Your search keyword '"Margarete Odenthal"' showing total 253 results

1. CXCL10 deficiency limits macrophage infiltration, preserves lung matrix, and enables lung growth in bronchopulmonary dysplasia

Author

Dharmesh V. Hirani, Florian Thielen, Siavash Mansouri, Soula Danopoulos, Christina Vohlen, Pinar Haznedar-Karakaya, Jasmine Mohr, Rebecca Wilke, Jaco Selle, Thomas Grosch, Ivana Mizik, Margarete Odenthal, Cristina M. Alvira, Celien Kuiper-Makris, Gloria S. Pryhuber, Christian Pallasch, S. van Koningsbruggen-Rietschel, Denise Al-Alam, Werner Seeger, Rajkumar Savai, Jörg Dötsch, and Miguel A. Alejandre Alcazar

Subjects

CXCL10, Hyperoxia, Elastic fibers, Collagen, Lung matrix remodeling, Bronchopulmonary dysplasia, Pathology, RB1-214

Abstract

Abstract Preterm infants with oxygen supplementation are at high risk for bronchopulmonary dysplasia (BPD), a neonatal chronic lung disease. Inflammation with macrophage activation is central to the pathogenesis of BPD. CXCL10, a chemotactic and pro-inflammatory chemokine, is elevated in the lungs of infants evolving BPD and in hyperoxia-based BPD in mice. Here, we tested if CXCL10 deficiency preserves lung growth after neonatal hyperoxia by preventing macrophage activation. To this end, we exposed Cxcl10 knockout (Cxcl10 −/−) and wild-type mice to an experimental model of hyperoxia (85% O2)-induced neonatal lung injury and subsequent regeneration. In addition, cultured primary human macrophages and murine macrophages (J744A.1) were treated with CXCL10 and/or CXCR3 antagonist. Our transcriptomic analysis identified CXCL10 as a central hub in the inflammatory network of neonatal mouse lungs after hyperoxia. Quantitative histomorphometric analysis revealed that Cxcl10 −/− mice are in part protected from reduced alveolar. These findings were related to the preserved spatial distribution of elastic fibers, reduced collagen deposition, and protection from macrophage recruitment/infiltration to the lungs in Cxcl10 −/− mice during acute injury and regeneration. Complimentary, studies with cultured human and murine macrophages showed that hyperoxia induces Cxcl10 expression that in turn triggers M1-like activation and migration of macrophages through CXCR3. Finally, we demonstrated a temporal increase of macrophage-related CXCL10 in the lungs of infants with BPD. In conclusion, our data demonstrate macrophage-derived CXCL10 in experimental and clinical BPD that drives macrophage chemotaxis through CXCR3, causing pro-fibrotic lung remodeling and arrest of alveolarization. Thus, targeting the CXCL10-CXCR3 axis could offer a new therapeutic avenue for BPD.

Published

2023

2. Maternal and perinatal obesity induce bronchial obstruction and pulmonary hypertension via IL-6-FoxO1-axis in later life

Author

Jaco Selle, Katharina Dinger, Vanessa Jentgen, Daniela Zanetti, Johannes Will, Theodoros Georgomanolis, Christina Vohlen, Rebecca Wilke, Baktybek Kojonazarov, Oleksiy Klymenko, Jasmine Mohr, Silke v. Koningsbruggen-Rietschel, Christopher J. Rhodes, Anna Ulrich, Dharmesh Hirani, Tim Nestler, Margarete Odenthal, Esther Mahabir, Sreenath Nayakanti, Swati Dabral, Thomas Wunderlich, James Priest, Werner Seeger, Jörg Dötsch, Soni S. Pullamsetti, and Miguel A. Alejandre Alcazar

Subjects

Science

Abstract

This study shows that maternal and perinatal obesity cause bronchial and vascular smooth muscle cell proliferation through an IL-6-FoxO1 axis, and favor thereby the emergence of bronchial obstruction and pulmonary hypertension later in life.

Published

2022

3. Hepatitis C virus replication requires integrity of mitochondria-associated ER membranes

Author

Sarah Duponchel, Lea Monnier, Jennifer Molle, Nadia Bendridi, Muhammad Rizwan Alam, Ahmed Gaballah, Boyan Grigorov, Alexander Ivanov, Marcel Schmiel, Margarete Odenthal, Michel Ovize, Jennifer Rieusset, Fabien Zoulim, and Birke Bartosch

Subjects

hepatitis C virus, mitochondria-associated ER membranes, voltage-dependent anion channel 1, fibrosis, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background & Aims: Chronic HCV infection causes cellular stress, fibrosis and predisposes to hepatocarcinogenesis. Mitochondria play key roles in orchestrating stress responses by regulating bioenergetics, inflammation and apoptosis. To better understand the role of mitochondria in the viral life cycle and disease progression of chronic hepatitis C, we studied morphological and functional mitochondrial alterations induced by HCV using productively infected hepatoma cells and patient livers. Methods: Biochemical and imaging assays were used to assess localization of cellular and viral proteins and mitochondrial functions in cell cultures and liver biopsies. Cyclophilin D (CypD) knockout was performed using CRISPR/Cas9 technology. Viral replication was quantified by quantitative reverse-transcription PCR and western blotting. Results: Several HCV proteins were found to associate with mitochondria-associated endoplasmic reticulum (ER) membranes (MAMs), the points of contact between the ER and mitochondria. Downregulation of CypD, which is known to disrupt MAM integrity, reduced viral replication, suggesting that MAMs play an important role in the viral life cycle. This process was rescued by ectopic CypD expression. Furthermore, HCV proteins were found to associate with voltage dependent anion channel 1 (VDAC1) at MAMs and to reduce VDAC1 protein levels at MAMs in vitro and in patient biopsies. This association did not affect MAM-associated functions in glucose homeostasis and Ca2+ signaling. Conclusions: HCV proteins associate specifically with MAMs and MAMs play an important role in viral replication. The association between viral proteins and MAMs did not impact Ca2+ signaling between the ER and mitochondria or glucose homeostasis. Whether additional functions of MAMs and/or VDAC are impacted by HCV and contribute to the associated pathology remains to be assessed. Impact and implications: Hepatitis C virus infects the liver, where it causes inflammation, cell damage and increases the long-term risk of liver cancer. We show that several HCV proteins interact with mitochondria in liver cells and alter the composition of mitochondrial subdomains. Importantly, HCV requires the architecture of these mitochondrial subdomains to remain intact for efficient viral replication.

Published

2023

4. Vesicular Release and Uptake of Circular LSD1-RNAs from Non-Cancer and Cancer Lung Cells

Author

Joelle Noriko Galang, Yefeng Shen, Ulrike Koitzsch, Xiaojie Yu, Hannah Eischeid-Scholz, Daniel Bachurski, Tilman T. Rau, Christina Neppl, Marco Herling, Bianca Bulimaga, Elena Vasyutina, Michal R. Schweiger, Reinhard Büttner, Margarete Odenthal, and Maria M. Anokhina

Subjects

circular RNA, extracellular vesicles, KDM1a, lung cancer, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Lysine-specific demethylase 1 (LSD1) is highly expressed in many cancer types and strongly associated with cancer progression and metastasis. Circular RNAs (circRNAs) are produced by back-splicing and influence the interactive RNA network by microRNA and protein sponging. In the present study, we aimedto identify circRNAs that derive from the LSD1-encoding KDM1A gene, and to investigate their potential to be released and uptaken by lung cancer versus non-cancer epithelial cells. We identified four circLSD1-RNAs by RT-PCR with divergent primers, followed by sequencing. The expression level of circLSD1-RNAs was then studied by quantitative PCR on cellular and extracellular fractions of lung cancer (PC9) and non-cancer primary small airway epithelial (PSAE) cells. Moreover, we established the transgenic overexpression of circLSD1-RNAs. We show that circLSD1-RNAs are primarily located in the cytoplasm, but are packaged and released from lung cancer and non-cancer cells by extracellular vesicles (EVs) and ribonucleoprotein (RNP) complexes, respectively. Proteomics demonstrated a different protein pattern of EV fractions released from PC9 versus PSAE cells. Importantly, released circLSD1-RNAs were differently taken up by PSAE and PC9 cells. In conclusion, our findings provide primary evidence that circLSD1-RNAs participate in the intercellular communication of lung cancer cells with the tumor environment.

Published

2023

5. Diffusion kernel-based predictive modeling of KRAS dependency in KRAS wild type cancer cell lines

Author

Bastian Ulmer, Margarete Odenthal, Reinhard Buettner, Wilfried Roth, and Michael Kloth

Subjects

Biology (General), QH301-705.5

Abstract

Abstract Recent progress in clinical development of KRAS inhibitors has raised interest in predicting the tumor dependency on frequently mutated RAS-pathway oncogenes. However, even without such activating mutations, RAS proteins represent core components in signal integration of several membrane-bound kinases. This raises the question of applications of specific inhibitors independent from the mutational status. Here, we examined CRISPR/RNAi data from over 700 cancer cell lines and identified a subset of cell lines without KRAS gain-of-function mutations (KRASwt) which are dependent on KRAS expression. Combining machine learning-based modeling and whole transcriptome data with prior variable selection through protein-protein interaction network analysis by a diffusion kernel successfully predicted KRAS dependency in the KRASwt subgroup and in all investigated cancer cell lines. In contrast, modeling by RAS activating events (RAE) or previously published RAS RNA-signatures did not provide reliable results, highlighting the heterogeneous distribution of RAE in KRASwt cell lines and the importance of methodological references for expression signature modeling. Furthermore, we show that predictors of KRASwt models contain non-substitutable information signals, indicating a KRAS dependency phenotype in the KRASwt subgroup. Our data suggest that KRAS dependent cancers harboring KRAS wild type status could be targeted by directed therapeutic approaches. RNA-based machine learning models could help in identifying responsive and non-responsive tumors.

Published

2022

6. Autophagy-Related Activation of Hepatic Stellate Cells Reduces Cellular miR-29a by Promoting Its Vesicular SecretionSummary

Author

Xiaojie Yu, Natalia Elfimova, Marion Müller, Daniel Bachurski, Ulrike Koitzsch, Uta Drebber, Esther Mahabir, Hinrich P. Hansen, Scott L. Friedman, Sabine Klein, Hans Peter Dienes, Marianna Hösel, Reinhard Buettner, Jonel Trebicka, Vangelis Kondylis, Inge Mannaerts, and Margarete Odenthal

Subjects

Circulating MiRNA, MiR-29, Liver Fibrosis, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background & Aims: Liver fibrosis arises from long-term chronic liver injury, accompanied by an accelerated wound healing response with interstitial accumulation of extracellular matrix (ECM). Activated hepatic stellate cells (HSC) are the main source for ECM production. MicroRNA29a (miR-29a) is a crucial antifibrotic miRNA that is repressed during fibrosis, resulting in up-regulation of collagen synthesis. Methods: Intracellular and extracellular miRNA levels of primary and immortalized myofibroblastic HSC in response to profibrogenic stimulation by transforming growth factor β (TGFβ) or platelet-derived growth factor-BB (PDGF-BB) or upon inhibition of vesicular transport and autophagy processes were determined by quantitative polymerase chain reaction. Autophagy flux was studied by electron microscopy, flow cytometry, immunoblotting, and immunocytochemistry. Hepatic and serum miR-29a levels were quantified by using both liver tissue and serum samples from a cohort of chronic hepatitis C virus patients and a murine CCl4 induced liver fibrosis model. Results: In our study, we show that TGFβ and PDGF-BB resulted in decrease of intracellular miR-29a and a pronounced increase of vesicular miR-29a release into the supernatant. Strikingly, miR-29a vesicular release was accompanied by enhanced autophagic activity and up-regulation of the autophagy marker protein LC3. Moreover, autophagy inhibition strongly prevented miR-29a secretion and repressed its targets’ expression such as Col1A1. Consistently, hepatic miR-29a loss and increased LC3 expression in myofibroblastic HSC were associated with increased serum miR-29a levels in CCl4-treated murine liver fibrosis and specimens of hepatitis C virus patients with chronic liver disease. Conclusions: We provide evidence that activation-associated autophagy in HSC induces release of miR-29a, whereas inhibition of autophagy represses fibrogenic gene expression in part through attenuated miR-29a secretion.

Published

2022

7. Differential Role of Aldosterone and Transforming Growth Factor Beta-1 in Cardiac Remodeling

Author

Piotr Kmieć, Stephan Rosenkranz, Margarete Odenthal, and Evren Caglayan

Subjects

k aldosterone, transforming growth factor beta-1, ventricular cardiac remodeling, transgenic mice, mitogen-activated protein kinases, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Angiotensin II, a major culprit in cardiovascular disease, activates mediators that are also involved in pathological cardiac remodeling. In this context, we aimed at investigating the effects of two of them: aldosterone (Ald) and transforming growth factor beta-1 (TGF-β1) in an in vivo model. Six-week-old male wild-type (WT) and TGF-β1-overexpressing transgenic (TGF-β1-TG) mice were infused with subhypertensive doses of Ald for 2 weeks and/or treated orally with eplerenone from postnatal day 21. Thehearts’ ventricles were examined by morphometry, immunoblotting to assess the intracellular signaling pathways and RT qPCR to determine hypertrophy and fibrosis marker genes. The TGF-β1-TG mice spontaneously developed cardiac hypertrophy and interstitial fibrosis and exhibited a higher baseline phosphorylation of p44/42 and p38 kinases, fibronectin and ANP mRNA expression. Ald induced a comparable increase in the ventricular-heart-weight-to-body-weight ratio and cardiomyocyte diameter in both strains, but a less pronounced increase in interstitial fibrosis in the transgenic compared to the WT mice (23.6% vs. 80.9%, p < 0.005). Ald increased the phosphorylation of p44/42 and p38 in the WT but not the TGF-β1-TG mice. While the eplerenone-enriched chow partially prevented Ald-induced cardiac hypertrophy in both genotypes and interstitial fibrosis in the WT controls, it completely protected against additional fibrosis in transgenic mice. Ald appears to induce cardiac hypertrophy independently of TGF-β1, while in the case of fibrosis, the downstream signaling pathways of these two factors probably converge.

Published

2023

8. Pericentromeric Satellite III transcripts induce etoposide resistance

Author

Julian Kanne, Michelle Hussong, Jörg Isensee, Álvaro Muñoz-López, Jan Wolffgramm, Felix Heß, Christina Grimm, Sergey Bessonov, Lydia Meder, Jie Wang, H. Christian Reinhardt, Margarete Odenthal, Tim Hucho, Reinhard Büttner, Daniel Summerer, and Michal R. Schweiger

Subjects

Cytology, QH573-671

Abstract

Abstract Non-coding RNA from pericentromeric satellite repeats are involved in stress-dependent splicing processes, maintenance of heterochromatin, and are required to protect genome stability. Here we show that the long non-coding satellite III RNA (SatIII) generates resistance against the topoisomerase IIa (TOP2A) inhibitor etoposide in lung cancer. Because heat shock conditions (HS) protect cells against the toxicity of etoposide, and SatIII is significantly induced under HS, we hypothesized that the protective effect could be traced back to SatIII. Using genome methylation profiles of patient-derived xenograft mouse models we show that the epigenetic modification of the SatIII DNA locus and the resulting SatIII expression predict chemotherapy resistance. In response to stress, SatIII recruits TOP2A to nuclear stress bodies, which protects TOP2A from a complex formation with etoposide and results in decreased DNA damage after treatment. We show that BRD4 inhibitors reduce the expression of SatIII, restoring etoposide sensitivity.

Published

2021

9. Single-cell profiling of tumor heterogeneity and the microenvironment in advanced non-small cell lung cancer

Author

Fengying Wu, Jue Fan, Yayi He, Anwen Xiong, Jia Yu, Yixin Li, Yan Zhang, Wencheng Zhao, Fei Zhou, Wei Li, Jie Zhang, Xiaosheng Zhang, Meng Qiao, Guanghui Gao, Shanhao Chen, Xiaoxia Chen, Xuefei Li, Likun Hou, Chunyan Wu, Chunxia Su, Shengxiang Ren, Margarete Odenthal, Reinhard Buettner, Nan Fang, and Caicun Zhou

Subjects

Science

Abstract

Comprehensive profiles of tumour and microenvironment are critical to understand heterogeneity in non-small cell lung cancer (NSCLC). Here, the authors profile 42 late-stage NSCLC patients with single-cell RNA-seq, revealing immune landscapes that are associated with cancer subtype or heterogeneity.

Published

2021

10. Lipid Storage and Interferon Response Determine the Phenotype of Ground Glass Hepatocytes in Mice and HumansSummary

Author

Yuri Churin, Karuna Irungbam, Christoph S. Imiela, David Schwarz, Hans-Joachim Mollenkopf, Uta Drebber, Margarete Odenthal, Oleg Pak, Magdalena Huber, Dieter Glebe, Martin Roderfeld, and Elke Roeb

Subjects

Hepatitis B, GGH, Surface Proteins, Intracellular Aggregates, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background and Aims: A histopathological hallmark of chronic hepatitis B virus (HBV) infection is the presence of ground glass hepatocytes (GGHs). GGHs are liver cells that exhibit eosinophilic, granular, glassy cytoplasm in light microscopy and are characterized by accumulation of HBV surface (HBs) proteins in the endoplasmic reticulum (ER). More important, GGHs have been accepted as a precursor of HCC and may represent preneoplastic lesions of the liver. Methods: Here we show that the reason for ground glass phenotype of hepatocytes in patients with chronic hepatitis B (CHB) and in HBs transgenic mice is a complex formation between HBs proteins and lipid droplets (LDs) within the ER. Results: As fat is a main component of LDs their presence reduces the protein density of HBs aggregates. Therefore, they adsorb less amount of eosin during hematoxylin-eosin staining and appear dull in light microscopy. However, after induction of interferon response in the liver LDs were not only co-localized with HBs but also distributed throughout the cytoplasm of hepatocytes. The uniform distribution of LDs weakens the contrast between HBs aggregates and the rest of the cytoplasm and complicates the identification of GGHs. Suppression of interferon response restored the ground glass phenotype of hepatocytes. Conclusions: Complex formation between HBs and LDs represents a very important feature of CHB that could affect LDs functions in hepatocytes. The strain specific activation of the interferon response in the liver of HBs/c mice prevented the development of GGHs. Thus, manipulation of LDs could provide a new treatment strategy in the prevention of liver cancer.

Published

2021

11. Mendelian randomization and experimental IUGR reveal the adverse effect of low birth weight on lung structure and function

Author

Celien Kuiper-Makris, Daniela Zanetti, Christina Vohlen, Luise Fahle, Marion Müller, Margarete Odenthal, Ursula Felderhoff-Müser, Jörg Dötsch, and Miguel A. Alejandre Alcazar

Subjects

Medicine, Science

Abstract

Abstract Intrauterine growth restriction (IUGR) and low birth weigth (LBW) are risk factors for neonatal chronic lung disease. However, maternal and fetal genetic factors and the molecular mechanisms remain unclear. We investigated the relationship between LBW and lung function with Mendelian randomisation analyses and studied angiogenesis in a low protein diet rat model of IUGR. Our data indicate a possible association between LBW and reduced FEV1 (p = 5.69E−18, MR-PRESSO) and FVC (6.02E-22, MR-PRESSO). Complimentary, we demonstrated two-phased perinatal programming after IUGR. The intrauterine phase (embryonic day 21) is earmarked by a reduction of endothelial cell markers (e.g. CD31) as well as mRNA expression of angiogenic factors (e.g., Vegfa, Flt1, Klf4). Protein analysis identified an activation of anti-angiogenic mTOR effectors. In the postnatal phase, lung capillaries (

Published

2020

12. Schistosoma mansoni eggs induce Wnt/β-catenin signaling and activate the protooncogene c-Jun in human and hamster colon

Author

Jakob Weglage, Friederike Wolters, Laura Hehr, Jakob Lichtenberger, Celina Wulz, Felix Hempel, Anne Baier, Thomas Quack, Kernt Köhler, Thomas Longerich, Gabriele Schramm, Karuna Irungbam, Heike Mueller, Verena von Buelow, Annette Tschuschner, Margarete Odenthal, Uta Drebber, Maha El Arousy, Leandra N. Z. Ramalho, Katrin Bankov, Peter Wild, Jörn Pons-Kühnemann, Jonas Tschammer, Christoph G. Grevelding, Elke Roeb, and Martin Roderfeld

Subjects

Medicine, Science

Abstract

Abstract Schistosomiasis (bilharzia) is a neglected tropical disease caused by parasitic flatworms of the genus Schistosoma, with considerable morbidity in parts of the Middle East, South America, Southeast Asia, in sub-Saharan Africa, and particularly also in Europe. The WHO describes an increasing global health burden with more than 290 million people threatened by the disease and a potential to spread into regions with temperate climates like Corsica, France. The aim of our study was to investigate the influence of S. mansoni infection on colorectal carcinogenic signaling pathways in vivo and in vitro. S. mansoni infection, soluble egg antigens (SEA) and the Interleukin-4-inducing principle from S. mansoni eggs induce Wnt/β-catenin signaling and the protooncogene c-Jun as well as downstream factor Cyclin D1 and markers for DNA-damage, such as Parp1 and γH2a.x in enterocytes. The presence of these characteristic hallmarks of colorectal carcinogenesis was confirmed in colon biopsies from S. mansoni-infected patients demonstrating the clinical relevance of our findings. For the first time it was shown that S. mansoni SEA may be involved in the induction of colorectal carcinoma-associated signaling pathways.

Published

2020

13. Circulating microRNA-122 in HCV cirrhotic patients with high frequency of genotype 3.

Author

Amin Ullah, Xiaojie Yu, Margarete Odenthal, Sonja Meemboor, Bashir Ahmad, Irshad Ur Rehman, Jamshaid Ahmad, Qurban Ali, and Tariq Nadeem

Subjects

Medicine, Science

Abstract

MicroRNA-122 (miR-122) is a liver abundant microRNA that is released upon liver injury. In the present study, we investigated the circulating miR-122 profiles in a Pakistani patients´ cohort with HCV chronic liver disease that was mainly based on HCV genotype 3 infections. From 222 patients with chronic HCV liver disease, classified as mild, moderate, or severe, serum samples were collected. Cell-free RNA was isolated and used for miR-122 quantification by qPCR. More than 60% of 222 patients were infected with HCV genotype 3. ALT values and HCV viral load showed no correlation with the HCV genotype. Circulating miR-122 levels were significantly upregulated in patients with cirrhosis. Notably, HCV patients with mild cirrhosis showed the most marked increase in serum miR-122 levels (p = 0.0001). Furthermore, we proved a positive correlation (r = 0.46) of miR-122 with the ALT values in patients with mild cirrhosis. Importantly, our data of increased miR-122 levels in serum samples obtained from a patient cohort with a high prevalence of chronic genotype 3 HCV infection confirmed the previous findings collected from cohorts with a high prevalence of genotype 1. Therefore, we suggest that miR-122 increase after HCV infection does not depend on the HCV genotype. In conclusion, our findings confirm that serum miR-122 levels are significantly upregulated in the HCV cirrhotic patients serving in particular as a biomarker for the non-advanced stages of cirrhosis, independently of the HCV genotype.

Published

2022

14. Epigenetic modifications precede molecular alterations and drive human hepatocarcinogenesis

Author

Carolin Czauderna, Alicia Poplawski, Colm J. O’Rourke, Darko Castven, Benjamín Pérez-Aguilar, Diana Becker, Stephanie Heilmann-Heimbach, Margarete Odenthal, Wafa Amer, Marcel Schmiel, Uta Drebber, Harald Binder, Dirk A. Ridder, Mario Schindeldecker, Beate K. Straub, Peter R. Galle, Jesper B. Andersen, Snorri S. Thorgeirsson, Young Nyun Park, and Jens U. Marquardt

Subjects

Hepatology, Oncology, Medicine

Abstract

Development of primary liver cancer is a multistage process. Detailed understanding of sequential epigenetic alterations is largely missing. Here, we performed Infinium Human Methylation 450k BeadChips and RNA-Seq analyses for genome-wide methylome and transcriptome profiling of cirrhotic liver (n = 7), low- (n = 4) and high-grade (n = 9) dysplastic lesions, and early (n = 5) and progressed (n = 3) hepatocellular carcinomas (HCC) synchronously detected in 8 patients with HCC with chronic hepatitis B infection. Integrative analyses of epigenetically driven molecular changes were identified and validated in 2 independent cohorts comprising 887 HCCs. Mitochondrial DNA sequencing was further employed for clonality analyses, indicating multiclonal origin in the majority of investigated HCCs. Alterations in DNA methylation progressively increased from liver cirrhosis (CL) to dysplastic lesions and reached a maximum in early HCCs. Associated early alterations identified by Ingenuity Pathway Analysis (IPA) involved apoptosis, immune regulation, and stemness pathways, while late changes centered on cell survival, proliferation, and invasion. We further validated 23 putative epidrivers with concomitant expression changes and associated with overall survival. Functionally, Striatin 4 (STRN4) was demonstrated to be epigenetically regulated, and inhibition of STRN4 significantly suppressed tumorigenicity of HCC cell lines. Overall, application of integrative genomic analyses defines epigenetic driver alterations and provides promising targets for potentially novel therapeutic approaches.

Published

2021

15. Pulmonary arterial remodelling by deficiency of peroxisome proliferator-activated receptor-γ in murine vascular smooth muscle cells occurs independently of obesity-related pulmonary hypertension

Author

Evren Caglayan, Manuela Trappiel, Arnica Behringer, Eva Maria Berghausen, Margarete Odenthal, Ernst Wellnhofer, and Kai Kappert

Subjects

Pulmonary hypertension, VSMC, PPARgamma, Insulin resistance, Obesity, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Obesity is associated with cardiovascular complications, including pulmonary hypertension (PH). Reports suggest that peroxisome proliferator-activated receptor-γ (PPARγ) has direct action in preventing vascular remodelling in PH. Here we dissected the specific role of high-fat-diet (HFD)-induced obesity and vascular smooth muscle cell (VSMC)-PPARγ for remodelling of small pulmonary arteries. Methods Wild-type (WT) and VSMC-specific PPARγ-knockout (SmPparγ −/−) mice were fed a low-fat-diet (LFD, 10% kcal from fat) or HFD (60% kcal from fat) for 24 weeks. Mice were metabolically phenotyped (e.g. weight development, insulin/glucose tolerance) at the beginning, and after 12 and 24 weeks, respectively. At 24 weeks additionally pulmonary pressure, heart structure, pulmonary vascular muscularization together with gene and protein expression in heart and lung tissues were determined. Results HFD increased right ventricular systolic pressure (RVSP) to a similar extent in WT and SmPparγ −/− mice. HFD decreased glucose tolerance and insulin sensitivity in both WT and SmPparγ −/− mice. Importantly, the increase in RVSP correlated with the degree of insulin resistance. However, VSMC-PPARγ deficiency increased pulmonary vascular muscularization independently of the diet-induced rise in RVSP. This increase was associated with elevated expression of early growth response protein 1 in heart and osteopontin in lung tissue. Conclusions Here we demonstrate a correlation of insulin resistance and pulmonary pressure. Further, deficiency of PPARγ in VSMCs diet-independently leads to increased pulmonary vascular muscularization.

Published

2019

16. Variant profiling of colorectal adenomas from three patients of two families with MSH3-related adenomatous polyposis.

Author

Claudia Perne, Sophia Peters, Maria Cartolano, Sukanya Horpaopan, Christina Grimm, Janine Altmüller, Anna K Sommer, Axel M Hillmer, Holger Thiele, Margarete Odenthal, Gabriela Möslein, Ronja Adam, Sugirthan Sivalingam, Jutta Kirfel, Michal R Schweiger, Martin Peifer, Isabel Spier, and Stefan Aretz

Subjects

Medicine, Science

Abstract

The spectrum of somatic genetic variation in colorectal adenomas caused by biallelic pathogenic germline variants in the MSH3 gene, was comprehensively analysed to characterise mutational signatures and identify potential driver genes and pathways of MSH3-related tumourigenesis. Three patients from two families with MSH3-associated polyposis were included. Whole exome sequencing of nine adenomas and matched normal tissue was performed. The amount of somatic variants in the MSH3-deficient adenomas and the pattern of single nucleotide variants (SNVs) was similar to sporadic adenomas, whereas the fraction of small insertions/deletions (indels) (21-42% of all small variants) was significantly higher. Interestingly, pathogenic somatic APC variants were found in all but one adenoma. The vast majority (12/13) of these were di-, tetra-, or penta-base pair (bp) deletions. The fraction of APC indels was significantly higher than that reported in patients with familial adenomatous polyposis (FAP) (p < 0.01) or in sporadic adenomas (p < 0.0001). In MSH3-deficient adenomas, the occurrence of APC indels in a repetitive sequence context was significantly higher than in FAP patients (p < 0.01). In addition, the MSH3-deficient adenomas harboured one to five (recurrent) somatic variants in 13 established or candidate driver genes for early colorectal carcinogenesis, including ACVR2A and ARID genes. Our data suggest that MSH3-related colorectal carcinogenesis seems to follow the classical APC-driven pathway. In line with the specific function of MSH3 in the mismatch repair (MMR) system, we identified a characteristic APC mutational pattern in MSH3-deficient adenomas, and confirmed further driver genes for colorectal tumourigenesis.

Published

2021

17. Preclinical studies reveal that LSD1 inhibition results in tumor growth arrest in lung adenocarcinoma independently of driver mutations

Author

Iris F. Macheleidt, Priya S. Dalvi, So‐Young Lim, Sonja Meemboor, Lydia Meder, Olivia Käsgen, Marion Müller, Karolin Kleemann, Lingyu Wang, Peter Nürnberg, Vanessa Rüsseler, Stephan C. Schäfer, Esther Mahabir, Reinhard Büttner, and Margarete Odenthal

Subjects

epigenetic alterations, HCI‐2509, histone methylation, KDM1A, LSD1, lung adenocarcinoma, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Lung adenocarcinoma (LUAD) is the most prevalent subtype of non‐small cell lung cancer. Despite the development of novel targeted and immune therapies, the 5‐year survival rate is still only 21%, indicating the need for more efficient treatment regimens. Lysine‐specific demethylase 1 (LSD1) is an epigenetic eraser that modifies histone 3 methylation status, and is highly overexpressed in LUAD. Using representative human cell culture systems and two autochthonous transgenic mouse models, we investigated inhibition of LSD1 as a novel therapeutic option for treating LUAD. The reversible LSD1 inhibitor HCI‐2509 significantly reduced cell growth with an IC50 of 0.3–5 μmin vitro, which was linked to an enhancement of histone 3 lysine methylation. Most importantly, growth arrest, as well as inhibition of the invasion capacities, was independent of the underlying driver mutations. Subsequent expression profiling revealed that the cell cycle and replication machinery were prominently affected after LSD1 inhibition. In addition, our data provide evidence that LSD1 blockade significantly interferes with EGFR downstream signaling. Finally, our in vitro results were confirmed by preclinical therapeutic approaches, including the use of two autochthonous transgenic LUAD mouse models driven by either EGFR or KRAS mutations. Importantly, LSD1 inhibition resulted in significantly lower tumor formation and a strong reduction in tumor progression, which were independent of the underlying mutational background of the mouse models. Hence, our findings provide substantial evidence indicating that tumor growth of LUAD can be markedly decreased by HCI‐2509 treatment, suggesting its use as a single agent maintenance therapy or combined therapeutical application in novel concerted drug approaches.

Published

2018

18. Epigenomic profiling of non-small cell lung cancer xenografts uncover LRP12 DNA methylation as predictive biomarker for carboplatin resistance

Author

Sabrina Grasse, Matthias Lienhard, Steffen Frese, Martin Kerick, Anne Steinbach, Christina Grimm, Michelle Hussong, Jana Rolff, Michael Becker, Felix Dreher, Uwe Schirmer, Stefan Boerno, Anna Ramisch, Gunda Leschber, Bernd Timmermann, Christian Grohé, Heike Lüders, Martin Vingron, Iduna Fichtner, Sebastian Klein, Margarete Odenthal, Reinhard Büttner, Hans Lehrach, Holger Sültmann, Ralf Herwig, and Michal R. Schweiger

Subjects

Non-small cell lung cancer, NSCLC, Epigenomics, Predictive biomarker, Therapy response, DNA methylation, Medicine, Genetics, QH426-470

Abstract

Abstract Background Non-small cell lung cancer (NSCLC) is the most common cause of cancer-related deaths worldwide and is primarily treated with radiation, surgery, and platinum-based drugs like cisplatin and carboplatin. The major challenge in the treatment of NSCLC patients is intrinsic or acquired resistance to chemotherapy. Molecular markers predicting the outcome of the patients are urgently needed. Methods Here, we employed patient-derived xenografts (PDXs) to detect predictive methylation biomarkers for platin-based therapies. We used MeDIP-Seq to generate genome-wide DNA methylation profiles of 22 PDXs, their parental primary NSCLC, and their corresponding normal tissues and complemented the data with gene expression analyses of the same tissues. Candidate biomarkers were validated with quantitative methylation-specific PCRs (qMSP) in an independent cohort. Results Comprehensive analyses revealed that differential methylation patterns are highly similar, enriched in PDXs and lung tumor-specific when comparing differences in methylation between PDXs versus primary NSCLC. We identified a set of 40 candidate regions with methylation correlated to carboplatin response and corresponding inverse gene expression pattern even before therapy. This analysis led to the identification of a promoter CpG island methylation of LDL receptor-related protein 12 (LRP12) associated with increased resistance to carboplatin. Validation in an independent patient cohort (n = 35) confirmed that LRP12 methylation status is predictive for therapeutic response of NSCLC patients to platin therapy with a sensitivity of 80% and a specificity of 84% (p

Published

2018

19. Exome sequencing characterizes the somatic mutation spectrum of early serrated lesions in a patient with serrated polyposis syndrome (SPS)

Author

Sukanya Horpaopan, Jutta Kirfel, Sophia Peters, Michael Kloth, Robert Hüneburg, Janine Altmüller, Dmitriy Drichel, Margarete Odenthal, Glen Kristiansen, Christian Strassburg, Jacob Nattermann, Per Hoffmann, Peter Nürnberg, Reinhard Büttner, Holger Thiele, Philip Kahl, Isabel Spier, and Stefan Aretz

Subjects

Familial colorectal cancer (CRC), Exome sequencing, Hyperplastic polyposis syndrome (HPS), Serrated polyposis syndrome (SPS), Serrated pathway, Somatic mutations, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Genetics, QH426-470

Abstract

Abstract Background Serrated or Hyperplastic Polyposis Syndrome (SPS, HPS) is a yet poorly defined colorectal cancer (CRC) predisposition characterised by the occurrence of multiple and/or large serrated polyps throughout the colon. A serrated polyp-CRC sequence (serrated pathway) of CRC formation has been postulated, however, to date only few molecular signatures of serrated neoplasia (BRAF, KRAS, RNF43 mutations, CpG Island Methylation, MSI) have been described in a subset of SPS patients and neither the etiology of the syndrome nor the distinct genetic alterations during tumorigenesis have been identified. Methods To identify somatic point mutations in potential novel candidate genes of SPS-associated lesions and the involved pathways we performed exome sequencing of eleven early serrated polyps obtained from a 41 year-old female patient with clinically confirmed SPS. For data filtering and analysis, standard pipelines were used. Somatic mutations were identified by comparison with leukocyte DNA and were validated by Sanger sequencing. Results The BRAF p.V600E or KRAS p.G12D mutation was identified in six polyps (~50%) and not found in polyps from the distal colon. In addition, we found seven unique rare somatic alterations of seven different genes in four serrated tumours, all of which are missense variants. The variant in ABI3BP and CATSPERB are predicted to be deleterious. No established cancer gene or candidate genes related to serrated tumorigenesis were affected. Conclusions Somatic mutations seem to be rare events in early hyperplastic and serrated lesions of SPS patients. Neither frequently affected genes nor enrichment of specific pathways were observed. Thus, other alterations such as non-coding variants or epigenetic changes might be the major driving force of tumour progression in SPS.

Published

2017

20. MicroRNA Function in the Profibrogenic Interplay upon Chronic Liver Disease

Author

Jia Huang, Xiaojie Yu, Jochen W. U. Fries, Li'ang Zhang, and Margarete Odenthal

Subjects

liver fibrosis, myofibroblastic transition, TGF-β, miRNA, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

In chronic liver disease leading to fibrosis, hepatic stellate cells (HSC) differentiate into myofibroblasts. Myofibroblastic HSC have taken center stage during liver fibrogenesis, due to their remarkable synthesis of extracellular matrix proteins, their secretion of profibrogenic mediators and their contribution to hypertension, due to elevated contractility. MicroRNAs (miRNAs) are small, noncoding RNA molecules of 19–24 nucleotides in length. By either RNA interference or inhibition of translational initiation and elongation, each miRNA is able to inhibit the gene expression of a wide panel of targeted transcripts. Recently, it was shown that altered miRNA patterns after chronic liver disease highly affect the progression of fibrosis by their potential to target the expression of extracellular matrix proteins and the synthesis of mediators of profibrogenic pathways. Here, we underline the role of miRNAs in the interplay of the profibrogenic cell communication pathways upon myofibroblastic differentiation of hepatic stellate cells in the chronically injured liver.

Published

2014

21. TNF-Induced Target Cell Killing by CTL Activated through Cross-Presentation

Author

Dirk Wohlleber, Hamid Kashkar, Katja Gärtner, Marianne K. Frings, Margarete Odenthal, Silke Hegenbarth, Carolin Börner, Bernd Arnold, Günter Hämmerling, Bernd Nieswandt, Nico van Rooijen, Andreas Limmer, Karin Cederbrant, Mathias Heikenwalder, Manolis Pasparakis, Ulrike Protzer, Hans-Peter Dienes, Christian Kurts, Martin Krönke, and Percy A. Knolle

Subjects

Biology (General), QH301-705.5

Abstract

Viruses can escape cytotoxic T cell (CTL) immunity by avoiding presentation of viral components via endogenous MHC class I antigen presentation in infected cells. Cross-priming of viral antigens circumvents such immune escape by allowing noninfected dendritic cells to activate virus-specific CTLs, but they remain ineffective against infected cells in which immune escape is functional. Here, we show that cross-presentation of antigen released from adenovirus-infected hepatocytes by liver sinusoidal endothelial cells stimulated cross-primed effector CTLs to release tumor necrosis factor (TNF), which killed virus-infected hepatocytes through caspase activation. TNF receptor signaling specifically eliminated infected hepatocytes that showed impaired anti-apoptotic defense. Thus, CTL immune surveillance against infection relies on two similarly important but distinct effector functions that are both MHC restricted, requiring either direct antigen recognition on target cells and canonical CTL effector function or cross-presentation and a noncanonical effector function mediated by TNF.

Published

2012

22. Circulating miRNA-122 levels are associated with hepatic necroinflammation and portal hypertension in HIV/HCV coinfection.

Author

Christian Jansen, Thomas Reiberger, Jia Huang, Hannah Eischeid, Robert Schierwagen, Mattias Mandorfer, Evrim Anadol, Philipp Schwabl, Carolynne Schwarze-Zander, Ute Warnecke-Eberz, Christian P Strassburg, Jürgen K Rockstroh, Markus Peck-Radosavljevic, Margarete Odenthal, and Jonel Trebicka

Subjects

Medicine, Science

Abstract

BACKGROUND:Introduction of combined antiretroviral therapy (cART) has improved survival of HIV infected individuals, while the relative contribution of liver-related mortality increased. Especially in HIV/HCV-coinfected patients hepatic fibrosis and portal hypertension represent the main causes of liver-related morbidity and mortality. Circulating miRNA-122 levels are elevated in HIV patients and have been shown to correlate with severity of liver injury. However, the association of miRNA-122 levels and hepatic fibrosis and portal hypertension remains to be explored in HIV/HCV coinfection. METHODS:From a total of 74 (31% female) patients with HIV/HCV coinfection were included. Serum levels of miRNA-122 were analyzed by quantitative polymerase chain reaction (PCR) and normalized to SV-40 spike-in RNA. Hepatic venous pressure gradient (HVPG) was measured in 52 (70%) patients and the fibrosis stage was determined in 63 (85%) patients using transient elastography. RESULTS:The levels of circulating miRNA-122 were increased in HIV/HCV coinfected patients and significantly correlated with the alanine aminotransferase (ALT) (rs = 0.438; p

Published

2015

23. Comprehensive Analysis of Disease-Related Genes in Chronic Lymphocytic Leukemia by Multiplex PCR-Based Next Generation Sequencing.

Author

Claudia Vollbrecht, Fabian Dominik Mairinger, Ulrike Koitzsch, Martin Peifer, Katharina Koenig, Lukas Carl Heukamp, Giuliano Crispatzu, Laura Wilden, Karl-Anton Kreuzer, Michael Hallek, Margarete Odenthal, Carmen Diana Herling, and Reinhard Buettner

Subjects

Medicine, Science

Abstract

High resolution molecular studies have demonstrated that the clonal acquisition of gene mutations is an important mechanism that may promote rapid disease progression and drug resistance in chronic lymphocytic leukemia (CLL). Therefore, the early and sensitive detection of such mutations is an important prerequisite for future predictive CLL diagnostics in the clinical setting.Here, we describe a novel, target-specific next generation sequencing (NGS) approach, which combines multiplex PCR-based target enrichment and library generation with ultra-deep high-throughput parallel sequencing using a MiSeq platform. We designed a CLL specific target panel, covering hotspots or complete coding regions of 15 genes known to be recurrently mutated and/or related to B-cell receptor signaling.High-throughput sequencing was performed using as little as 40 ng of peripheral blood B-cell DNA from 136 CLL patients and a dilution series of two ATM- or TP53-mutated cell lines, the latter of which demonstrated a limit of mutation detection below 5%. Using a stringent functional assessment algorithm, 102 mutations in 8 genes were identified in CLL patients, including hotspot regions of TP53, SF3B1, NOTCH1, ATM, XPO1, MYD88, DDX3X and the B-cell receptor signaling regulator PTPN6. The presence of mutations was significantly associated with an advanced disease status und molecular markers of an inferior prognosis, such as an unmutated IGHV mutation status or positivity for ZAP70 by flow cytometry.In summary, targeted sequencing using an amplicon based library technology allows a resource-efficient and sensitive mutation analysis for diagnostic or exploratory purposes and facilitates molecular subtyping of patient sets with adverse prognosis.

Published

2015

24. Comparison of pre-analytical FFPE sample preparation methods and their impact on massively parallel sequencing in routine diagnostics.

Author

Carina Heydt, Jana Fassunke, Helen Künstlinger, Michaela Angelika Ihle, Katharina König, Lukas Carl Heukamp, Hans-Ulrich Schildhaus, Margarete Odenthal, Reinhard Büttner, and Sabine Merkelbach-Bruse

Subjects

Medicine, Science

Abstract

Over the last years, massively parallel sequencing has rapidly evolved and has now transitioned into molecular pathology routine laboratories. It is an attractive platform for analysing multiple genes at the same time with very little input material. Therefore, the need for high quality DNA obtained from automated DNA extraction systems has increased, especially to those laboratories which are dealing with formalin-fixed paraffin-embedded (FFPE) material and high sample throughput. This study evaluated five automated FFPE DNA extraction systems as well as five DNA quantification systems using the three most common techniques, UV spectrophotometry, fluorescent dye-based quantification and quantitative PCR, on 26 FFPE tissue samples. Additionally, the effects on downstream applications were analysed to find the most suitable pre-analytical methods for massively parallel sequencing in routine diagnostics. The results revealed that the Maxwell 16 from Promega (Mannheim, Germany) seems to be the superior system for DNA extraction from FFPE material. The extracts had a 1.3-24.6-fold higher DNA concentration in comparison to the other extraction systems, a higher quality and were most suitable for downstream applications. The comparison of the five quantification methods showed intermethod variations but all methods could be used to estimate the right amount for PCR amplification and for massively parallel sequencing. Interestingly, the best results in massively parallel sequencing were obtained with a DNA input of 15 ng determined by the NanoDrop 2000c spectrophotometer (Thermo Fisher Scientific, Waltham, MA, USA). No difference could be detected in mutation analysis based on the results of the quantification methods. These findings emphasise, that it is particularly important to choose the most reliable and constant DNA extraction system, especially when using small biopsies and low elution volumes, and that all common DNA quantification techniques can be used for downstream applications like massively parallel sequencing.

Published

2014

25. The role of miRNA-34a as a prognostic biomarker for cirrhotic patients with portal hypertension receiving TIPS.

Author

Christian Jansen, Hannah Eischeid, Jan Goertzen, Robert Schierwagen, Evrim Anadol, Christian P Strassburg, Tilman Sauerbruch, Margarete Odenthal, and Jonel Trebicka

Subjects

Medicine, Science

Abstract

BackgroundCirculating miRNA-34a is increased in blood of patients with different liver diseases when compared to healthy controls. However, the origin of miRNA-34a and its possible relationship with hemodynamics and outcome in cirrhotic patients with portal hypertension is unknown. We analyzed the levels of miRNA-34a in cirrhotic patients with severe portal hypertension.MethodsWe included 60 cirrhotic patients receiving TIPS for prevention of rebleeding and/or therapy-refractory ascites. miRNA-34a levels were measured using qPCR and normalized by SV-40 in the portal and hepatic venous blood of these patients taken at TIPS procedure. Hemodynamic and clinical parameters were assessed before TIPS and during follow-up.ResultsLevels of miRNA-34a were higher in the hepatic vein than in the portal vein. Circulating miRNA-34a in the hepatic vein correlated with ALT, CHE and sodium excretion after TIPS. miRNA-34a showed no correlation with portal pressure, but its levels in the portal vein correlated inversely with the congestion index. Interestingly, the levels of miRNA-34a in the portal and hepatic vein showed inverse correlation with arterial pressure. Furthermore, levels of miRNA-34a in the hepatic vein had a predictive value for survival, but MELD, creatinine at short-time follow-up 14 days after TIPS-insertion and portal pressure after TIPS performed better.ConclusionThis study demonstrates for the first time, that miRNA-34a may originate to a large extent from the liver. Even though higher levels of miRNA-34a are possibly associated with better survival at long-term follow-up in cirrhotic patients with severe portal hypertension receiving TIPS, classical prognostic parameters predict the survival better.

Published

2014

26. Exosomes as miRNA Carriers: Formation–Function–Future

Author

Xiaojie Yu, Margarete Odenthal, and Jochen W. U. Fries

Subjects

extracellular vesicle, exosome, cell metabolism, miRNA, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Exosomes, which are one of the smallest extracellular vesicles released from cells, have been shown to carry different nucleic acids, including microRNAs (miRNAs). miRNAs significantly regulate cell growth and metabolism by posttranscriptional inhibition of gene expression. The rapidly changing understanding of exosomes’ formation and function in delivering miRNAs from cell to cell has prompted us to review current knowledge in exosomal miRNA secretion mechanisms as well as possible therapeutic applications for personalized medicine.

Published

2016

27. Class II HDAC inhibition hampers hepatic stellate cell activation by induction of microRNA-29.

Author

Inge Mannaerts, Nathalie Eysackers, Oscar O Onyema, Katrien Van Beneden, Sergio Valente, Antonello Mai, Margarete Odenthal, and Leo A van Grunsven

Subjects

Medicine, Science

Abstract

BackgroundThe conversion of a quiescent vitamin A storing hepatic stellate cell (HSC) to a matrix producing, contractile myofibroblast-like activated HSC is a key event in the onset of liver disease following injury of any aetiology. Previous studies have shown that class I histone deacetylases (HDACs) are involved in the phenotypical changes occurring during stellate cell activation in liver and pancreas.AimsIn the current study we investigate the role of class II HDACs during HSC activation.MethodsWe characterized the expression of the class II HDACs freshly isolated mouse HSCs. We inhibited HDAC activity by selective pharmacological inhibition with MC1568, and by repressing class II HDAC gene expression using specific siRNAs.ResultsInhibition of HDAC activity leads to a strong reduction of HSC activation markers α-SMA, lysyl oxidase and collagens as well as an inhibition of cell proliferation. Knock down experiments showed that HDAC4 contributes to HSC activation by regulating lysyl oxidase expression. In addition, we observed a strong up regulation of miR-29, a well-known anti-fibrotic miR, upon treatment with MC1568. Our in vivo work suggests that a successful inhibition of class II HDACs could be promising for development of future anti-fibrotic compounds.ConclusionsIn conclusion, the use of MC1568 has enabled us to identify a role for class II HDACs regulating miR-29 during HSC activation.

Published

2013

28. Development of Hepatocellular Carcinoma Associated with Anabolic Androgenic Steroid Abuse in a Young Bodybuilder: A Case Report

Author

Aline Hardt, Dirk Stippel, Margarete Odenthal, Arnulf H. Hölscher, Hans-Peter Dienes, and Uta Drebber

Subjects

Pathology, RB1-214

Abstract

Introduction. Many different etiological factors are involved in the development of hepatocellular carcinoma (HCC). We report the case of HCC in a 37-year-old male professional bodybuilder with extensive anabolic androgenic (AAS) steroid abuse. Case Presentation. Because of increasing epigastric and abdominal pain, abdominal ultrasound was performed in a 37-year-old male professional bodybuilder. A hyperechoic lesion in the liver was detected in segment VI. The magnetic resonance imaging showed hepatomegaly and confirmed the lesion, which showed features of a hepatocellular adenoma (HCA). Laboratory values were inconspicuous. After laparoscopic segmentectomy the histological examination revealed HCC. Conclusion. While the development of HCA in the liver by chronic intake of AAS is well known, little is known about the association with HCC. The presented case may indicate aetiological association of chronic intake of AAS and the development of HCC.

Published

2012

29. Micro-RNA profiling in human serum reveals compartment-specific roles of miR-571 and miR-652 in liver cirrhosis.

Author

Christoph Roderburg, Tobias Mollnow, Brenda Bongaerts, Natalia Elfimova, David Vargas Cardenas, Katharina Berger, Henning Zimmermann, Alexander Koch, Mihael Vucur, Mark Luedde, Claus Hellerbrand, Margarete Odenthal, Christian Trautwein, Frank Tacke, and Tom Luedde

Subjects

Medicine, Science

Abstract

Micro-RNAs (miRNAs) have recently emerged as crucial modulators of molecular processes involved in chronic liver diseases. The few miRNAs with previously proposed roles in liver cirrhosis were identified in screening approaches on liver parenchyma, mostly in rodent models. Therefore, in the present study we performed a systematic screening approach in order to identify miRNAs with altered levels in the serum of patients with chronic liver disease and liver cirrhosis.We performed a systematic, array-based miRNA expression analysis on serum samples from patients with liver cirrhosis. In functional experiments we evaluated the relationship between alterations of miRNA serum levels and their role in distinct cellular compartments involved in hepatic cirrhosis.The array analysis and the subsequent confirmation by qPCR in a larger patient cohort identified significant alterations in serum levels of miR-513-3p, miR-571 and miR-652, three previously uncharacterized miRNAs, in patients with alcoholic or hepatitis C induced liver cirrhosis. Of these, miR-571 serum levels closely correlated with disease stages, thus revealing potential as a novel biomarker for hepatic cirrhosis. Further analysis revealed that up-regulation of miR-571 in serum reflected a concordant regulation in cirrhotic liver tissue. In isolated primary human liver cells, miR-571 was up-regulated in human hepatocytes and hepatic stellate cells in response to the pro-fibrogenic cytokine TGF-β. In contrast, alterations in serum levels of miR-652 were stage-independent, reflecting a concordant down-regulation of this miRNA in circulating monocytes of patients with liver cirrhosis, which was inducible by proinflammatory stimuli like bacterial lipopolysaccharide.Alterations of miR571 and miR-652 serum levels in patients with chronic liver disease reflect their putative roles in the mediation of fibrogenic and inflammatory processes in distinct cellular compartments involved in the pathogenesis of liver cirrhosis.

Published

2012

30. Hepatocyte growth factor (HGF) inhibits collagen I and IV synthesis in hepatic stellate cells by miRNA-29 induction.

Author

Monika Kwiecinski, Andrea Noetel, Natalia Elfimova, Jonel Trebicka, Stephanie Schievenbusch, Ingo Strack, Levente Molnar, Melanie von Brandenstein, Ulrich Töx, Roswitha Nischt, Oliver Coutelle, Hans Peter Dienes, and Margarete Odenthal

Subjects

Medicine, Science

Abstract

BackgroundIn chronic liver disease, hepatic stellate cells (HSC) transdifferentiate into myofibroblasts, promoting extracellular matrix (ECM) synthesis and deposition. Stimulation of HSC by transforming growth factor-β (TGF-β) is a crucial event in liver fibrogenesis due to its impact on myofibroblastic transition and ECM induction. In contrast, hepatocyte growth factor (HGF), exerts antifibrotic activities. Recently, miR-29 has been reported to be involved in ECM synthesis. We therefore studied the influence of HGF and TGF-β on the miR-29 collagen axis in HSC.MethodologyHSC, isolated from rats, were characterized for HGF and Met receptor expression by Real-Time PCR and Western blotting during culture induced myofibroblastic transition. Then, the levels of TGF-β, HGF, collagen-I and -IV mRNA, in addition to miR-29a and miR-29b were determined after HGF and TGF-β stimulation of HSC or after experimental fibrosis induced by bile-duct obstruction in rats. The interaction of miR-29 with 3'-untranslated mRNA regions (UTR) was analyzed by reporter assays. The repressive effect of miR-29 on collagen synthesis was studied in HSC treated with miR-29-mimicks by Real-Time PCR and immunoblotting.Principal findingsThe 3'-UTR of the collagen-1 and -4 subtypes were identified to bind miR-29. Hence, miR-29a/b overexpression in HSC resulted in a marked reduction of collagen-I and -IV synthesis. Conversely, a decrease in miR-29 levels is observed during collagen accumulation upon experimental fibrosis, in vivo, and after TGF-β stimulation of HSC, in vitro. Finally, we show that during myofibroblastic transition and TGF-β exposure the HGF-receptor, Met, is upregulated in HSC. Thus, whereas TGF-β stimulation leads to a reduction in miR-29 expression and de-repression of collagen synthesis, stimulation with HGF was definitely associated with highly elevated miR-29 levels and markedly repressed collagen-I and -IV synthesis.ConclusionsUpregulation of miRNA-29 by HGF and downregulation by TGF-β take part in the anti- or profibrogenic response of HSC, respectively.

Published

2011

31. Profilin-1 is expressed in human atherosclerotic plaques and induces atherogenic effects on vascular smooth muscle cells.

Author

Evren Caglayan, Giulio R Romeo, Kai Kappert, Margarete Odenthal, Michael Südkamp, Simon C Body, Stanton K Shernan, Daniel Hackbusch, Marius Vantler, Andrius Kazlauskas, and Stephan Rosenkranz

Subjects

Medicine, Science

Abstract

Profilin-1 is an ubiquitous actin binding protein. Under pathological conditions such as diabetes, profilin-1 levels are increased in the vascular endothelium. We recently demonstrated that profilin-1 overexpression triggers indicators of endothelial dysfunction downstream of LDL signaling, and that attenuated expression of profilin-1 confers protection from atherosclerosis in vivo.Here we monitored profilin-1 expression in human atherosclerotic plaques by immunofluorescent staining. The effects of recombinant profilin-1 on atherogenic signaling pathways and cellular responses such as DNA synthesis (BrdU-incorporation) and chemotaxis (modified Boyden-chamber) were evaluated in cultured rat aortic and human coronary vascular smooth muscle cells (VSMCs). Furthermore, the correlation between profilin-1 serum levels and the degree of atherosclerosis was assessed in humans.In coronary arteries from patients with coronary heart disease, we found markedly enhanced profilin expression in atherosclerotic plaques compared to the normal vessel wall. Stimulation of rat aortic and human coronary VSMCs with recombinant profilin-1 (10(-6) M) in vitro led to activation of intracellular signaling cascades such as phosphorylation of Erk1/2, p70(S6) kinase and PI3K/Akt within 10 minutes. Furthermore, profilin-1 concentration-dependently induced DNA-synthesis and migration of both rat and human VSMCs, respectively. Inhibition of PI3K (Wortmannin, LY294002) or Src-family kinases (SU6656, PP2), but not PLCγ (U73122), completely abolished profilin-induced cell cycle progression, whereas PI3K inhibition partially reduced the chemotactic response. Finally, we found that profilin-1 serum levels were significantly elevated in patients with severe atherosclerosis in humans (p

Published

2010

32. Streptococcus pneumoniae serotype 1 capsular polysaccharide induces CD8CD28 regulatory T lymphocytes by TCR crosslinking.

Author

Janina Mertens, Mario Fabri, Alessandra Zingarelli, Torsten Kubacki, Sonja Meemboor, Laura Groneck, Jens Seeger, Martina Bessler, Helena Hafke, Margarete Odenthal, Joan G Bieler, Christoph Kalka, Jonathan P Schneck, Hamid Kashkar, and Wiltrud M Kalka-Moll

Subjects

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

Abstract

Zwitterionic capsular polysaccharides (ZPS) of commensal bacteria are characterized by having both positive and negative charged substituents on each repeating unit of a highly repetitive structure that has an alpha-helix configuration. In this paper we look at the immune response of CD8(+) T cells to ZPSs. Intraperitoneal application of the ZPS Sp1 from Streptococcus pneumoniae serotype 1 induces CD8(+)CD28(-) T cells in the spleen and peritoneal cavity of WT mice. However, chemically modified Sp1 (mSp1) without the positive charge and resembling common negatively charged polysaccharides fails to induce CD8(+)CD28(-) T lymphocytes. The Sp1-induced CD8(+)CD28(-) T lymphocytes are CD122(low)CTLA-4(+)CD39(+). They synthesize IL-10 and TGF-beta. The Sp1-induced CD8(+)CD28(-) T cells exhibit immunosuppressive properties on CD4(+) T cells in vivo and in vitro. Experimental approaches to elucidate the mechanism of CD8(+) T cell activation by Sp1 demonstrate in a dimeric MHC class I-Ig model that Sp1 induces CD8(+) T cell activation by enhancing crosslinking of TCR. The expansion of CD8(+)CD28(-) T cells is independent, of direct antigen-presenting cell/T cell contact and, to the specificity of the T cell receptor (TCR). In CD8(+)CD28(-) T cells, Sp1 enhances Zap-70 phosphorylation and increasingly involves NF-kappaB which ultimately results in protection versus apoptosis and cell death and promotes survival and accumulation of the CD8(+)CD28(-) population. This is the first description of a naturally occurring bacterial antigen that is able to induce suppressive CD8(+)CD28(-) T lymphocytes in vivo and in vitro. The underlying mechanism of CD8(+) T cell activation appears to rely on enhanced TCR crosslinking. The data provides evidence that ZPS of commensal bacteria play an important role in peripheral tolerance mechanisms and the maintenance of the homeostasis of the immune system.

Published

2009

33. Differentially expressed messenger RNA/proteins can distinguish teratoma from necrosis in postchemotherapy retroperitoneal lymph node dissection tissue

Author

Tim Nestler, Lara Kremer, Melanie von Brandenstein, Maike Wittersheim, Pia Paffenholz, Svenja Wagener‐Ryczek, Alexander Quaas, Martin Hellmich, Stefan Müller, David Pfister, Margarete Odenthal, and Axel Heidenreich

Subjects

Cancer Research, Oncology

Abstract

Before postchemotherapy retroperitoneal lymph node dissection (pcRPLND), in patients with metastasized germ cell tumors (GCTs), those harboring necrosis (NEC) cannot be distinguished from those who have teratoma (TER), resulting in relevant overtreatment, whereas microRNA-371a-3p may be predictive for viable GCT. The purpose of this study was to explore messenger RNA (mRNA) and proteins to distinguish TER from NEC in pcRPLND tissue.The discovery cohort consisted in total of 48 patients, including 16 each with TER, viable GCT, and NEC. Representative areas were microdissected. A NanoString panel and proteomics were used to analyze 770 genes and5000 proteins. The most significantly and differentially expressed combination of both parameters, mRNA and its associated protein, between TER and NEC was validated using immunohistochemistry (IHC) in an independent validation cohort comprising 66 patients who were not part of the discovery cohort.The authors observed that anterior gradient protein 2 homolog (AGR2) and keratin, type I cytoskeletal 19 (KRT19) were significantly differentially expressed in TER versus NEC in mRNA and protein analyses (proteomics). The technical validation using IHC was successful in the same patients. These proteins were further validated by IHC in the independent patient cohort and exhibited significantly higher levels in TER versus NEC (p .0001; area under the curve, 1.0; sensitivity and specificity, 100% each).The current study demonstrated that KRT19 and AGR2 mRNA and protein are overexpressed in TER versus NEC in pcRPLND tissue and might serve as a future diagnostic target to detect TER, for instance, by functional imaging, to avoid overtreatment.The proteins and the corresponding genes called AGR2 and KRT19 can differentiate between teratoma and necrosis in remaining tumor masses after chemotherapy in patients who have metastasized testicular cancer. This may be a way to improve presurgical diagnostics and to reduce the current overtreatment of patients with necrosis only, who could be treated sufficiently by surveillance.

Published

2022

34. SQSTM1/p62 promotes miR-198 loading into extracellular vesicles and its autophagy-related secretion

Author

Xiaojie Yu, Hannah Eischeid-Scholz, Lydia Meder, Vangelis Kondylis, Reinhard Büttner, and Margarete Odenthal

Subjects

Extracellular Vesicles, MicroRNAs, Cancer Research, Carcinoma, Hepatocellular, Liver Neoplasms, Sequestosome-1 Protein, Autophagy, Humans, Cell Biology

Abstract

MicroRNA dysregulation is a hallmark of hepatocellular carcinoma (HCC), leading to tumor growth and metastasis. Previous screening on patient specimens identified miR-198 as the most downregulated miRNA in HCC. Here, we show that miR-198 compensation leads to self-release into extracellular vesicles (EVs). Importantly, the vesicular secretion is mediated by autophagy-related pathway, initiated by sequestration of p62/miR-198 complexes in autophagosome-associated vesicle fractions. miR-198 is selectively recognized and loaded by p62 into autophagosomal fractions, whereas mutated miR-198 forms neither induce autophagy and nor interact with p62. Gain and loss of function experiments, using a CRIPR/Cas knockout (KO) and transgenic site-specific p62 mutants, identified p62 as an essential repressor of cellular miR-198 abundancy. Notably, EVs, harboring miR-198/p62 protein complexes, can be uptaken by cells in the close vicinity, leading to change of gene expression in recipient cells. In conclusion, miR-198 enhances autophagy; conversely autophagic protein p62 reduces the miR-198 levels by sorting into extracellular space. Graphical abstract miR-198 is at first transcribed as primary miRNA, after being processed into single stranded mature miR-198 form, it is transported into cytoplasm ①. By interaction with p62 protein, miR-198 conglomerates and forms a binding complex ②. Since LC3 protein is an interaction partner of p62 protein, hence miR-198 is included into autophagosomes ③. By fusion with multivesicular bodies (MVB), miR-198-binding complex was recruited into amphisomes ④, the latter of which quickly turns into secretory MVB containing intraluminal vesicles⑤. By fusion with cell membrane, intraluminal vesicles were released into extracellular space as EVs ⑥.

Published

2022

35. Oncogenic role and target properties of the lysine-specific demethylase KDM1A in chronic lymphocytic leukemia

Author

Qu Jiang, Johanna Stachelscheid, Johannes Bloehdorn, Alicja Pacholewska, Christoph Markus Aszyk, Francien Grotenhuijs, Tony Andreas Müller, Ozlem Onder, Prerana Wagle, Carmen Diana Herling, Maria Kleppe, Zhefang Wang, Kevin R. Coombes, Sandra Robrecht, Priya S. Dalvi, Bianca Andra Lungu, Petra Mayer, Lynne V. Abruzzo, Janine Altmüller, Birgit Sybille Gathof, Thorsten Persigehl, Kirsten Fischer, Billy Michael Chelliah Jebaraj, Hugh Young Rienhoff, Rupert C. Ecker, Yue Zhao, Christiane Josephine Bruns, Stephan Stilgenbauer, Kojo S. J. Elenitoba-Johnson, Michael Hallek, Michal R. Schweiger, Margarete Odenthal, Elena Vasyutina, and Marco Herling

Subjects

Immunology, Cell Biology, Hematology, Biochemistry

Abstract

In chronic lymphocytic leukemia (CLL), epigenetic alterations are considered to centrally shape the transcriptional signatures that drive disease evolution and that underlie its biological and clinical subsets. Characterizations of epigenetic regulators, particularly histone-modifying enzymes, are very rudimentary in CLL. In efforts to establish effectors of the CLL-associated oncogene T-cell leukemia 1A (TCL1A), we identified here the lysine-specific histone demethylase KDM1A to interact with the TCL1A protein in B-cells in conjunction with an increased catalytic activity of KDM1A. We demonstrate that KDM1A is upregulated in malignant B-cells. Elevated KDM1A and associated gene expression signatures correlated with aggressive disease features and adverse clinical outcomes in a large prospective CLL trial cohort. Genetic Kdm1a knockdown (Kdm1a-KD) in Eμ-TCL1A mice reduced leukemic burden and prolonged animal survival, accompanied by upregulated p53 and pro-apoptotic pathways. Genetic KDM1A depletion also affected milieu components (T-, stromal, monocytic cells), resulting in significant reductions of their capacity to support CLL cell survival and proliferation. Integrated analyses of differential global transcriptomes (RNA-seq) and H3K4me3 marks (ChIP-seq) in Eµ-TCL1A vs. iKdm1aKD;Eµ-TCL1A mice (confirmed in human CLL) implicate KDM1A as an oncogenic transcriptional repressor in CLL by altering histone methylation patterns with pronounced effects on defined cell death and motility pathways. Finally, pharmacologic KDM1A inhibition altered H3K4/9 target methylation and revealed marked anti-B-cell-leukemic synergisms. Overall, we established the pathogenic role and effector networks of KDM1A in CLL, namely via tumor-cell intrinsic mechanisms and impacts in cells of the microenvironment. Our data also provide rationales to further investigate therapeutic KDM1A targeting in CLL.

Published

2023

36. Supplementary Figures 1-3, Tables 1-3 from LSD1 Inhibition Attenuates Tumor Growth by Disrupting PLK1 Mitotic Pathway

Author

Margarete Odenthal, Sebastian Klein, Reinhard Buettner, Stephan C. Schaefer, Hannah Eischeid-Scholz, Marion Müller, Sonja Meemboor, So-Young Lim, Iris F. Macheleidt, and Priya S. Dalvi

Abstract

S1: LSD1 inhibition reduces cell viability and migration capacities. S2: Multivariate analysis shows no significant expression differences for the studied genes in between untreated A549 and cisplatin treated A549 cells. S3: IHC staining shows colocalization of LSD1 and PLK1 in LUAD. Table S1: Cell line information Table S2: Primer sequences used for qPCR Table S3: Antibodies used for western blotting and IF

Published

2023

37. Data from LSD1 Inhibition Attenuates Tumor Growth by Disrupting PLK1 Mitotic Pathway

Author

Margarete Odenthal, Sebastian Klein, Reinhard Buettner, Stephan C. Schaefer, Hannah Eischeid-Scholz, Marion Müller, Sonja Meemboor, So-Young Lim, Iris F. Macheleidt, and Priya S. Dalvi

Abstract

Lysine-specific demethylase 1 (LSD1) is a histone modifier that is highly overexpressed in lung adenocarcinoma, which results in aggressive tumor biology. Tumor cell proliferation and migration analysis after LSD1 inhibition in the lung adenocarcinoma cell line PC9, using the LSD1 inhibitor HCI-2509 and siRNA, demonstrated that LSD1 activity was essential for proliferation and migration capacities of tumor cells. Moreover, reduced proliferation rates after LSD1 inhibition were shown to be associated with a cell-cycle arrest of the tumor cells in the G2–M-phase. Expression profiling followed by functional classification and pathway analysis indicated prominent repression of the polo-like kinase 1 (PLK1) pathway upon LSD1 inhibition. In contrast, transient overexpression of exogenous PLK1 plasmid rescued the LSD1 inhibition–mediated downregulation of PLK1 pathway genes. Mechanistically, LSD1 directly regulates expression of PLK1 by binding to its promoter region that subsequently affects expression of its downstream target genes. Notably, using lung adenocarcinoma TCGA datasets a significant correlation between LSD1 and PLK1 along with its downstream targets was observed. Furthermore, the LSD1/PLK1 linkage was confirmed by IHC analysis in a clinical lung adenocarcinoma cohort (n = 43). Conclusively, this is the first study showing a direct transcriptional link between LSD1 and PLK1.Implications:These findings point to a role of LSD1 in regulating PLK1 and thus efficient G2–M-transition–mediating proliferation of tumor cells and suggest targeting the LSD1/PLK1 axis as a novel therapeutic approach for lung adenocarcinoma treatment.

Published

2023

38. MP50-01 VALIDATION OF AGR2 AND KRT19 AS SPECIFIC PROTEINS BEING SIGNIFICANTLY AND DIFFERENTIALLY EXPRESSED IN TERATOMA COMPARED TO NECROSIS IN RETROPERITONEAL LYMPH NODE RESECTIONS AFTER CHEMOTHERAPY (PCRPLND)

Author

Tim Nestler, Lara Kremer, Melanie Von Brandenstein, Maike Wittersheim, Svenja Wagener-Ryczek, Pia Paffenholz, Stefan Mueller, Alexander Quaas, Martin Hellmich, Margarete Odenthal, David Pfister, and Axel Heidenreich

Subjects

Urology

Published

2023

39. Supplementary Tables from Combined VEGF and PD-L1 Blockade Displays Synergistic Treatment Effects in an Autochthonous Mouse Model of Small Cell Lung Cancer

Author

Roland T. Ullrich, H. Christian Reinhardt, Michael von Bergwelt-Baildon, Marco Herling, Michael Hallek, Juergen Wolf, Reinhard Buettner, Margarete Odenthal, Hans A. Schlößer, Kristina Golfmann, Alexandra Florin, Richard Riedel, Sebastian Oberbeck, Ignacija Vlasic, Kerstin Wennhold, Sven Borchmann, Sebastian Klein, Felix Dietlein, Anna Schmitt, Martin Thelen, Philipp Schuldt, and Lydia Meder

Abstract

Clinicopathologic parameters of mice and patients with the corresponding survival significance analysis of SCLC bearing mice treated with vehicle, IgG control, anti-VEGF monotherapy, anti-PD-L1 monotherapy or anti-VEGF/anti-PD-L1 combination therapy

Published

2023

40. Data from Combined VEGF and PD-L1 Blockade Displays Synergistic Treatment Effects in an Autochthonous Mouse Model of Small Cell Lung Cancer

Author

Roland T. Ullrich, H. Christian Reinhardt, Michael von Bergwelt-Baildon, Marco Herling, Michael Hallek, Juergen Wolf, Reinhard Buettner, Margarete Odenthal, Hans A. Schlößer, Kristina Golfmann, Alexandra Florin, Richard Riedel, Sebastian Oberbeck, Ignacija Vlasic, Kerstin Wennhold, Sven Borchmann, Sebastian Klein, Felix Dietlein, Anna Schmitt, Martin Thelen, Philipp Schuldt, and Lydia Meder

Abstract

Small cell lung cancer (SCLC) represents the most aggressive pulmonary neoplasm and is often diagnosed at late stage with limited survival, despite combined chemotherapies. We show in an autochthonous mouse model of SCLC that combined anti-VEGF/anti-PD-L1–targeted therapy synergistically improves treatment outcome compared with anti–PD-L1 and anti-VEGF monotherapy. Mice treated with anti–PD-L1 alone relapsed after 3 weeks and were associated with a tumor-associated PD-1/TIM-3 double-positive exhausted T-cell phenotype. This exhausted T-cell phenotype upon PD-L1 blockade was abrogated by the addition of anti-VEGF–targeted treatment. We confirmed a similar TIM-3–positive T-cell phenotype in peripheral blood mononuclear cells of patients with SCLC with adaptive resistance to anti–PD-1 treatment. Mechanistically, we show that VEGFA enhances coexpression of the inhibitory receptor TIM-3 on T cells, indicating an immunosuppressive function of VEGF in patients with SCLC during anti–PD-1-targeted treatment. Our data strongly suggest that a combination of anti-VEGF and anti–PD-L1 therapies can be an effective treatment strategy in patients with SCLC.Significance: Combining VEGF and PD-L1 blockade could be of therapeutic benefit to patients with small cell lung cancer. Cancer Res; 78(15); 4270–81. ©2018 AACR.

Published

2023

41. Supplementary Figures from Combined VEGF and PD-L1 Blockade Displays Synergistic Treatment Effects in an Autochthonous Mouse Model of Small Cell Lung Cancer

Author

Roland T. Ullrich, H. Christian Reinhardt, Michael von Bergwelt-Baildon, Marco Herling, Michael Hallek, Juergen Wolf, Reinhard Buettner, Margarete Odenthal, Hans A. Schlößer, Kristina Golfmann, Alexandra Florin, Richard Riedel, Sebastian Oberbeck, Ignacija Vlasic, Kerstin Wennhold, Sven Borchmann, Sebastian Klein, Felix Dietlein, Anna Schmitt, Martin Thelen, Philipp Schuldt, and Lydia Meder

Abstract

Supplementary data supporting an exhausted T cell phenotype in SCLC upon acquired resistance to PD1/PD-L1 blockade which is regulated by VEGF/VEGFR signaling and in addition, an immunosuppressive role of tumor-associated macrophages in the tumor microenvironment

Published

2023

42. Transcriptome analysis reveals upregulation of immune response pathways at the invasive tumour front of metastatic seminoma germ cell tumours

Author

Tim Nestler, Priya Dalvi, Friederike Haidl, Maike Wittersheim, Melanie von Brandenstein, Pia Paffenholz, Svenja Wagener-Ryczek, David Pfister, Ulrike Koitzsch, Martin Hellmich, Reinhard Buettner, Margarete Odenthal, and Axel Heidenreich

Subjects

Male, Cancer Research, Testicular Neoplasms, Oncology, Gene Expression Profiling, Immunity, Humans, Neoplasms, Germ Cell and Embryonal, Seminoma, Up-Regulation

Abstract

Background Testicular germ cell tumours (TGCTs) have a high metastasis rate. However, the mechanisms related to their invasion, progression and metastasis are unclear. Therefore, we investigated gene expression changes that might be linked to metastasis in seminomatous testicular germ cell tumour (STGCT) patients. Methods Defined areas [invasive tumour front (TF) and tumour centre (TC)] of non-metastatic (with surveillance and recurrence-free follow-up >2 years) and metastatic STGCTs were collected separately using laser capture microdissection. The expression of 760 genes related to tumour progression and metastasis was analysed using nCounter technology and validated with quantitative real-time PCR and enzyme-linked immunosorbent assay. Results Distinct gene expression patterns were observed in metastatic and non-metastatic seminomas with respect to both the TF and TC. Comprehensive pathway analysis showed enrichment of genes related to tumour functions such as inflammation, angiogenesis and metabolism at the TF compared to the TC. Remarkably, prominent inflammatory and cancer-related pathways, such as interleukin-6 (IL-6) signalling, integrin signalling and nuclear factor-κB signalling, were significantly upregulated in the TF of metastatic vs non-metastatic tumours. Conclusions IL-6 signalling was the most significantly upregulated pathway in metastatic vs non-metastatic tumours and therefore could constitute a therapeutic target for future personalised therapy. In addition, this is the first study showing intra- and inter-tumour heterogeneity in STGCT.

Published

2022

43. Stage of fibrosis is not a predictive determinant of weight loss in patients undergoing bariatric surgery

Author

MaximilianJoseph Brol, Uta Drebber, Xiaojie Yu, Robert Schierwagen, Wenyi Gu, Andreas Plamper, Sabine Klein, Margarete Odenthal, FrankErhard Uschner, Michael Praktiknjo, Jonel Trebicka, and KarlPeter Rheinwalt

Published

2023

44. Adeno-associated virus serotype 2 capsid variants for improved liver-directed gene therapy

Author

Nadja Meumann, Marti Cabanes‐Creus, Moritz Ertelt, Renina Gale Navarro, Julie Lucifora, Qinggong Yuan, Karin Nien‐Huber, Ahmed Abdelrahman, Xuan‐Khang Vu, Liang Zhang, Ann‐Christin Franke, Christian Schmithals, Albrecht Piiper, Annabelle Vogt, Maria Gonzalez‐Carmona, Jochen T. Frueh, Evelyn Ullrich, Philip Meuleman, Steven R. Talbot, Margarete Odenthal, Michael Ott, Erhard Seifried, Clara T. Schoeder, Joachim Schwäble, Leszek Lisowski, and Hildegard Büning

Subjects

Hepatology, Medicine and Health Sciences, Biology and Life Sciences

Abstract

Background and Aims Current liver-directed gene therapies look for adeno-associated virus (AAV) vectors with improved efficacy. With this background, capsid engineering is explored. Whereas shuffled capsid library screenings have resulted in potent liver targeting variants with one first vector in human clinical trials, modifying natural serotypes by peptide insertion has so far been less successful. Here, we now report on two capsid variants, MLIV.K and MLIV.A, both derived from a high-throughput in vivo AAV peptide display selection screen in mice. Approach and Results The variants transduce primary murine and human hepatocytes at comparable efficiencies, a valuable feature in clinical development, and show significantly improved liver transduction efficacy, thereby allowing a dose reduction, and outperform parental AAV2 and AAV8 in targeting human hepatocytes in humanized mice. The natural heparan sulfate proteoglycan binding ability is markedly reduced, a feature that correlates with improved hepatocyte transduction. A further property that might contribute to the improved transduction efficacy is the lower capsid melting temperature. Peptide insertion also caused a moderate change in sensitivity to human sera containing anti-AAV2 neutralizing antibodies, revealing the impact of epitopes located at the basis of the AAV capsid protrusions. Conclusions In conclusion, MLIV.K and MLIV.A are AAV peptide display variants selected in immunocompetent mice with improved hepatocyte tropism and transduction efficiency. Because these features are maintained across species, MLIV variants provide remarkable potential for translation of therapeutic approaches from mice to men.

Published

2023

45. PI 3-kinase isoform p110α controls smooth muscle cell functionality and protects against aortic aneurysm formation

Author

Marius Vantler, Maximilian Schorscher, Eva Maria Berghausen, Joseph B. Moore, Dickson Wong, Li Zhaolong, Max Wißmüller, Leoni Gnatzy-Feik, Mario Zierden, Dennis Mehrkens, Matti Adam, Xinlei Zhao, Margarete Odenthal, Gerhard Sengle, Peter Boor, Lars Maegdefessel, Stephan Baldus, and Stephan Rosenkranz

Abstract

BackgroundCatalytic class IA PI 3-kinase isoform p110α is a crucial regulator of cellular proliferation and survival in numerous cell types. While p110α is critically involved in pathogenic vascular remodeling, its physiological role for vascular integrity under stress conditions has not been studied. We report a protective function of smooth muscle p110α against abdominal aortic aneurysm (AAA) formation.Methods & ResultsIn mice lacking p110α in smooth muscle cells (sm-p110α-/-), perfusion of the infrarenal aorta with porcine pancreatic elastase (PPE) yielded substantially enhanced AAA formation compared to wild type controls. This disease phenotype is partly attributable to a subtle preexisting vascular phenotype under basal conditions, as sm-p110α-/-mice displayed a smaller media area, deranged aortic wall structure (detached smooth muscle cells, increased apoptotic cell death), and a diminished functional responsiveness of aortic rings to vasodilators. Furthermore, p110α is also implicated in regenerative processes during AAA development: Whereas wild type mice showed increased media hypertrophy, neointima formation and proliferation upon PPE intervention, these vascular remodeling processes were diminished in sm-p110α-/-mice. Concomitantly, increased numbers of elastic fiber breaks and ECM degradation were detected in sm-p110α-/-aorta. Mechanistically, we found that lack of p110α expression impaired smooth muscle cell proliferation, expression of contractile marker genes and production of elastin fibers. This phenotype largely depended on reduced phosphorylation and inactivation of FOXO1, as specific FOXO1 inhibition fully rescued proliferation of p110α-/-smooth muscle cells, and knockdown of FOXO1 increased expression of calponin and elastin.ConclusionsSmooth muscle p110α protects against AAA disease by maintaining aortic wall homoeostasis and promoting SMC proliferation to compensate for cell loss during AAA development. Our findings have potential implications for current approaches aimed at p110α inhibition for cancer therapy and suggest new pharmacological strategies to activate p110α signaling in AAA disease.

Published

2022

46. Mutations in circulating cell‐free tumour DNA: Predictors of survival in hepatocellular carcinoma

Author

Michela Emma Burlone, Reinhard Büttner, Margarete Odenthal, Jessica Howell, R. Minisini, Monica Leutner, Rohini Sharma, Stephen R. Atkinson, Shahid A. Khan, David J. Pinato, and Mario Pirisi

Subjects

Hepatocellular cancer, business.industry, Pharmaceutical Science, Cell free, medicine.disease, chemistry.chemical_compound, Complementary and alternative medicine, Cell-free fetal DNA, chemistry, Hepatocellular carcinoma, medicine, Cancer research, Pharmacology (medical), business, DNA

Published

2021

47. Circulating miRNA-192 and miR-29a as Disease Progression Biomarkers in Hepatitis C Patients with a Prevalence of HCV Genotype 3

Author

Amin Ullah, Irshad Ur Rehman, Katharina Ommer, Nadeem Ahmed, Margarete Odenthal, Xiaojie Yu, Jamshaid Ahmad, Tariq Nadeem, Qurban Ali, and Bashir Ahmad

Subjects

Genetics, hepatitis C virus, liver injury, microRNA-192, microRNA-29a, HCV genotype-3, Genetics (clinical)

Abstract

MicroRNAs miR-29a and miR-192 are involved in inflammatory and fibrotic processes of chronic liver disease, and circulating miR-29a is suggested to diagnose fibrosis progression due to hepatitis C virus (HCV) infection. This study aimed to evaluate the expression profile of circulating miR-192 and 29a in a patient cohort with a high frequency of HCV genotype-3. A total of 222 HCV blood samples were collected and serum were separated. Patients were classified into mild, moderate, and severe liver injury based on their Child–Turcotte–Pugh CTP score. RNA was isolated from the serum and used for quantitative real-time PCR. The HCV genotype-3 (62%) was the predominant HCV genotype. In HCV patients, the serum miR-192 and miR-29a levels were significantly upregulated in comparison to healthy controls (p = 0.0017 and p = 0.0001, respectively). The progression rate of miR-192 and 29a in the patient group with mild was highly upregulated compared to patients with moderate and severe hepatitis infection. The ROC curve of miR-192 and miR-29a of moderate liver disease had a significant diagnostic performance compared to the other HCV-infected groups. The increase in miR-29a and miR-192 serum levels was even slightly higher in patients with HCV genotype-3 than in non-genotype-3 patients. In conclusion, serum miR-192 and miR-29a levels significantly increased during the progression of chronic HCV infection. The marked upregulation in patients with HCV genotype-3 suggests them as potential biomarkers for hepatic disease, independently of the HCV genotype.

Published

2023

48. Pivotal role of long non-coding ribonucleic acid-X-inactive specific transcript in regulating immune checkpoint programmed death ligand 1 through a shared pathway between miR-194-5p and miR-155-5p in hepatocellular carcinoma

Author

Heba Handoussa, Margarete Odenthal, Sara M. Atwa, Karim M Hosny, and Hend M. El Tayebi

Subjects

Hepatology, business.industry, Hepatocellular carcinoma, X (Inactive)-Specific Transcript, RNA, MiR-155-5p, MiR-194-5p, Basic Study, Ligand (biochemistry), medicine.disease, Immune checkpoint, miR-155, X-inactive specific transcript, medicine, Cancer research, business, Programmed cell-death protein 1/Programmed death ligand 1, Programmed death

Abstract

BACKGROUND Anti-programmed death therapy has thrust immunotherapy into the spotlight. However, such therapy has a modest response in hepatocellular carcinoma (HCC). Epigenetic immunomodulation is a suggestive combinatorial therapy with immune checkpoint blockade. Non-coding ribonucleic acid (ncRNA) driven regulation is a major mechanism of epigenetic modulation. Given the wide range of ncRNAs that co-opt in programmed cell-death protein 1 (PD-1)/programmed death ligand 1 (PD-L1) regulation, and based on the literature, we hypothesized that miR-155-5p, miR-194-5p and long non-coding RNAs (lncRNAs) X-inactive specific transcript (XIST) and MALAT-1 are involved in a regulatory upstream pathway for PD-1/PD-L1. Recently, nutraceutical therapeutics in cancers have received increasing attention. Thus, it is interesting to study the impact of oleuropein on the respective study key players. AIM To explore potential upstream regulatory ncRNAs for the immune checkpoint PD-1/PD-L1. METHODS Bioinformatics tools including microrna.org and lnCeDB software were adopted to detect targeting of miR-155-5p, miR-194-5p and lncRNAs XIST and MALAT-1 to PD-L1 mRNA, respectively. In addition, Diana tool was used to predict targeting of both aforementioned miRNAs to lncRNAs XIST and MALAT-1. HCC and normal tissue samples were collected for scanning of PD-L1, XIST and MALAT-1 expression. To study the interaction among miR-155-5p, miR-194-5p, lncRNAs XIST and MALAT-1, as well as PD-L1 mRNA, a series of transfections of the Huh-7 cell line was carried out. RESULTS Bioinformatics software predicted that miR-155-5p and miR-194-5p can target PD-L1, MALAT-1 and XIST. MALAT-1 and XIST were predicted to target PD-L1 mRNA. PD-L1 and XIST were significantly upregulated in 23 HCC biopsies compared to healthy controls; however, MALAT-1 was barely detected. MiR-194 induced expression elevated the expression of PD-L1, XIST and MALAT-1. However, overexpression of miR-155-5p induced the upregulation of PD-L1 and XIST, while it had a negative impact on MALAT-1 expression. Knockdown of XIST did have an impact on PD-L1 expression; however, following knockdown of the negative regulator of X-inactive specific transcript (TSIX), PD-L1 expression was elevated, and abolished MALAT-1 activity. Upon co-transfection of miR-194-5p with siMALAT-1, PD-L1 expression was elevated. Co-transfection of miR-194-5p with siXIST did not have an impact on PD-L1 expression. Upon co-transfection of miR-194 with siTSIX, PD-L1 expression was upregulated. Interestingly, the same PD-L1 expression pattern was observed following miR-155-5p co-transfections. Oleuropein treatment of Huh-7 cells reduced the expression profile of PD-L1, XIST, and miR-155-5p, upregulated the expression of miR-194-5p and had no significant impact on the MALAT-1 expression profile. CONCLUSION This study reported a novel finding revealing that opposing acting miRNAs in HCC, have the same impact on PD-1/PD-L1 immune checkpoint by sharing a common signaling pathway.

Published

2020

49. Circulating tumor DNA as an emerging liquid biopsy biomarker for early diagnosis and therapeutic monitoring in hepatocellular carcinoma

Author

Xiaolin Wu, Dirk L. Stippel, Qiongzhu Dong, Ming Liu, Christiane Bruns, Jiahui Li, Denise Buchner, Roger Wahba, A Gassa, Ning Ren, Margarete Odenthal, Hakan Alakus, and Yue Zhao

Subjects

Carcinoma, Hepatocellular, Review, Applied Microbiology and Biotechnology, cell-free DNA, 03 medical and health sciences, Biomarkers, Tumor, medicine, Humans, Copy-number variation, Liquid biopsy, Molecular Biology, Early Detection of Cancer, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, circulating tumor DNA, 0303 health sciences, liquid biopsy, business.industry, Liver Neoplasms, Cell Biology, DNA Methylation, medicine.disease, Omics, biomarker, hepatocellular carcinoma, liver cancer, Liver, Cell-free fetal DNA, Hepatocellular carcinoma, Mutation, Cancer cell, DNA methylation, Cancer research, Biomarker (medicine), business, Signal Transduction, Developmental Biology

Abstract

As one of the most common malignant tumors worldwide, hepatocellular carcinoma (HCC) is known for its poor prognosis due to diagnosis only in advanced stages. Nearly 50% of the patients with the first diagnosis of HCC die within a year. Currently, the advancements in the integration of omics information have begun to transform the clinical management of cancer patients. Molecular profiling for HCC patients is in general obtained from resected tumor materials or biopsies. However, the resected tumor tissue is limited and can only be obtained through surgery, so that dynamic monitoring of patients cannot be performed. Compared to invasive procedures, circulating tumor DNA (ctDNA) has been proposed as an alternative source to perform molecular profiling of tumor DNA in cancer patients. The detection of abnormal forms of circulating cell-free DNA (cfDNA) that originate from cancer cells (ctDNA) provides a novel tool for cancer detection and disease monitoring. This may also be an opportunity to optimize the early diagnosis of HCC. In this review, we summarized the updated methods, materials, storage of sampling, detection techniques for ctDNA and the comparison of the applications among different biomarkers in HCC patients. In particular, we analyzed ctDNA studies dealing with copy number variations, gene integrity, mutations (RAS, TERT, CTNNB1, TP53 and so on), DNA methylation alterations (DBX2, THY1, TGR5 and so on) for the potential utility of ctDNA in the diagnosis and management of HCC. The biological functions and correlated signaling pathways of ctDNA associated genes (including MAPK/RAS pathway, p53 signaling pathway and Wnt-β catenin pathway) are also discussed and highlighted. Thus, exploration of ctDNA/cfDNA as potential biomarkers may provide a great opportunity in future liquid biopsy applications for HCC.

Published

2020

50. Transglutaminase mediated asprosin oligomerization allows its tissue storage as fibers

Author

Yousef A.T. Morcos, Galyna Pryymachuk, Steffen Lütke, Antje Gerken, Alan R. F. Godwin, Thomas A. Jowitt, Nadin Piekarek, Thorben Hoffmann, Anja Niehoff, Margarete Odenthal, Uta Drebber, Olaf Grisk, Yury Ladilov, Wilhelm Bloch, Bert Callewaert, Mats Paulsson, Eva Hucklenbruch-Rother, Clair Baldock, and Gerhard Sengle

Abstract

Asprosin, the C-terminal furin cleavage product of profibrillin-1, was reported to act as a hormone that circulates at nanomolar levels and is recruited to the liver where it induces G protein-coupled activation of the cAMP-PKA pathway and stimulates rapid glucose release into the circulation. Although derived upon C-terminal cleavage of fibrillin-1, a multidomain extracellular matrix glycoprotein with a ubiquitous distribution in connective tissues, little is known about the mechanisms controlling the bioavailability of asprosin in tissues. In the current view, asprosin is mainly produced by white adipose tissue from where it is released into the blood in monomeric form. Here, by employing newly generated specific asprosin antibodies we monitored the distribution pattern of asprosin in human and murine connective tissues such as placenta, and muscle. Thereby we detected the presence of asprosin positive extracellular fibers. Further, by screening established cell lines for asprosin synthesis we found that most cells derived from musculoskeletal tissues render asprosin into an oligomerized form. Our analyses show that asprosin already multimerizes intracellularly, but that stable multimerization via covalent bonds is facilitated by transglutaminase activity. Further, asprosin fiber formation requires an intact fibrillin-1 fiber network for proper linear deposition. Our data suggest a new extracellular storage mechanism of asprosin in an oligomerized form which may regulate its cellular bioavailability in tissues.

Published

2022