolism, Proto-Oncogene Proteins metabolism

Abstract

A plethora of candidate genes have been identified for complex polygenic disorders, but the underlying disease mechanisms remain largely unknown. We explored the pathophysiology of type 2 diabetes (T2D) by analyzing global gene expression in human pancreatic islets. A group of coexpressed genes (module), enriched for interleukin-1-related genes, was associated with T2D and reduced insulin secretion. One of the module genes that was highly overexpressed in islets from T2D patients is SFRP4, which encodes secreted frizzled-related protein 4. SFRP4 expression correlated with inflammatory markers, and its release from islets was stimulated by interleukin-1β. Elevated systemic SFRP4 caused reduced glucose tolerance through decreased islet expression of Ca(2+) channels and suppressed insulin exocytosis. SFRP4 thus provides a link between islet inflammation and impaired insulin secretion. Moreover, the protein was increased in serum from T2D patients several years before the diagnosis, suggesting that SFRP4 could be a potential biomarker for islet dysfunction in T2D., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012