Your search keyword '"Philipp Mertins"' showing total 194 results

1. Ion mobility-tandem mass spectrometry of mucin-type O-glycans

Author

Leïla Bechtella, Jin Chunsheng, Kerstin Fentker, Güney R. Ertürk, Marc Safferthal, Łukasz Polewski, Michael Götze, Simon Y. Graeber, Gaël M. Vos, Weston B. Struwe, Marcus A. Mall, Philipp Mertins, Niclas G. Karlsson, and Kevin Pagel

Subjects

Science

Abstract

Abstract The dense O-glycosylation of mucins plays an important role in the defensive properties of the mucus hydrogel. Aberrant glycosylation is often correlated with inflammation and pathology such as COPD, cancer, and Crohn’s disease. The inherent complexity of glycans and the diversity in the O-core structure constitute fundamental challenges for the analysis of mucin-type O-glycans. Due to coexistence of multiple isomers, multidimensional workflows such as LC-MS are required. To separate the highly polar carbohydrates, porous graphitized carbon is often used as a stationary phase. However, LC-MS workflows are time-consuming and lack reproducibility. Here we present a rapid alternative for separating and identifying O-glycans released from mucins based on trapped ion mobility mass spectrometry. Compared to established LC-MS, the acquisition time is reduced from an hour to two minutes. To test the validity, the developed workflow was applied to sputum samples from cystic fibrosis patients to map O-glycosylation features associated with disease.

Published

2024

2. A point-of-research decision in synovial tissue engineering: Mesenchymal stromal cells, tissue derived fibroblast or CTGF-mediated mesenchymal-to-fibroblast transition

Author

Alexandra Damerau, Marieluise Kirchner, Philipp Mertins, Frank Buttgereit, and Timo Gaber

Subjects

Trauma-fibroblast, Osteoarthritis, Metabolism, Cytokines, Synovial membrane model, Cytology, QH573-671

Abstract

Rheumatoid arthritis (RA) and osteoarthritis (OA) are prevalent inflammatory joint diseases characterized by synovitis, cartilage, and bone destruction. Fibroblast-like synoviocytes (FLSs) of the synovial membrane are a decisive factor in arthritis, making them a target for future therapies. Developing novel strategies targeting FLSs requires advanced in vitro joint models that accurately replicate non-diseased joint tissue. This study aims to identify a cell source reflecting physiological synovial fibroblasts. Therefore, we newly compared the phenotype and metabolism of “healthy” knee-derived FLSs from patients with ligament injuries (trauma-FLSs) to mesenchymal stromal cells (MSCs), their native precursors. We differentiated MSCs into fibroblasts using connective tissue growth factor (CTGF) and compared selected protein and gene expression patterns to those obtained from trauma-FLSs and OA-FLSs. Based on these findings, we explored the potential of an MSC-derived synovial tissue model to simulate a chronic inflammatory response akin to that seen in arthritis. We have identified MSCs as a suitable cell source for synovial tissue engineering because, despite metabolic differences, they closely resemble human trauma-derived FLSs. CTGF-mediated differentiation of MSCs increased HAS2 expression, essential for hyaluronan synthesis. It showed protein expression patterns akin to OA-FLSs, including markers of ECM components and fibrosis, and enzymes leading to a shift in metabolism towards increased fatty acid oxidation. In general, cytokine stimulation of MSCs in a synovial tissue model induced pro-inflammatory and pro-angiogenic gene expression, hyperproliferation, and increased glucose consumption, reflecting cellular response in human arthritis. We conclude that MSCs can serve as a proxy to study physiological synovial processes and inflammatory responses. In addition, CTGF-mediated mesenchymal-to-fibroblast transition resembles OA-FLSs. Thus, we emphasize MSCs as a valuable cell source for tools in preclinical drug screening and their application in tissue engineering.

Published

2024

3. High serum prevalence of autoreactive IgG antibodies against peripheral nerve structures in patients with neurological post-COVID-19 vaccination syndrome

Author

Friederike A. Arlt, Ameli Breuer, Elli Trampenau, Fabian Boesl, Marieluise Kirchner, Philipp Mertins, Elisa Sánchez-Sendín, Mahoor Nasouti, Marie Mayrhofer, Martin Blüthner, Matthias Endres, Harald Prüss, and Christiana Franke

Subjects

SARS-CoV-2 vaccination, COVID-19 vaccination, post-COVID-19 vaccination syndrome (PCVS), autoantibody, peripheral nerve, neurofilament autoantibodies, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundPatients suffering from neurological symptoms after COVID-19 vaccination (post-COVID-19 vaccination syndrome (PCVS)) have imposed an increasing challenge on medical practice, as diagnostic precision and therapeutic options are lacking. Underlying autoimmune dysfunctions, including autoantibodies, have been discussed in neurological disorders after SARS-CoV-2 infection and vaccination. Here, we describe the frequency and targets of autoantibodies against peripheral nervous system tissues in PCVS.MethodsSera from 50 PCVS patients with peripheral neurological symptoms after COVID-19 vaccination and 35 vaccinated healthy controls were used in this study. IgG autoreactivity was measured via indirect immunofluorescence assays on mouse sciatic nerve teased fibers. The frequencies of autoantibodies were compared between groups using Fisher’s exact test. Serum anti-ganglioside antibodies were measured in ganglioside blots. Autoantibody target identification was performed using immunoprecipitation coupled to mass spectrometry. Subsequent target confirmation was conducted via cell-based assays and ELISA.ResultsCompared with controls, PCVS patients had a significantly greater frequency of autoantibodies against peripheral nervous system structures (9/50(18%) vs 1/35(3%); p=0.04). Autoantibodies bound to paranodes (n=5), axons (n=4), Schmidt-Lanterman incisures (n=2) and Schwann cell nuclei (n=1). Conversely, antibodies against gangliosides were absent in PCVS patients. Target identification and subsequent confirmation revealed various subunits of neurofilaments as well as DFS-70 as autoantibody epitopes.ConclusionOur data suggest that autoantibodies against nervous system tissue could be relevant in PCVS patients. Autoantibodies against neurofilaments and cell nuclei with so far non-established links to this disease spectrum should be further elucidated to determine their biomarker potential.

Published

2024

4. Direct-to-biology, automated, nano-scale synthesis, and phenotypic screening-enabled E3 ligase modulator discovery

Author

Zefeng Wang, Shabnam Shaabani, Xiang Gao, Yuen Lam Dora Ng, Valeriia Sapozhnikova, Philipp Mertins, Jan Krönke, and Alexander Dömling

Subjects

Science

Abstract

Abstract Thalidomide and its analogs are molecular glues (MGs) that lead to targeted ubiquitination and degradation of key cancer proteins via the cereblon (CRBN) E3 ligase. Here, we develop a direct-to-biology (D2B) approach for accelerated discovery of MGs. In this platform, automated, high throughput, and nano scale synthesis of hundreds of pomalidomide-based MGs was combined with rapid phenotypic screening, enabling an unprecedented fast identification of potent CRBN-acting MGs. The small molecules were further validated by degradation profiling and anti-cancer activity. This revealed E14 as a potent MG degrader targeting IKZF1/3, GSPT1 and 2 with profound effects on a panel of cancer cells. In a more generalized view, integration of automated, nanoscale synthesis with phenotypic assays has the potential to accelerate MGs discovery.

Published

2023

5. Defining the landscape of circular RNAs in neuroblastoma unveils a global suppressive function of MYCN

Author

Steffen Fuchs, Clara Danßmann, Filippos Klironomos, Annika Winkler, Jörg Fallmann, Louisa-Marie Kruetzfeldt, Annabell Szymansky, Julian Naderi, Stephan H. Bernhart, Laura Grunewald, Konstantin Helmsauer, Elias Rodriguez-Fos, Marieluise Kirchner, Philipp Mertins, Kathy Astrahantseff, Christin Suenkel, Joern Toedling, Fabienne Meggetto, Marc Remke, Peter F. Stadler, Patrick Hundsdoerfer, Hedwig E. Deubzer, Annette Künkele, Peter Lang, Jörg Fuchs, Anton G. Henssen, Angelika Eggert, Nikolaus Rajewsky, Falk Hertwig, and Johannes H. Schulte

Subjects

Science

Abstract

Abstract Circular RNAs (circRNAs) are a regulatory RNA class. While cancer-driving functions have been identified for single circRNAs, how they modulate gene expression in cancer is not well understood. We investigate circRNA expression in the pediatric malignancy, neuroblastoma, through deep whole-transcriptome sequencing in 104 primary neuroblastomas covering all risk groups. We demonstrate that MYCN amplification, which defines a subset of high-risk cases, causes globally suppressed circRNA biogenesis directly dependent on the DHX9 RNA helicase. We detect similar mechanisms in shaping circRNA expression in the pediatric cancer medulloblastoma implying a general MYCN effect. Comparisons to other cancers identify 25 circRNAs that are specifically upregulated in neuroblastoma, including circARID1A. Transcribed from the ARID1A tumor suppressor gene, circARID1A promotes cell growth and survival, mediated by direct interaction with the KHSRP RNA-binding protein. Our study highlights the importance of MYCN regulating circRNAs in cancer and identifies molecular mechanisms, which explain their contribution to neuroblastoma pathogenesis.

Published

2023

6. Herpes simplex virus type 1 modifies the protein composition of extracellular vesicles to promote neurite outgrowth and neuroinfection

Author

Guorong Sun, Kai Alexander Kropp, Marieluise Kirchner, Nina Plückebaum, Anton Selich, Manutea Serrero, Akshay Dhingra, Jorge Rubén Cabrera, Birgit Ritter, Rudolf Bauerfeind, Emanuel Wyler, Markus Landthaler, Axel Schambach, Beate Sodeik, Philipp Mertins, and Abel Viejo-Borbolla

Subjects

herpes simplex virus, neurite outgrowth, neuroinfection, extracellular vesicles, galectin-1, Microbiology, QR1-502

Abstract

ABSTRACT The highly prevalent herpes simplex virus type 1 (HSV-1) causes a range of diseases, including cold sores, blinding keratitis, and life-threatening encephalitis. HSV-1 initially replicates in epithelial cells, enters the peripheral nervous system via neurites, and establishes lifelong infection in the neuronal cell bodies. Neurites are highly dynamic structures that grow or retract in response to attractive or repulsive cues, respectively. Here, we show that infection with HSV-1, but not with a mutant virus lacking glycoprotein G (gG), reduced the repulsive effect of epithelial cells on neurite outgrowth and facilitated HSV-1 invasion of neurons. HSV-1 gG was required and sufficient to induce neurite outgrowth by modifying the protein composition of extracellular vesicles, increasing the amount of neurotrophic and neuroprotective proteins, including galectin-1. Antibodies directed against galectin-1 neutralized the capacity of extracellular vesicles released from HSV-1-infected cells to promote neurite outgrowth. Our study provides new insights into the neurotropism of HSV-1 and identifies a viral protein that modifies the protein composition of extracellular vesicles to stimulate neurite outgrowth and invasion of the nervous system.IMPORTANCEHerpes simplex virus type 1 (HSV-1) must infect neurites (or nerve endings) to establish a chronic infection in neurons. Neurites are highly dynamic structures that retract or grow in the presence of repulsive or attractive proteins. Some of these proteins are released by epithelial cells in extracellular vesicles and act upon interaction with their receptor present on neurites. We show here that HSV-1 infection of epithelial cells modulated their effect on neurites, increasing neurite growth. Mechanistically, HSV-1 glycoprotein G (gG) modifies the protein composition of extracellular vesicles released by epithelial cells, increasing the amount of attractive proteins that enhance neurite outgrowth and facilitate neuronal infection. These results could inform of therapeutic strategies to block HSV-1 induction of neurite outgrowth and, thereby, neuronal infection.

Published

2024

7. Mice with renal-specific alterations of stem cell-associated signaling develop symptoms of chronic kidney disease but surprisingly no tumors

Author

Adam Myszczyszyn, Oliver Popp, Severine Kunz, Anje Sporbert, Simone Jung, Louis C. Penning, Annika Fendler, Philipp Mertins, and Walter Birchmeier

Subjects

Medicine, Science

Published

2024

8. Neurofibromatosis type 1-dependent alterations in mouse microglia function are not cell-intrinsic

Author

Francesca Logiacco, Laura Cathleen Grzegorzek, Elizabeth C. Cordell, Oliver Popp, Philipp Mertins, David H. Gutmann, Helmut Kettenmann, and Marcus Semtner

Subjects

Neurofibromin, NF1, Purinergic signaling, Sex differences, Microglia, Cortex, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract We previously discovered a sex-by-genotype defect in microglia function using a heterozygous germline knockout mouse model of Neurofibromatosis type 1 (Nf1 ± mice), in which only microglia from male Nf1 ± mice exhibited defects in purinergic signaling. Herein, we leveraged an unbiased proteomic approach to demonstrate that male, but not female, heterozygous Nf1 ± microglia exhibit differences in protein expression, which largely reflect pathways involved in cytoskeletal organization. In keeping with these predicted defects in cytoskeletal function, only male Nf1 ± microglia had reduced process arborization and surveillance capacity. To determine whether these microglial defects were cell autonomous or reflected adaptive responses to Nf1 heterozygosity in other cells in the brain, we generated conditional microglia Nf1-mutant knockout mice by intercrossing Nf1 flox/flox with Cx3cr1-CreER mice (Nf1 flox/wt; Cx3cr1-CreER mice, Nf1 MG ± mice). Surprisingly, neither male nor female Nf1 MG ± mouse microglia had impaired process arborization or surveillance capacity. In contrast, when Nf1 heterozygosity was generated in neurons, astrocytes and oligodendrocytes by intercrossing Nf1 flox/flox with hGFAP-Cre mice (Nf1 flox/wt; hGFAP-Cre mice, Nf1 GFAP ± mice), the microglia defects found in Nf1 ± mice were recapitulated. Collectively, these data reveal that Nf1 ± sexually dimorphic microglia abnormalities are likely not cell-intrinsic properties, but rather reflect a response to Nf1 heterozygosity in other brain cells.

Published

2023

9. DNA methylation-based classification of sinonasal tumors

Author

Philipp Jurmeister, Stefanie Glöß, Renée Roller, Maximilian Leitheiser, Simone Schmid, Liliana H. Mochmann, Emma Payá Capilla, Rebecca Fritz, Carsten Dittmayer, Corinna Friedrich, Anne Thieme, Philipp Keyl, Armin Jarosch, Simon Schallenberg, Hendrik Bläker, Inga Hoffmann, Claudia Vollbrecht, Annika Lehmann, Michael Hummel, Daniel Heim, Mohamed Haji, Patrick Harter, Benjamin Englert, Stephan Frank, Jürgen Hench, Werner Paulus, Martin Hasselblatt, Wolfgang Hartmann, Hildegard Dohmen, Ursula Keber, Paul Jank, Carsten Denkert, Christine Stadelmann, Felix Bremmer, Annika Richter, Annika Wefers, Julika Ribbat-Idel, Sven Perner, Christian Idel, Lorenzo Chiariotti, Rosa Della Monica, Alfredo Marinelli, Ulrich Schüller, Michael Bockmayr, Jacklyn Liu, Valerie J. Lund, Martin Forster, Matt Lechner, Sara L. Lorenzo-Guerra, Mario Hermsen, Pascal D. Johann, Abbas Agaimy, Philipp Seegerer, Arend Koch, Frank Heppner, Stefan M. Pfister, David T. W. Jones, Martin Sill, Andreas von Deimling, Matija Snuderl, Klaus-Robert Müller, Erna Forgó, Brooke E. Howitt, Philipp Mertins, Frederick Klauschen, and David Capper

Subjects

Science

Abstract

Sinonasal tumour diagnosis can be complicated by the heterogeneity of disease and classification systems. Here, the authors use machine learning to classify sinonasal undifferentiated carcinomas into 4 molecular classe with differences in differentiation state and clinical outcome.

Published

2022

10. Epithelial coxsackievirus adenovirus receptor promotes house dust mite-induced lung inflammation

Author

Elena Ortiz-Zapater, Dustin C. Bagley, Virginia Llopis Hernandez, Luke B. Roberts, Thomas J. A. Maguire, Felizia Voss, Philipp Mertins, Marieluise Kirchner, Isabel Peset-Martin, Grzegorz Woszczek, Jody Rosenblatt, Michael Gotthardt, George Santis, and Maddy Parsons

Subjects

Science

Abstract

The epithelial protein Coxsackievirus Adenovirus Receptor (CAR) is a virus receptor but may have other functions. Here the authors show that deletion of CAR in mice leads to reduced house dust mite-induced lung inflammation, reduced neutrophil accumulation and alterations in airway remodelling.

Published

2022

11. S189: PROTEOGENOMIC LANDSCAPE OF MULTIPLE MYELOMA

Author

Evelyn Ramberger, Anna Dolnik, Yuen Lam Dora Ng, Matthias Ziehm, Oliver Popp, Eric Sträng, Miriam Kull, Valeriia Sapozhnikova, Florian Grünschläger, Manuela Benary, Sina Müller, Xiang Gao, Arunima Murgai, Mohamed Haji, Annika Schmidt, Raphael Lutz, Axel Nogai, Jan Braune, Dominik Laue, Christian Langer, Cyrus Khandanpour, Florain Bassermann, Hartmut Döhner, Monika Engelhardt, Christian Straka, Michael Hundemer, Simon Haas, Dieter Beule, Ulrich Keller, Hermann Einsele, Lars Bullinger, Stefan Knop, Philipp Mertins, and Jan Krönke

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

12. Carm1-arginine methylation of the transcription factor C/EBPα regulates transdifferentiation velocity

Author

Guillem Torcal Garcia, Elisabeth Kowenz-Leutz, Tian V Tian, Antonis Klonizakis, Jonathan Lerner, Luisa De Andres-Aguayo, Valeriia Sapozhnikova, Clara Berenguer, Marcos Plana Carmona, Maria Vila Casadesus, Romain Bulteau, Mirko Francesconi, Sandra Peiro, Philipp Mertins, Kenneth Zaret, Achim Leutz, and Thomas Graf

Subjects

cell fate, transcription factor, gene regulation, blood cell differentiation, lineage choice, transdifferentiation, Medicine, Science, Biology (General), QH301-705.5

Abstract

Here, we describe how the speed of C/EBPα-induced B cell to macrophage transdifferentiation (BMT) can be regulated, using both mouse and human models. The identification of a mutant of C/EBPα (C/EBPαR35A) that greatly accelerates BMT helped to illuminate the mechanism. Thus, incoming C/EBPα binds to PU.1, an obligate partner expressed in B cells, leading to the release of PU.1 from B cell enhancers, chromatin closing and silencing of the B cell program. Released PU.1 redistributes to macrophage enhancers newly occupied by C/EBPα, causing chromatin opening and activation of macrophage genes. All these steps are accelerated by C/EBPαR35A, initiated by its increased affinity for PU.1. Wild-type C/EBPα is methylated by Carm1 at arginine 35 and the enzyme’s perturbations modulate BMT velocity as predicted from the observations with the mutant. Increasing the proportion of unmethylated C/EBPα in granulocyte/macrophage progenitors by inhibiting Carm1 biases the cell’s differentiation toward macrophages, suggesting that cell fate decision velocity and lineage directionality are closely linked processes.

Published

2023

13. Therapeutic targeting of ATR in alveolar rhabdomyosarcoma

Author

Heathcliff Dorado García, Fabian Pusch, Yi Bei, Jennifer von Stebut, Glorymar Ibáñez, Kristina Guillan, Koshi Imami, Dennis Gürgen, Jana Rolff, Konstantin Helmsauer, Stephanie Meyer-Liesener, Natalie Timme, Victor Bardinet, Rocío Chamorro González, Ian C. MacArthur, Celine Y. Chen, Joachim Schulz, Antje M. Wengner, Christian Furth, Birgit Lala, Angelika Eggert, Georg Seifert, Patrick Hundsoerfer, Marieluise Kirchner, Philipp Mertins, Matthias Selbach, Andrej Lissat, Frank Dubois, David Horst, Johannes H. Schulte, Simone Spuler, Daoqi You, Filemon Dela Cruz, Andrew L. Kung, Kerstin Haase, Michela DiVirgilio, Monika Scheer, Michael V. Ortiz, and Anton G. Henssen

Subjects

Science

Abstract

Alveolar rhabdomyosarcoma is a clinically challenging disease due to the lack of druggable targets. Here the authors show preclinical evidence for ATR inhibitors as a therapeutic option for alveolar rhabdomyosarcoma.

Published

2022

14. SUMOylation of the chromodomain factor MRG-1 in C. elegans affects chromatin-regulatory dynamics

Author

Gülkiz Baytek, Alexander Blume, Funda Gerceker Demirel, Selman Bulut, Oliver Popp, Philipp Mertins, and Baris Tursun

Subjects

C. elegans, chromatin, MRG-1 epigenetics, MRG15/MORF4, protein interaction, SUMO, Biology (General), QH301-705.5

Abstract

Epigenetic mechanisms control chromatin accessibility and gene expression to ensure proper cell fate specification. Histone proteins are integral chromatin components, and their modification promotes gene expression regulation. Specific proteins recognize modified histones such as the chromodomain protein MRG-1. MRG-1 is the Caenorhabditis elegans ortholog of mammalian MRG15, which is involved in DNA repair. MRG-1 binds methylated histone H3 and is important for germline maturation and safeguarding. To elucidate interacting proteins that modulate MRG-1 activity, we performed in-depth protein–protein interaction analysis using immunoprecipitations coupled with mass spectrometry. We detected strong association with the Small ubiquitin-like modifier SUMO, and found that MRG-1 is post-translationally modified by SUMO. SUMOylation affects chromatin-binding dynamics of MRG-1, suggesting an epigenetic regulation pathway, which may be conserved.

Published

2022

15. Response to: Correspondence on 'H3.3K27M mutation is not a suitable target for immunotherapy in HLA-A2+ patients with diffuse midline glioma' by Chheda et al

Author

Thomas Blankenstein, Lena Immisch, George Papafotiou, Oliver Popp, Philipp Mertins, and Gerald Willimsky

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

16. Robust co-immunoprecipitation with mass spectrometry for Caenorhabditis elegans using solid-phase enhanced sample preparation

Author

Gülkiz Baytek, Oliver Popp, Philipp Mertins, and Baris Tursun

Subjects

C. elegans, co-immunoprecipitation, FACT, HMG-3, HMG-4, mass spectrometry, Biology (General), QH301-705.5

Abstract

Studying protein interactions in vivo can reveal key molecular mechanisms of biological processes. Co-immunoprecipitation with mass spectrometry detects protein–protein interactions with high throughput. The nematode Caenorhabditis elegans is a powerful genetic model organism for in vivo studies. Yet its rigid and complex tissues require optimization for biochemistry applications to ensure reproducibility. The authors optimized co-immunoprecipitation with mass spectrometry by combining a native co-immunoprecipitation procedure with single-pot, solid-phase enhanced sample preparation. The authors' results for the highly conserved chromatin regulator FACT subunits HMG-3 and HMG-4 demonstrated that single-pot, solid-phase enhanced sample preparation-integrated co-immunoprecipitation with mass spectrometry procedures for C. elegans samples are highly robust. Moreover, in an accompanying study about the chromodomain factor MRG-1 (MRG15 in humans), the authors demonstrated remarkably high reproducibility for ten replicate experiments.

Published

2022

17. Proteomic profiling reveals CDK6 upregulation as a targetable resistance mechanism for lenalidomide in multiple myeloma

Author

Yuen Lam Dora Ng, Evelyn Ramberger, Stephan R. Bohl, Anna Dolnik, Christian Steinebach, Theresia Conrad, Sina Müller, Oliver Popp, Miriam Kull, Mohamed Haji, Michael Gütschow, Hartmut Döhner, Wolfgang Walther, Ulrich Keller, Lars Bullinger, Philipp Mertins, and Jan Krönke

Subjects

Science

Abstract

Acquired resistance to immunomodulatory drugs is common in multiple myeloma patients, but rarely attributed to genetic alterations. Here, proteomic, phosphoproteomic and RNA sequencing analysis in five paired pre-treatment and relapse samples reveals a CDK6-regulated protein resistance signature.

Published

2022

18. Protective immune trajectories in early viral containment of non-pneumonic SARS-CoV-2 infection

Author

Kami Pekayvaz, Alexander Leunig, Rainer Kaiser, Markus Joppich, Sophia Brambs, Aleksandar Janjic, Oliver Popp, Daniel Nixdorf, Valeria Fumagalli, Nora Schmidt, Vivien Polewka, Afra Anjum, Viktoria Knottenberg, Luke Eivers, Lucas E. Wange, Christoph Gold, Marieluise Kirchner, Maximilian Muenchhoff, Johannes C. Hellmuth, Clemens Scherer, Raquel Rubio-Acero, Tabea Eser, Flora Deák, Kerstin Puchinger, Niklas Kuhl, Andreas Linder, Kathrin Saar, Lukas Tomas, Christian Schulz, Andreas Wieser, Wolfgang Enard, Inge Kroidl, Christof Geldmacher, Michael von Bergwelt-Baildon, Oliver T. Keppler, Mathias Munschauer, Matteo Iannacone, Ralf Zimmer, Philipp Mertins, Norbert Hubner, Michael Hoelscher, Steffen Massberg, Konstantin Stark, and Leo Nicolai

Subjects

Science

Abstract

Infection with SARS-COV-2 can result in self-limited upper airway infection or progress to a more systemic inflammatory condition including pneumonic COVID-19. Here the authors utilise a multi-omics approach to interrogate the immune response of patients with self-limiting upper respiratory SARS-CoV-2 infection and reveal a temporal immune trajectory they associate with viral containment and restriction from pneumonic progressive disease.

Published

2022

19. A CRISPR/Cas9-mediated screen identifies determinants of early plasma cell differentiation

Author

Ermeng Xiong, Oliver Popp, Claudia Salomon, Philipp Mertins, Christine Kocks, Klaus Rajewsky, and Van Trung Chu

Subjects

CRISPR/Cas9, screen, gene knockout, regulators, determinants of plasma cell differentiation, antibody-secreting cells, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionThe differentiation of B cells into antibody-secreting plasma cells depends on cell division-coupled, epigenetic and other cellular processes that are incompletely understood.MethodsWe have developed a CRISPR/Cas9-based screen that models an early stage of T cell-dependent plasma cell differentiation and measures B cell survival or proliferation versus the formation of CD138+ plasmablasts. Here, we refined and extended this screen to more than 500 candidate genes that are highly expressed in plasma cells.ResultsAmong known genes whose deletion preferentially or mostly affected plasmablast formation were the transcription factors Prdm1 (BLIMP1), Irf4 and Pou2af1 (OBF-1), and the Ern1 gene encoding IRE1a, while deletion of XBP1, the transcriptional master regulator that specifies the expansion of the secretory program in plasma cells, had no effect. Defective plasmablast formation caused by Ern1 deletion could not be rescued by the active, spliced form of XBP1 whose processing is dependent on and downstream of IRE1a, suggesting that in early plasma cell differentiation IRE1a acts independently of XBP1. Moreover, we newly identified several genes involved in NF-kB signaling (Nfkbia), vesicle trafficking (Arf4, Preb) and epigenetic regulators that form part of the NuRD complex (Hdac1, Mta2, Mbd2) to be required for plasmablast formation. Deletion of ARF4, a small GTPase required for COPI vesicle formation, impaired plasmablast formation and blocked antibody secretion. After Hdac1 deletion plasmablast differentiation was consistently reduced by about 50%, while deletion of the closely related Hdac2 gene had no effect. Hdac1 knock-out led to strongly perturbed protein expression of antagonistic transcription factors that govern plasma cell versus B cell identity (by decreasing IRF4 and BLIMP1 and increasing BACH2 and PAX5).DiscussionTaken together, our results highlight specific and non-redundant roles for Ern1, Arf4 and Hdac1 in the early steps of plasma cell differentiation.

Published

2023

20. Protective α1-antitrypsin effects in autoimmune vasculitis are compromised by methionine oxidation

Author

Maximilian Ebert, Uwe Jerke, Claudia Eulenberg-Gustavus, Lovis Kling, Dieter Jenne, Marieluise Kirchner, Philipp Mertins, Markus Bieringer, Saban Elitok, Kai-Uwe Eckardt, Adrian Schreiber, Alan D. Salama, and Ralph Kettritz

Subjects

Autoimmunity, Inflammation, Medicine

Abstract

Background Antineutrophil cytoplasmic autoantibody–associated (ANCA-associated) vasculitidies (AAV) are life-threatening systemic autoimmune conditions. ANCAs directed against proteinase 3 (PR3) or myeloperoxidase (MPO) bind their cell surface-presented antigen, activate neutrophils, and cause vasculitis. An imbalance between PR3 and its major inhibitor α1-antitrypsin (AAT) was proposed to underlie PR3- but not MPO-AAV. We measured AAT and PR3 in healthy individuals and patients with AAV and studied protective AAT effects pertaining to PR3- and MPO-ANCA.Methods Plasma and blood neutrophils were assessed for PR3 and AAT. WT, mutant, and oxidation-resistant AAT species were produced to characterize AAT-PR3 interactions by flow cytometry, immunoblotting, fluorescence resonance energy transfer assays, and surface plasmon resonance measurements. Neutrophil activation was measured using the ferricytochrome C assay and AAT methionine-oxidation by Parallel Reaction Monitoring.Results We found significantly increased PR3 and AAT pools in patients with both PR3- and MPO-AAV; however, only in PR3-AAV did the PR3 pool correlate with the ANCA titer, inflammatory response, and disease severity. Mechanistically, AAT prevented PR3 from binding to CD177, thereby reducing neutrophil surface antigen for ligation by PR3-ANCA. Active patients with PR3-AAV showed critical methionine-oxidation in plasma AAT that was recapitulated by ANCA-activated neutrophils. The protective PR3-related AAT effects were compromised by methionine-oxidation in the AAT reactive center loop but preserved when 2 critical methionines were substituted with valine and leucine.Conclusion Pathogenic differences between PR3- and MPO-AAV are related to AAT regulation of membrane-PR3, attenuating neutrophil activation by PR3-ANCA rather than MPO-ANCA. Oxidation-resistant AAT could serve as adjunctive therapy in PR3-AAV.FUNDING This work was supported by KE 576/10-1 from the Deutsche Forschungsgemeinschaft, SCHR 771/8-1 from the Deutsche Forschungsgemeinschaft, grant 394046635 — SFB 1365 from the Deutsche Forschungsgemeinschaft, and ECRC grants.

Published

2022

21. Peritoneal metastasis of colorectal cancer (pmCRC): identification of predictive molecular signatures by a novel preclinical platform of matching pmCRC PDX/PD3D models

Author

Mathias Dahlmann, Guido Gambara, Bernadette Brzezicha, Oliver Popp, Eva Pachmayr, Lena Wedeken, Alina Pflaume, Margarita Mokritzkij, Safak Gül-Klein, Andreas Brandl, Caroline Schweiger-Eisbacher, Philipp Mertins, Jens Hoffmann, Ulrich Keilholz, Wolfgang Walther, Christian Regenbrecht, Beate Rau, and Ulrike Stein

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2021

22. H3.3K27M mutation is not a suitable target for immunotherapy in HLA-A2+ patients with diffuse midline glioma

Author

Thomas Blankenstein, Lena Immisch, George Papafotiou, Oliver Popp, Philipp Mertins, and Gerald Willimsky

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Diffuse midline glioma is the leading cause of solid cancer-related deaths in children with very limited treatment options. A majority of the tumors carry a point mutation in the histone 3 variant (H3.3) creating a potential HLA-A*02:01 binding epitope (H3.3K27M26-35). Here, we isolated an H3.3K27M-specific T cell receptor (TCR) from transgenic mice expressing a diverse human TCR repertoire. Despite a high functional avidity of H3.3K27M-specific T cells, we were not able to achieve recognition of cells naturally expressing the H3.3K27M mutation, even when overexpressed as a transgene. Similar results were obtained with T cells expressing the published TCR 1H5 against the same epitope. CRISPR/Cas9 editing was used to exclude interference by endogenous TCRs in donor T cells. Overall, our data provide strong evidence that the H3.3K27M mutation is not a suitable target for cancer immunotherapy, most likely due to insufficient epitope processing and/or amount to be recognized by HLA-A*02:01 restricted CD8+ T cells.

Published

2022

23. Comprehensive micro-scaled proteome and phosphoproteome characterization of archived retrospective cancer repositories

Author

Corinna Friedrich, Simon Schallenberg, Marieluise Kirchner, Matthias Ziehm, Sylvia Niquet, Mohamed Haji, Christin Beier, Jens Neudecker, Frederick Klauschen, and Philipp Mertins

Subjects

Science

Abstract

Formalin-fixed, paraffin-embedded (FFPE) specimens are an attractive resource for retrospective clinical proteomics studies. Here, the authors benchmark and optimize proteomics workflows for FFPE sample analysis and provide guidelines on which methods to use for different samples and applications.

Published

2021

24. Patient-derived xenograft (PDX) models of colorectal carcinoma (CRC) as a platform for chemosensitivity and biomarker analysis in personalized medicine

Author

Maria Rivera, Iduna Fichtner, Annika Wulf-Goldenberg, Christine Sers, Johannes Merk, Giannino Patone, Keziban M. Alp, Tamara Kanashova, Philipp Mertins, Jens Hoffmann, Ulrike Stein, and Wolfgang Walther

Subjects

Colorectal carcinoma, Patient-derived xenograft models, In vivo drug testing, Personalized medicine, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Patient-derived xenograft (PDX) tumor models represent a valuable platform for identifying new biomarkers and novel targets, to evaluate therapy response and resistance mechanisms. This study aimed at establishment, characterization and therapy testing of colorectal carcinoma-derived PDX. We generated 49 PDX and validated identity between patient tumor and corresponding PDX. Sensitivity of PDX toward conventional and targeted drugs revealed that 92% of PDX responded toward irinotecan, 45% toward 5-FU, 65% toward bevacizumab, and 61% toward cetuximab. Expression of epidermal growth factor receptor (EGFR) ligands correlated to the sensitivity toward cetuximab. Proto-oncogene B-RAF, EGFR, Kirsten rat sarcoma virus oncogene homolog gene copy number correlated positively with cetuximab and erlotinib sensitivity. The mutational analyses revealed an individual mutational profile of PDX and mainly identical profiles of PDX from primary tumor vs corresponding metastasis. Mutation in PIK3CA was a determinant of accelerated tumor doubling time. PDX with wildtype Kirsten rat sarcoma virus oncogene homolog, proto-oncogene B-RAF, and phosphatidylinositol-4,5-bisphosphate 3-kinaseM catalytic subunit alfa showed higher sensitivity toward cetuximab and erlotinib. To study the molecular mechanism of cetuximab resistance, cetuximab resistant PDX models were generated, and changes in HER2, HER3, betacellulin, transforming growth factor alfa were observed. Global proteome and phosphoproteome profiling showed a reduction in canonical EGFR-mediated signaling via PTPN11 (SHP2) and AKT1S1 (PRAS40) and an increase in anti-apoptotic signaling as a consequence of acquired cetuximab resistance. This demonstrates that PDX models provide a multitude of possibilities to identify and validate biomarkers, signaling pathways and resistance mechanisms for clinically relevant improvement in cancer therapy.

Published

2021

25. Protection of nascent DNA at stalled replication forks is mediated by phosphorylation of RIF1 intrinsically disordered region

Author

Sandhya Balasubramanian, Matteo Andreani, Júlia Goncalves Andrade, Tannishtha Saha, Devakumar Sundaravinayagam, Javier Garzón, Wenzhu Zhang, Oliver Popp, Shin-ichiro Hiraga, Ali Rahjouei, Daniel B Rosen, Philipp Mertins, Brian T Chait, Anne D Donaldson, and Michela Di Virgilio

Subjects

RIF1, SQ motifs, intrinsically disordered region, DSB resection inhibition, DNA replication fork protection, Medicine, Science, Biology (General), QH301-705.5

Abstract

RIF1 is a multifunctional protein that plays key roles in the regulation of DNA processing. During repair of DNA double-strand breaks (DSBs), RIF1 functions in the 53BP1-Shieldin pathway that inhibits resection of DNA ends to modulate the cellular decision on which repair pathway to engage. Under conditions of replication stress, RIF1 protects nascent DNA at stalled replication forks from degradation by the DNA2 nuclease. How these RIF1 activities are regulated at the post-translational level has not yet been elucidated. Here, we identified a cluster of conserved ATM/ATR consensus SQ motifs within the intrinsically disordered region (IDR) of mouse RIF1 that are phosphorylated in proliferating B lymphocytes. We found that phosphorylation of the conserved IDR SQ cluster is dispensable for the inhibition of DSB resection by RIF1, but is essential to counteract DNA2-dependent degradation of nascent DNA at stalled replication forks. Therefore, our study identifies a key molecular feature that enables the genome-protective function of RIF1 during DNA replication stress.

Published

2022

26. Deconstructing sarcomeric structure–function relations in titin-BioID knock-in mice

Author

Franziska Rudolph, Claudia Fink, Judith Hüttemeister, Marieluise Kirchner, Michael H. Radke, Jacobo Lopez Carballo, Eva Wagner, Tobias Kohl, Stephan E. Lehnart, Philipp Mertins, and Michael Gotthardt

Subjects

Science

Abstract

Titin determines the elasticity of the sarcomere and integrates into both the Z-disc and the M-band. Here, the authors generate a BioID mouse to study the titin interactome at the Z-disc region in neonatal and adult heart and skeletal muscle.

Published

2020

27. Correction to: Comprehensive gene expression meta-analysis identifies signature genes that distinguish microglia from peripheral monocytes/macrophages in health and glioma

Author

Verena Haage, Marcus Semtner, Ramon Oliveira Vidal, Daniel Perez Hernandez, Winnie W. Pong, Zhihong Chen, Dolores Hambardzumyan, Vincent Magrini, Amy Ly, Jason Walker, Elaine Mardis, Philipp Mertins, Sascha Sauer, Helmut Kettenmann, and David H. Gutmann

Subjects

Neurology. Diseases of the nervous system, RC346-429

Abstract

The original publication of this article [1] contained 3 minor errors in Figs. 1, 3 and 5. In this correction article the updated figures are published. The figure captions describe the updated information in these figures.

Published

2020

28. Cold-induced urticarial autoinflammatory syndrome related to factor XII activation

Author

Jörg Scheffel, Niklas A. Mahnke, Zonne L. M. Hofman, Steven de Maat, Jim Wu, Hanna Bonnekoh, Reuben J. Pengelly, Sarah Ennis, John W. Holloway, Marieluise Kirchner, Philipp Mertins, Martin K. Church, Marcus Maurer, Coen Maas, and Karoline Krause

Subjects

Science

Abstract

Systemic autoinflammatory syndromes such as cryopyrin-associated periodic syndrome (CAPS) are rare and often involve genes related to the inflammasome. Here, the authors report a syndrome characterised by systemic inflammation and cold-induced urticarial rash associated with a Factor XII-activating mutation.

Published

2020

29. Rapid and deep-scale ubiquitylation profiling for biology and translational research

Author

Namrata D. Udeshi, Deepak C. Mani, Shankha Satpathy, Shaunt Fereshetian, Jessica A. Gasser, Tanya Svinkina, Meagan E. Olive, Benjamin L. Ebert, Philipp Mertins, and Steven A. Carr

Subjects

Science

Abstract

Comprehensive protein ubiquitylation profiling by mass spectrometry typically requires large sample amounts, limiting its applicability to tissue samples. Here, the authors present an optimized proteomics method that enables multiplexed ubiquitylome analysis of cells and tumor tissue samples.

Published

2020

30. Paracrine Interleukin 6 Induces Cerebral Remodeling at Early Stages After Unilateral Common Carotid Artery Occlusion in Mice

Author

Melanie T. C. Kuffner, Stefan P. Koch, Marieluise Kirchner, Susanne Mueller, Janet Lips, Jeehye An, Philipp Mertins, Ulrich Dirnagl, Matthias Endres, Philipp Boehm-Sturm, Christoph Harms, and Christian J. Hoffmann

Subjects

vascular disease, basic science research, proteomics, inflammation, carotid artery occlusion, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

AimsCarotid artery disease is frequent and can result in chronic modest hypoperfusion of the brain. If no transient ischemic attack or stroke occur, it is classified asymptomatic. In the long-term, though, it can lead to cognitive impairment. Fostering cerebral remodeling after carotid artery occlusion might be a new concept of treatment. Paracrine Interleukin 6 (IL-6) can induce such remodeling processes at early stages. However, it has neurodegenerative long-term effects. With this exploratory study, we investigated the effect of paracrine IL-6 on cerebral remodeling in early stages after asymptomatic carotid artery occlusion to identify new treatment targets.Methods and ResultsTo mimic a human asymptomatic carotid artery disease, we used a mouse model of unilateral common carotid artery (CCA) occlusion. We developed a mouse model for inducible paracrine cerebral IL-6 expression (Cx30-Cre-ERT2;FLEX-IL6) and induced IL-6 2 days after CCA occlusion. We studied the effects of paracrine IL-6 after CCA occlusion on neuronal connectivity using diffusion tensor imaging and on local proteome regulations of the hypo-perfused striatum and contralateral motor cortex using mass spectrometry of laser capture micro-dissected tissues. Paracrine IL-6 induced cerebral remodeling leading to increased inter-hemispheric connectivity and changes in motor system connectivity. We identified changes in local protein abundance which might have adverse effects on functional outcome such as upregulation of Synuclein gamma (Sncg) or downregulation of Proline Dehydrogenase 1 (Prodh). However, we also identified changes in local protein abundance having potentially beneficial effects such as upregulation of Caprin1 or downregulation of GABA transporter 1 (Gat1).ConclusionsParacrine cerebral IL-6 at early stages induces changes in motor system connectivity and the proteome after asymptomatic CCA occlusion. Our results may help to distinguish unfavorable from beneficial IL-6 dependent protein regulations. Focusing on these targets might generate new treatments to improve long-term outcome in patients with carotid artery disease.

Published

2022

31. Uncoupling the Excitatory Amino Acid Transporter 2 From Its C-Terminal Interactome Restores Synaptic Glutamate Clearance at Corticostriatal Synapses and Alleviates Mutant Huntingtin-Induced Hypokinesia

Author

Stefan Hirschberg, Anton Dvorzhak, Seyed M. A. Rasooli-Nejad, Svilen Angelov, Marieluise Kirchner, Philipp Mertins, Gilla Lättig-Tünnemann, Christoph Harms, Dietmar Schmitz, and Rosemarie Grantyn

Subjects

astrocyte activation, Huntington’s disease (HD), EAAT2 interaction proteomics, synaptic glutamate clearance, corticostriatal pathology, hypokinesia, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Rapid removal of glutamate from the sites of glutamate release is an essential step in excitatory synaptic transmission. However, despite many years of research, the molecular mechanisms underlying the intracellular regulation of glutamate transport at tripartite synapses have not been fully uncovered. This limits the options for pharmacological treatment of glutamate-related motor disorders, including Huntington’s disease (HD). We therefore investigated the possible binding partners of transgenic EAAT2 and their alterations under the influence of mutant huntingtin (mHTT). Mass spectrometry analysis after pull-down of striatal YFP-EAAT2 from wild-type (WT) mice and heterozygote (HET) Q175 mHTT-knock-in mice identified a total of 148 significant (FDR < 0.05) binders to full-length EAAT2. Of them 58 proteins exhibited mHTT-related differences. Most important, in 26 of the 58 mHTT-sensitive cases, protein abundance changed back toward WT levels when the mice expressed a C-terminal-truncated instead of full-length variant of EAAT2. These findings motivated new attempts to clarify the role of astrocytic EAAT2 regulation in cortico-basal movement control. Striatal astrocytes of Q175 HET mice were targeted by a PHP.B vector encoding EAAT2 with different degree of C-terminal modification, i.e., EAAT2-S506X (truncation at S506), EAAT2-4KR (4 lysine to arginine substitutions) or EAAT2 (full-length). The results were compared to HET and WT injected with a tag-only vector (CTRL). It was found that the presence of a C-terminal-modified EAAT2 transgene (i) increased the level of native EAAT2 protein in striatal lysates and perisynaptic astrocyte processes, (ii) enhanced the glutamate uptake of transduced astrocytes, (iii) stimulated glutamate clearance at individual corticostriatal synapses, (iv) increased the glutamate uptake of striatal astrocytes and (iv) alleviated the mHTT-related hypokinesia (open field indicators of movement initiation). In contrast, over-expression of full-length EAAT2 neither facilitated glutamate uptake nor locomotion. Together, our results support the new hypothesis that preventing abnormal protein-protein interactions at the C-terminal of EAAT2 could eliminate the mHTT-related deficits in corticostriatal synaptic glutamate clearance and movement initiation.

Published

2022

32. Self-sustaining IL-8 loops drive a prothrombotic neutrophil phenotype in severe COVID-19

Author

Rainer Kaiser, Alexander Leunig, Kami Pekayvaz, Oliver Popp, Markus Joppich, Vivien Polewka, Raphael Escaig, Afra Anjum, Marie-Louise Hoffknecht, Christoph Gold, Sophia Brambs, Anouk Engel, Sven Stockhausen, Viktoria Knottenberg, Anna Titova, Mohamed Haji, Clemens Scherer, Maximilian Muenchhoff, Johannes C. Hellmuth, Kathrin Saar, Benjamin Schubert, Anne Hilgendorff, Christian Schulz, Stefan Kääb, Ralf Zimmer, Norbert Hübner, Steffen Massberg, Philipp Mertins, Leo Nicolai, and Konstantin Stark

Subjects

COVID-19, Vascular biology, Medicine

Abstract

Neutrophils provide a critical line of defense in immune responses to various pathogens, inflicting self-damage upon transition to a hyperactivated, procoagulant state. Recent work has highlighted proinflammatory neutrophil phenotypes contributing to lung injury and acute respiratory distress syndrome (ARDS) in patients with coronavirus disease 2019 (COVID-19). Here, we use state-of-the art mass spectrometry–based proteomics and transcriptomic and correlative analyses as well as functional in vitro and in vivo studies to dissect how neutrophils contribute to the progression to severe COVID-19. We identify a reinforcing loop of both systemic and neutrophil intrinsic IL-8 (CXCL8/IL-8) dysregulation, which initiates and perpetuates neutrophil-driven immunopathology. This positive feedback loop of systemic and neutrophil autocrine IL-8 production leads to an activated, prothrombotic neutrophil phenotype characterized by degranulation and neutrophil extracellular trap (NET) formation. In severe COVID-19, neutrophils directly initiate the coagulation and complement cascade, highlighting a link to the immunothrombotic state observed in these patients. Targeting the IL-8–CXCR-1/-2 axis interferes with this vicious cycle and attenuates neutrophil activation, degranulation, NETosis, and IL-8 release. Finally, we show that blocking IL-8–like signaling reduces severe acute respiratory distress syndrome of coronavirus 2 (SARS-CoV-2) spike protein–induced, human ACE2–dependent pulmonary microthrombosis in mice. In summary, our data provide comprehensive insights into the activation mechanisms of neutrophils in COVID-19 and uncover a self-sustaining neutrophil–IL-8 axis as a promising therapeutic target in severe SARS-CoV-2 infection.

Published

2021

33. PRISMA and BioID disclose a motifs-based interactome of the intrinsically disordered transcription factor C/EBPα

Author

Evelyn Ramberger, Valeria Sapozhnikova, Elisabeth Kowenz-Leutz, Karin Zimmermann, Nathalie Nicot, Petr V. Nazarov, Daniel Perez-Hernandez, Ulf Reimer, Philipp Mertins, Gunnar Dittmar, and Achim Leutz

Subjects

Proteomics, Omics, Transcriptomics, Science

Abstract

Summary: C/EBPα represents a paradigm intrinsically disordered transcription factor containing short linear motifs and post-translational modifications (PTM). Unraveling C/EBPα protein interaction networks is a prerequisite for understanding the multi-modal functions of C/EBPα in hematopoiesis and leukemia. Here, we combined arrayed peptide matrix screening (PRISMA) with BioID to generate an in vivo validated and isoform specific interaction map of C/EBPα. The myeloid C/EBPα interactome comprises promiscuous and PTM-regulated interactions with protein machineries involved in gene expression, epigenetics, genome organization, DNA replication, RNA processing, and nuclear transport. C/EBPα interaction hotspots coincide with homologous conserved regions of the C/EBP family that also score as molecular recognition features. PTMs alter the interaction spectrum of C/EBP-motifs to configure a multi-valent transcription factor hub that interacts with multiple co-regulatory components, including BAF/SWI-SNF or Mediator complexes. Combining PRISMA and BioID is a powerful strategy to systematically explore the PTM-regulated interactomes of intrinsically disordered transcription factors.

Published

2021

34. Comprehensive gene expression meta-analysis identifies signature genes that distinguish microglia from peripheral monocytes/macrophages in health and glioma

Author

Verena Haage, Marcus Semtner, Ramon Oliveira Vidal, Daniel Perez Hernandez, Winnie W. Pong, Zhihong Chen, Dolores Hambardzumyan, Vincent Magrini, Amy Ly, Jason Walker, Elaine Mardis, Philipp Mertins, Sascha Sauer, Helmut Kettenmann, and David H. Gutmann

Subjects

Microglia, Monocytes, Glioma, CNS, RNA sequencing, Microarray, Macrophages, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Monocytes/macrophages have begun to emerge as key cellular modulators of brain homeostasis and central nervous system (CNS) disease. In the healthy brain, resident microglia are the predominant macrophage cell population; however, under conditions of blood-brain barrier leakage, peripheral monocytes/macrophages can infiltrate the brain and participate in CNS disease pathogenesis. Distinguishing these two populations is often challenging, owing to a paucity of universally accepted and reliable markers. To identify discriminatory marker sets for microglia and peripheral monocytes/macrophages, we employed a large meta-analytic approach using five published murine transcriptional datasets. Following hierarchical clustering, we filtered the top differentially expressed genes (DEGs) through a brain cell type-specific sequencing database, which led to the identification of eight microglia and eight peripheral monocyte/macrophage markers. We then validated their differential expression, leveraging a published single cell RNA sequencing dataset and quantitative RT-PCR using freshly isolated microglia and peripheral monocytes/macrophages from two different mouse strains. We further verified the translation of these DEGs at the protein level. As top microglia DEGs, we identified P2ry12, Tmem119, Slc2a5 and Fcrls, whereas Emilin2, Gda, Hp and Sell emerged as the best DEGs for identifying peripheral monocytes/macrophages. Lastly, we evaluated their utility in discriminating monocyte/macrophage populations in the setting of brain pathology (glioma), and found that these DEG sets distinguished glioma-associated microglia from macrophages in both RCAS and GL261 mouse models of glioblastoma. Taken together, this unbiased bioinformatic approach facilitated the discovery of a robust set of microglia and peripheral monocyte/macrophage expression markers to discriminate these monocyte populations in both health and disease.

Published

2019

35. B-Cell-Specific Myd88 L252P Expression Causes a Premalignant Gammopathy Resembling IgM MGUS

Author

Kristin Schmidt, Ulrike Sack, Robin Graf, Wiebke Winkler, Oliver Popp, Philipp Mertins, Thomas Sommermann, Christine Kocks, and Klaus Rajewsky

Subjects

monoclonal gammopathy of unknown significance, IgM MGUS, MYD88 L265P mutation, Waldenström’s macroglobulinemia, B cell abnormalities, B cell lymphoma, Immunologic diseases. Allergy, RC581-607

Abstract

A highly recurrent somatic L265P mutation in the TIR domain of the signaling adapter MYD88 constitutively activates NF-κB. It occurs in nearly all human patients with Waldenström’s macroglobulinemia (WM), a B cell malignancy caused by IgM-expressing cells. Here, we introduced an inducible leucine to proline point mutation into the mouse Myd88 locus, at the orthologous position L252P. When the mutation was introduced early during B cell development, B cells developed normally. However, IgM-expressing plasma cells accumulated with age in spleen and bone, leading to more than 20-fold elevated serum IgM titers. When introduced into germinal center B cells in the context of an immunization, the Myd88L252P mutation caused prolonged persistence of antigen-specific serum IgM and elevated numbers of antigen-specific IgM plasma cells. Myd88L252P-expressing B cells switched normally, but plasma cells expressing other immunoglobulin isotypes did not increase in numbers, implying that IgM expression may be required for the observed cellular expansion. In order to test whether the Myd88L252P mutation can cause clonal expansions, we introduced it into a small fraction of CD19-positive B cells. In this scenario, five out of five mice developed monoclonal IgM serum paraproteins accompanied by an expansion of clonally related plasma cells that expressed mostly hypermutated VDJ regions. Taken together, our data suggest that the Myd88L252P mutation is sufficient to promote aberrant survival and expansion of IgM-expressing plasma cells which in turn can cause IgM monoclonal gammopathy of undetermined significance (MGUS), the premalignant condition that precedes WM.

Published

2020

36. The Anti-Glucocorticoid Receptor Antibody Clone 5E4: Raising Awareness of Unspecific Antibody Binding

Author

Lisa Ehlers, Marieluise Kirchner, Philipp Mertins, Cindy Strehl, Frank Buttgereit, and Timo Gaber

Subjects

antibody specificity, cross-reactivity, replication crisis, glucocorticoid receptor, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Unspecific antibody binding takes a significant toll on researchers in the form of both the economic burden and the disappointed hopes of promising new therapeutic targets. Despite recent initiatives promoting antibody validation, a uniform approach addressing this issue has not yet been developed. Here, we demonstrate that the anti-glucocorticoid receptor (GR) antibody clone 5E4 predominantly targets two different proteins of approximately the same size, namely AMP deaminase 2 (AMPD2) and transcription intermediary factor 1-beta (TRIM28). This paper is intended to generate awareness of unspecific binding of well-established reagents and advocate the use of more rigorous verification methods to improve antibody quality in the future.

Published

2022

37. An Integrative Framework Reveals Signaling-to-Transcription Events in Toll-like Receptor Signaling

Author

Philipp Mertins, Dariusz Przybylski, Nir Yosef, Jana Qiao, Karl Clauser, Raktima Raychowdhury, Thomas M. Eisenhaure, Tanja Maritzen, Volker Haucke, Takashi Satoh, Shizuo Akira, Steven A. Carr, Aviv Regev, Nir Hacohen, and Nicolas Chevrier

Subjects

pathogen-sensing pathways, Toll-like receptors, TLRs, phosphoproteomics, protein-protein interactions, large-scale in vitro kinase assay, signaling, transcriptional network analysis, Biology (General), QH301-705.5

Abstract

Building an integrated view of cellular responses to environmental cues remains a fundamental challenge due to the complexity of intracellular networks in mammalian cells. Here, we introduce an integrative biochemical and genetic framework to dissect signal transduction events using multiple data types and, in particular, to unify signaling and transcriptional networks. Using the Toll-like receptor (TLR) system as a model cellular response, we generate multifaceted datasets on physical, enzymatic, and functional interactions and integrate these data to reveal biochemical paths that connect TLR4 signaling to transcription. We define the roles of proximal TLR4 kinases, identify and functionally test two dozen candidate regulators, and demonstrate a role for Ap1ar (encoding the Gadkin protein) and its binding partner, Picalm, potentially linking vesicle transport with pro-inflammatory responses. Our study thus demonstrates how deciphering dynamic cellular responses by integrating datasets on various regulatory layers defines key components and higher-order logic underlying signaling-to-transcription pathways.

Published

2017

38. Proteogenomic integration reveals therapeutic targets in breast cancer xenografts

Author

Kuan-lin Huang, Shunqiang Li, Philipp Mertins, Song Cao, Harsha P. Gunawardena, Kelly V. Ruggles, D. R. Mani, Karl R. Clauser, Maki Tanioka, Jerry Usary, Shyam M. Kavuri, Ling Xie, Christopher Yoon, Jana W Qiao, John Wrobel, Matthew A. Wyczalkowski, Petra Erdmann-Gilmore, Jacqueline E. Snider, Jeremy Hoog, Purba Singh, Beifang Niu, Zhanfang Guo, Sam Qiancheng Sun, Souzan Sanati, Emily Kawaler, Xuya Wang, Adam Scott, Kai Ye, Michael D. McLellan, Michael C. Wendl, Anna Malovannaya, Jason M. Held, Michael A. Gillette, David Fenyö, Christopher R. Kinsinger, Mehdi Mesri, Henry Rodriguez, Sherri R. Davies, Charles M. Perou, Cynthia Ma, R. Reid Townsend, Xian Chen, Steven A. Carr, Matthew J. Ellis, and Li Ding

Subjects

Science

Abstract

Patient-derived xenografts recapitulate major genomic signatures and transcriptome profiles of their original tumours. Here, the authors, performing proteomic and phosphoproteomic analyses of 24 breast cancer PDX models, demonstrate that druggable candidates can be identified based on a comprehensive proteogenomic profiling.

Published

2017

39. Cyclin-Dependent Kinase 18 Controls Trafficking of Aquaporin-2 and Its Abundance through Ubiquitin Ligase STUB1, Which Functions as an AKAP

Author

Alessandro Dema, Dörte Faust, Katina Lazarow, Marc Wippich, Martin Neuenschwander, Kerstin Zühlke, Andrea Geelhaar, Tamara Pallien, Eileen Hallscheidt, Jenny Eichhorst, Burkhard Wiesner, Hana Černecká, Oliver Popp, Philipp Mertins, Gunnar Dittmar, Jens Peter von Kries, and Enno Klussmann

Subjects

cdk18, aqp2, pka, akap, stub1, chip, Cytology, QH573-671

Abstract

Arginine-vasopressin (AVP) facilitates water reabsorption in renal collecting duct principal cells through regulation of the water channel aquaporin-2 (AQP2). The hormone binds to vasopressin V2 receptors (V2R) on the surface of the cells and stimulates cAMP synthesis. The cAMP activates protein kinase A (PKA), which initiates signaling that causes an accumulation of AQP2 in the plasma membrane of the cells facilitating water reabsorption from primary urine and fine-tuning of body water homeostasis. AVP-mediated PKA activation also causes an increase in the AQP2 protein abundance through a mechanism that involves dephosphorylation of AQP2 at serine 261 and a decrease in its poly-ubiquitination. However, the signaling downstream of PKA that controls the localization and abundance of AQP2 is incompletely understood. We carried out an siRNA screen targeting 719 kinase-related genes, representing the majority of the kinases of the human genome and analyzed the effect of the knockdown on AQP2 by high-content imaging and biochemical approaches. The screening identified 13 hits whose knockdown inhibited the AQP2 accumulation in the plasma membrane. Amongst the candidates was the so far hardly characterized cyclin-dependent kinase 18 (CDK18). Our further analysis revealed a hitherto unrecognized signalosome comprising CDK18, an E3 ubiquitin ligase, STUB1 (CHIP), PKA and AQP2 that controls the localization and abundance of AQP2. CDK18 controls AQP2 through phosphorylation at serine 261 and STUB1-mediated ubiquitination. STUB1 functions as an A-kinase anchoring protein (AKAP) tethering PKA to the protein complex and bridging AQP2 and CDK18. The modulation of the protein complex may lead to novel concepts for the treatment of disorders which are caused or are associated with dysregulated AQP2 and for which a satisfactory treatment is not available, e.g., hyponatremia, liver cirrhosis, diabetes insipidus, ADPKD or heart failure.

Published

2020

40. Transcriptional and Translational Differences of Microglia from Male and Female Brains

Author

Dilansu Guneykaya, Andranik Ivanov, Daniel Perez Hernandez, Verena Haage, Bartosz Wojtas, Niklas Meyer, Meron Maricos, Philipp Jordan, Alice Buonfiglioli, Bartlomiej Gielniewski, Natalia Ochocka, Cagla Cömert, Corinna Friedrich, Lorena Suarez Artiles, Bozena Kaminska, Philipp Mertins, Dieter Beule, Helmut Kettenmann, and Susanne A. Wolf

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Sex differences in brain structure and function are of substantial scientific interest because of sex-related susceptibility to psychiatric and neurological disorders. Neuroinflammation is a common denominator of many of these diseases, and thus microglia, as the brain’s immunocompetent cells, have come into focus in sex-specific studies. Here, we show differences in the structure, function, and transcriptomic and proteomic profiles in microglia freshly isolated from male and female mouse brains. We show that male microglia are more frequent in specific brain areas, have a higher antigen-presenting capacity, and appear to have a higher potential to respond to stimuli such as ATP, reflected in higher baseline outward and inward currents and higher protein expression of purinergic receptors. Altogether, we provide a comprehensive resource to generate and validate hypotheses regarding brain sex differences. : Guneykaya et al. provide transcriptomic, proteomic, and functional data from male and female microglia, providing a resource for further investigation of sex-based differences in microglia. Keywords: microglia, sex differences, transcriptomics, proteomics

Published

2018

41. Perturbation of m6A Writers Reveals Two Distinct Classes of mRNA Methylation at Internal and 5′ Sites

Author

Schraga Schwartz, Maxwell R. Mumbach, Marko Jovanovic, Tim Wang, Karolina Maciag, G. Guy Bushkin, Philipp Mertins, Dmitry Ter-Ovanesyan, Naomi Habib, Davide Cacchiarelli, Neville E. Sanjana, Elizaveta Freinkman, Michael E. Pacold, Rahul Satija, Tarjei S. Mikkelsen, Nir Hacohen, Feng Zhang, Steven A. Carr, Eric S. Lander, and Aviv Regev

Subjects

Biology (General), QH301-705.5

Abstract

N6-methyladenosine (m6A) is a common modification of mRNA with potential roles in fine-tuning the RNA life cycle. Here, we identify a dense network of proteins interacting with METTL3, a component of the methyltransferase complex, and show that three of them (WTAP, METTL14, and KIAA1429) are required for methylation. Monitoring m6A levels upon WTAP depletion allowed the definition of accurate and near single-nucleotide resolution methylation maps and their classification into WTAP-dependent and -independent sites. WTAP-dependent sites are located at internal positions in transcripts, topologically static across a variety of systems we surveyed, and inversely correlated with mRNA stability, consistent with a role in establishing “basal” degradation rates. WTAP-independent sites form at the first transcribed base as part of the cap structure and are present at thousands of sites, forming a previously unappreciated layer of transcriptome complexity. Our data shed light on the proteomic and transcriptional underpinnings of this RNA modification.

Published

2014

42. Correction: Corrigendum: Proteogenomic integration reveals therapeutic targets in breast cancer xenografts

Author

Kuan-lin Huang, Shunqiang Li, Philipp Mertins, Song Cao, Harsha P. Gunawardena, Kelly V. Ruggles, D. R. Mani, Karl R. Clauser, Maki Tanioka, Jerry Usary, Shyam M. Kavuri, Ling Xie, Christopher Yoon, Jana W. Qiao, John Wrobel, Matthew A. Wyczalkowski, Petra Erdmann-Gilmore, Jacqueline E. Snider, Jeremy Hoog, Purba Singh, Beifang Niu, Zhanfang Guo, Sam Qiancheng Sun, Souzan Sanati, Emily Kawaler, Xuya Wang, Adam Scott, Kai Ye, Michael D. McLellan, Michael C. Wendl, Anna Malovannaya, Jason M. Held, Michael A. Gillette, David Fenyö, Christopher R. Kinsinger, Mehdi Mesri, Henry Rodriguez, Sherri R. Davies, Charles M. Perou, Cynthia Ma, R. Reid Townsend, Xian Chen, Steven A. Carr, Matthew J. Ellis, and Li Ding

Subjects

Science

Abstract

Nature Communications 8: Article number: 14864 (2017)); Published: 28 March 2017; Updated: 25 April 2017 The original version of this Article contained a typographical error in the spelling of the author Beifang Niu, which was incorrectly given as Beifung Niu. This has now been corrected in both thePDF and HTML versions of the Article.

Published

2017

43. Quantitative-proteomic comparison of alpha and Beta cells to uncover novel targets for lineage reprogramming.

Author

Amit Choudhary, Kaihui Hu He, Philipp Mertins, Namrata D Udeshi, Vlado Dančík, Dina Fomina-Yadlin, Stefan Kubicek, Paul A Clemons, Stuart L Schreiber, Steven A Carr, and Bridget K Wagner

Subjects

Medicine, Science

Abstract

Type-1 diabetes (T1D) is an autoimmune disease in which insulin-secreting pancreatic beta cells are destroyed by the immune system. An emerging strategy to regenerate beta-cell mass is through transdifferentiation of pancreatic alpha cells to beta cells. We previously reported two small molecules, BRD7389 and GW8510, that induce insulin expression in a mouse alpha cell line and provide a glimpse into potential intermediate cell states in beta-cell reprogramming from alpha cells. These small-molecule studies suggested that inhibition of kinases in particular may induce the expression of several beta-cell markers in alpha cells. To identify potential lineage reprogramming protein targets, we compared the transcriptome, proteome, and phosphoproteome of alpha cells, beta cells, and compound-treated alpha cells. Our phosphoproteomic analysis indicated that two kinases, BRSK1 and CAMKK2, exhibit decreased phosphorylation in beta cells compared to alpha cells, and in compound-treated alpha cells compared to DMSO-treated alpha cells. Knock-down of these kinases in alpha cells resulted in expression of key beta-cell markers. These results provide evidence that perturbation of the kinome may be important for lineage reprogramming of alpha cells to beta cells.

Published

2014

44. Sex-specific microglia state in the Neuroligin-4 knock-out mouse model of autism spectrum disorder

Author

Dilansu Guneykaya, Bilge Ugursu, Francesca Logiacco, Oliver Popp, Maria Almut Feiks, Niklas Meyer, Stefan Wendt, Marcus Semtner, Fatma Cherif, Christian Gauthier, Charlotte Madore, Zhuoran Yin, Özcan Çınar, Taner Arslan, Zoltan Gerevich, Philipp Mertins, Oleg Butovsky, Helmut Kettenmann, and Susanne A. Wolf

Subjects

Behavioral Neuroscience, Endocrine and Autonomic Systems, Immunology, Technology Platforms, Function and Dysfunction of the Nervous System

Abstract

Neuroligin-4 (NLGN4) loss-of-function mutations are associated with monogenic heritable autism spectrum disorder (ASD) and cause alterations in both synaptic and behavioral phenotypes. Microglia, the resident CNS macrophages, are implicated in ASD development and progression. Here we studied the impact of NLGN4 loss in a mouse model, focusing on microglia phenotype and function in both male and female mice. NLGN4 depletion caused lower microglia density, less ramified morphology, reduced response to injury and purinergic signaling specifically in the hippocampal CA3 region predominantly in male mice. Proteomic analysis revealed disrupted energy metabolism in male microglia and provided further evidence for sexual dimorphism in the ASD associated microglial phenotype. In addition, we observed impaired gamma oscillations in a sex-dependent manner. Lastly, estradiol application in male NLGN4(-/-) mice restored the altered microglial phenotype and function. Together, these results indicate that loss of NLGN4 affects not only neuronal network activity, but also changes the microglia state in a sex-dependent manner that could be targeted by estradiol treatment.

Published

2023

45. The <scp>SCF</scp> / <scp>KIT</scp> axis in human mast cells: Capicua acts as potent <scp>KIT</scp> repressor and <scp>ERK</scp> predominates <scp>PI3K</scp>

Author

Kristin Franke, Marieluise Kirchner, Philipp Mertins, Torsten Zuberbier, and Magda Babina

Subjects

Immunology, Immunology and Allergy

Published

2022

46. Multi-Omic Factor Analysis uncovers immunological signatures with pathophysiologic and clinical implications in coronary syndromes

Author

Kami Pekayvaz, Corinna Losert, Viktoria Knottenberg, Irene V. van Blokland, Roy Oelen, Hilde E. Groot, Jan Walter Benjamins, Sophia Brambs, Rainer Kaiser, Luke Eivers, Vivien Polewka, Raphael Escaig, Markus Joppich, Aleksandar Janjic, Oliver Popp, Tobias Petzold, Ralf Zimmer, Wolfgang Enard, Kathrin Saar, Philipp Mertins, Norbert Huebner, Pim van der Harst, Lude H. Franke, Monique G. P. van der Wijst, Steffen Massberg, Matthias Heinig, Leo Nicolai, and Konstantin Stark

Abstract

Acute and chronic coronary syndromes (ACS and CCS) are leading causes of mortality. Inflammation is considered to be a key pathogenic driver, but immune states in humans and their clinical implications remain poorly understood. We hypothesized that Multi-Omic blood analysis combined with Multi-Omic Factor Analysis (MOFA) might uncover hidden sources of variance providing pathophysiological insights linked to clinical needs. Here, we compile a single cell longitudinal dataset of the circulating immune states in ACS & CCS (13x103clinical & Multi-Omic variables, n=117 subjects, n=838 analyzed samples) from two independent cohorts. Using MOFA, we identify multilayered factors, characterized by distinct classical monocyte and CD4+& CD8+T cell states that explain a large proportion of inter-patient variance. Three factors either reflect disease course or predict outcome in coronary syndromes. The diagnostic performance of these factors reaches beyond established biomarkers highlighting the potential use of MOFA as a novel tool for multilayered patient risk stratification.

Published

2023

47. Supplementary Data from Immune Phenotypes and Target Antigens of Clonally Expanded Bone Marrow T Cells in Treatment-Naïve Multiple Myeloma

Author

Leo Hansmann, Thomas Blankenstein, Klaus Dornmair, Hans-Peter Rahn, Holger Hackstein, Julian Strobel, Armin Gerbitz, Dieter Beule, Eric Blanc, Andreas Moosmann, Lars Bullinger, Kerstin Dietze, Philipp Mertins, Oliver Popp, Christopher Buccitelli, Xiaojing Chen, Livius Penter, Amin Ben Hamza, Meng-Tung Hsu, Christian Alexander Stein, María Fernanda Lammoglia Cobo, and Carlotta Welters

Abstract

Supplementary Data from Immune Phenotypes and Target Antigens of Clonally Expanded Bone Marrow T Cells in Treatment-Naïve Multiple Myeloma

Published

2023

48. Supplementary Figure from Immune Phenotypes and Target Antigens of Clonally Expanded Bone Marrow T Cells in Treatment-Naïve Multiple Myeloma

Author

Leo Hansmann, Thomas Blankenstein, Klaus Dornmair, Hans-Peter Rahn, Holger Hackstein, Julian Strobel, Armin Gerbitz, Dieter Beule, Eric Blanc, Andreas Moosmann, Lars Bullinger, Kerstin Dietze, Philipp Mertins, Oliver Popp, Christopher Buccitelli, Xiaojing Chen, Livius Penter, Amin Ben Hamza, Meng-Tung Hsu, Christian Alexander Stein, María Fernanda Lammoglia Cobo, and Carlotta Welters

Abstract

Supplementary Figure from Immune Phenotypes and Target Antigens of Clonally Expanded Bone Marrow T Cells in Treatment-Naïve Multiple Myeloma

Published

2023

49. Data from Immune Phenotypes and Target Antigens of Clonally Expanded Bone Marrow T Cells in Treatment-Naïve Multiple Myeloma

Author

Leo Hansmann, Thomas Blankenstein, Klaus Dornmair, Hans-Peter Rahn, Holger Hackstein, Julian Strobel, Armin Gerbitz, Dieter Beule, Eric Blanc, Andreas Moosmann, Lars Bullinger, Kerstin Dietze, Philipp Mertins, Oliver Popp, Christopher Buccitelli, Xiaojing Chen, Livius Penter, Amin Ben Hamza, Meng-Tung Hsu, Christian Alexander Stein, María Fernanda Lammoglia Cobo, and Carlotta Welters

Abstract

Multiple myeloma is a hematologic malignancy of monoclonal plasma cells that accumulate in the bone marrow. Despite their clinical and pathophysiologic relevance, the roles of bone marrow–infiltrating T cells in treatment-naïve patients are incompletely understood. We investigated whether clonally expanded T cells (i) were detectable in multiple myeloma bone marrow, (ii) showed characteristic immune phenotypes, and (iii) whether dominant clones recognized antigens selectively presented on multiple myeloma cells. Single-cell index sorting and T-cell receptor (TCR) αβ sequencing of bone marrow T cells from 13 treatment-naïve patients showed dominant clonal expansion within CD8+ cytolytic effector compartments, and only a minority of expanded T-cell clones expressed the classic immune-checkpoint molecules PD-1, CTLA-4, or TIM-3. To identify their molecular targets, TCRs of 68 dominant bone marrow clones from five selected patients were reexpressed and incubated with multiple myeloma and non–multiple myeloma cells from corresponding patients. Only 1 of 68 TCRs recognized antigen presented on multiple myeloma cells. This TCR was HLA-C–restricted, self-peptide–specific and could be activated by multiple myeloma cells of multiple patients. The remaining dominant T-cell clones did not recognize multiple myeloma cells and were, in part, specific for antigens associated with chronic viral infections. In conclusion, we showed that dominant bone marrow T-cell clones in treatment-naïve patients rarely recognize antigens presented on multiple myeloma cells and exhibit low expression of classic immune-checkpoint molecules. Our data provide experimental context for experiences from clinical immune-checkpoint inhibition trials and will inform future T cell–dependent therapeutic strategies.

Published

2023

50. Supplementary Figure 3 from YAP and β-Catenin Cooperate to Drive Oncogenesis in Basal Breast Cancer

Author

Walter Birchmeier, Yaron Fuchs, Elle Koren, Elisabetta Marangoni, Sophie Château-Joubert, Kamil Lisek, Alexandro Landshammer, Clemens Messerschmidt, Linxiang Lan, Philipp Mertins, Oliver Popp, Regina Vogel, and Hazel M. Quinn

Abstract

Supplementary figure related to figure 3. Supplementary Fig. 3. Wnt-Met signalling induces YAP-dependent luminal-to-basal transition.

Published

2023