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12. Matrix metalloproteinases modulate ameboid-like migration of neutrophils through inflamed interstitial tissue

Author

Lerchenberger, M, Uhl, B, Stark, K, Zuchtriegel, G, Eckart, A, Miller, M, Puhr-Westerheide, D, Praetner, M, Rehberg, M, Khandoga, A, Lauber, K, Massberg, S, Krombach, F, Reichel, CA, Lerchenberger, M, Uhl, B, Stark, K, Zuchtriegel, G, Eckart, A, Miller, M, Puhr-Westerheide, D, Praetner, M, Rehberg, M, Khandoga, A, Lauber, K, Massberg, S, Krombach, F, and Reichel, CA

Published
2015

13. Urokinase-type plasminogen activator promotes paracellular transmigration of neutrophils via mac-1, but independently of urokinase-type plasminogen activator receptor.

Author

Reichel CA, Uhl B, Lerchenberger M, Puhr-Westerheide D, Rehberg M, Liebl J, Khandoga A, Schmalix W, Zahler S, Deindl E, Lorenzl S, Declerck PJ, Kanse S, and Krombach F

Subjects
*CELL receptors, *FIBRINOLYTIC agents, *ANIMAL experimentation, *ANIMALS, *CELL motility, *IMMUNITY, *MICE, *NEUTROPHILS, *PHYSIOLOGY, *CELL physiology
Abstract

Background- Urokinase-type plasminogen activator (uPA) has recently been implicated in the pathogenesis of ischemia-reperfusion (I/R) injury. The underlying mechanisms remain largely unclear. Methods and Results- Using in vivo microscopy on the mouse cremaster muscle, I/R-elicited firm adherence and transmigration of neutrophils were found to be significantly diminished in uPA-deficient mice and in mice treated with the uPA inhibitor WX-340, but not in uPA receptor (uPAR)-deficient mice. Interestingly, postischemic leukocyte responses were significantly reduced on blockade of the integrin CD11b/Mac-1, which also serves as uPAR receptor. Using a cell transfer technique, postischemic adherence and transmigration of wild-type leukocytes were significantly decreased in uPA-deficient animals, whereas uPA-deficient leukocytes exhibited a selectively reduced transmigration in wild-type animals. On I/R or stimulation with recombinant uPA, >90% of firmly adherent leukocytes colocalized with CD31-immunoreactive endothelial junctions as detected by in vivo fluorescence microscopy. In a model of hepatic I/R, treatment with WX-340 significantly attenuated postischemic neutrophil infiltration and tissue injury. Conclusions- Our data suggest that endothelial uPA promotes intravascular adherence, whereas leukocyte uPA facilitates the subsequent paracellular transmigration of neutrophils during I/R. This process is regulated via CD11b/Mac-1, and does not require uPAR. Pharmacological blockade of uPA interferes with these events and effectively attenuates postischemic tissue injury. [ABSTRACT FROM AUTHOR]

Published
2011
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14. JAM-A promotes neutrophil chemotaxis by controlling integrin internalization and recycling

Author

Fabrizio Orsenigo, Fritz Krombach, Christoph A. Reichel, Elisabetta Dejana, Ruggero Pardi, Monica Fabbri, Maria Rosaria Cera, Markus Rehberg, Cinzia Molendini, Monica Corada, Cera, Mr, Fabbri, M, Molendini, C, Corada, M, Orsenigo, F, Rehberg, M, Reichel, Ca, Krombach, F, Pardi, Ruggero, and Dejana, E.

Subjects
Male, Neutrophils, Uropod, media_common.quotation_subject, education, Integrin, Immunoglobulins, Motility, Uropod retraction, Receptors, Cell Surface, Leukotriene B4, Mice, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, Animals, Humans, Internalization, Egtazic Acid, Chelating Agents, 030304 developmental biology, media_common, Mice, Knockout, 0303 health sciences, biology, Chemotaxis, Integrin beta1, Cytoplasmic Vesicles, fungi, rap1 GTP-Binding Proteins, Cell migration, Cell Biology, humanities, Cell biology, Mice, Inbred C57BL, N-Formylmethionine Leucyl-Phenylalanine, Integrin alpha M, 030220 oncology & carcinogenesis, biology.protein, Cell Adhesion Molecules, Oligopeptides
Abstract

The membrane-associated adhesion molecule JAM-A is required for neutrophil infiltration in inflammatory or ischemic tissues. JAM-A expressed in both endothelial cells and neutrophils has such a role, but the mechanism of action remains elusive. Here we show that JAM-A has a cell-autonomous role in neutrophil chemotaxis both in vivo and in vitro, which is independent of the interaction of neutrophils with endothelial cells. On activated neutrophils, JAM-A concentrates in a polarized fashion at the leading edge and uropod. Surprisingly, a significant amount of this protein is internalized in intracellular endosomal-like vesicles where it codistributes with integrin β1. Clustering of β1 integrin leads to JAM-A co-clustering, whereas clustering of JAM-A does not induce integrin association. Neutrophils derived from JAM-A-null mice are unable to correctly internalize β1 integrins upon chemotactic stimuli and this causes impaired uropod retraction and cell motility. Consistently, inhibition of integrin internalization upon treatment with BAPTA-AM induces a comparable phenotype. These data indicate that JAM-A is required for the correct internalization and recycling of integrins during cell migration and might explain why, in its absence, the directional migration of neutrophils towards an inflammatory stimulus is markedly impaired.

Published
2009

15. Procoagulant platelets promote immune evasion in triple-negative breast cancer.

Author

Schaubaecher JB, Smiljanov B, Haring F, Steiger K, Wu Z, Ugurluoglu A, Luft J, Ballke S, Mahameed S, Schneewind V, Hildinger J, Canis M, Mittmann LA, Braun C, Zuchtriegel G, Kaiser R, Nicolai L, Mack M, Weichert W, Lauber K, Uhl B, and Reichel CA

Subjects
Humans, Female, Mice, Animals, Tumor Escape, Cell Line, Tumor, Immune Evasion, Triple Negative Breast Neoplasms immunology, Triple Negative Breast Neoplasms pathology, Blood Platelets immunology, Blood Platelets pathology, Blood Platelets metabolism
Abstract

Abstract: Triple-negative breast cancer (TNBC) is an aggressive tumor entity in which immune checkpoint (IC) molecules are primarily synthesized in the tumor environment. Here, we report that procoagulant platelets bear large amounts of such immunomodulatory factors and that the presence of these cellular blood components in TNBC relates to protumorigenic immune-cell activity and impaired survival. Mechanistically, tumor-released nucleic acids attract platelets to the aberrant tumor microvasculature, where they undergo procoagulant activation, thus delivering specific stimulatory and inhibitory IC molecules. This concomitantly promotes protumorigenic myeloid leukocyte responses and compromises antitumorigenic lymphocyte activity, ultimately supporting tumor growth. Interference with platelet-leukocyte interactions prevented immune cell misguidance and suppressed tumor progression, nearly as effective as systemic IC inhibition. Hence, our data uncover a self-sustaining mechanism of TNBC by using platelets to misdirect immune-cell responses. Targeting this irregular multicellular interplay may represent a novel immunotherapeutic strategy for TNBC without the adverse effects of systemic IC inhibition., (© 2024 American Society of Hematology. Published by Elsevier Inc. All rights are reserved, including those for text and data mining, AI training, and similar technologies.)

Published
2024
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16. Impact of 18 F-FDG PET Intensity Normalization on Radiomic Features of Oropharyngeal Squamous Cell Carcinomas and Machine Learning-Generated Biomarkers.

Author

Haider SP, Zeevi T, Sharaf K, Gross M, Mahajan A, Kann BH, Judson BL, Prasad ML, Burtness B, Aboian M, Canis M, Reichel CA, Baumeister P, and Payabvash S

Subjects
Humans, Male, Female, Middle Aged, Positron-Emission Tomography methods, Image Processing, Computer-Assisted methods, Aged, Carcinoma, Squamous Cell diagnostic imaging, Biomarkers, Tumor metabolism, Reproducibility of Results, Radiomics, Machine Learning, Oropharyngeal Neoplasms diagnostic imaging, Fluorodeoxyglucose F18
Abstract

We aimed to investigate the effects of 18 F-FDG PET voxel intensity normalization on radiomic features of oropharyngeal squamous cell carcinoma (OPSCC) and machine learning-generated radiomic biomarkers. Methods: We extracted 1,037 18 F-FDG PET radiomic features quantifying the shape, intensity, and texture of 430 OPSCC primary tumors. The reproducibility of individual features across 3 intensity-normalized images (body-weight SUV, reference tissue activity ratio to lentiform nucleus of brain and cerebellum) and the raw PET data was assessed using an intraclass correlation coefficient (ICC). We investigated the effects of intensity normalization on the features' utility in predicting the human papillomavirus (HPV) status of OPSCCs in univariate logistic regression, receiver-operating-characteristic analysis, and extreme-gradient-boosting (XGBoost) machine-learning classifiers. Results: Of 1,037 features, a high (ICC ≥ 0.90), medium (0.90 > ICC ≥ 0.75), and low (ICC < 0.75) degree of reproducibility across normalization methods was attained in 356 (34.3%), 608 (58.6%), and 73 (7%) features, respectively. In univariate analysis, features from the PET normalized to the lentiform nucleus had the strongest association with HPV status, with 865 of 1,037 (83.4%) significant features after multiple testing corrections and a median area under the receiver-operating-characteristic curve (AUC) of 0.65 (interquartile range, 0.62-0.68). Similar tendencies were observed in XGBoost models, with the lentiform nucleus-normalized model achieving the numerically highest average AUC of 0.72 (SD, 0.07) in the cross validation within the training cohort. The model generalized well to the validation cohorts, attaining an AUC of 0.73 (95% CI, 0.60-0.85) in independent validation and 0.76 (95% CI, 0.58-0.95) in external validation. The AUCs of the XGBoost models were not significantly different. Conclusion: Only one third of the features demonstrated a high degree of reproducibility across intensity-normalization techniques, making uniform normalization a prerequisite for interindividual comparability of radiomic markers. The choice of normalization technique may affect the radiomic features' predictive value with respect to HPV. Our results show trends that normalization to the lentiform nucleus may improve model performance, although more evidence is needed to draw a firm conclusion., (© 2024 by the Society of Nuclear Medicine and Molecular Imaging.)

Published
2024
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17. 5'-Ectonucleotidase CD73/NT5E supports EGFR-mediated invasion of HPV-negative head and neck carcinoma cells.

Author

Shi E, Wu Z, Karaoglan BS, Schwenk-Zieger S, Kranz G, Abdul Razak N, Reichel CA, Canis M, Baumeister P, Zeidler R, and Gires O

Subjects
Humans, Cetuximab, Epidermal Growth Factor, ErbB Receptors genetics, 5'-Nucleotidase genetics, GPI-Linked Proteins genetics, Head and Neck Neoplasms genetics, Papillomavirus Infections genetics, Squamous Cell Carcinoma of Head and Neck genetics
Abstract

Background: Epithelial-to-mesenchymal transition (EMT) of malignant cells is a driving force of disease progression in human papillomavirus-negative (HPV-negative) head and neck squamous cell carcinomas (HNSCC). Sustained hyper-activation of epidermal growth factor receptor (EGFR) induces an invasion-promoting subtype of EMT (EGFR-EMT) characterized by a gene signature ("'EGFR-EMT&#95;Signature'") comprising 5´-ectonucleotidase CD73. Generally, CD73 promotes immune evasion via adenosine (ADO) formation and associates with EMT and metastases. However, CD73 regulation through EGFR signaling remains under-explored and targeting options are amiss., Methods: CD73 functions in EGFR-mediated tumor cell dissemination were addressed in 2D and 3D cellular models of migration and invasion. The novel antagonizing antibody 22E6 and therapeutic antibody Cetuximab served as inhibitors of CD73 and EGFR, respectively, in combinatorial treatment. Specificity for CD73 and its role as effector or regulator of EGFR-EMT were assessed upon CD73 knock-down and over-expression. CD73 correlation to tumor budding was studied in an in-house primary HNSCC cohort. Expression correlations, and prognostic and predictive values were analyzed using machine learning-based algorithms and Kaplan-Meier survival curves in single cell and bulk RNA sequencing datasets., Results: CD73/NT5E is induced by the EGF/EGFR-EMT-axis and blocked by Cetuximab and MEK inhibitor. Inhibition of CD73 with the novel antagonizing antibody 22E6 specifically repressed EGFR-dependent migration and invasion of HNSCC cells in 2D. Cetuximab and 22E6 alone reduced local invasion in a 3D-model. Interestingly, combining inefficient low-dose concentrations of Cetuximab and 22E6 revealed highly potent in invasion inhibition, substantially reducing the functional IC 50 of Cetuximab regarding local invasion. A role for CD73 as an effector of EGFR-EMT in local invasion was further supported by knock-down and over-expression experiments in vitro and by high expression in malignant cells budding from primary tumors. CD73 expression correlated with EGFR pathway activity, EMT, and partial EMT (p-EMT) in malignant single HNSCC cells and in large patient cohorts. Contrary to published data, CD73 was not a prognostic marker of overall survival (OS) in the TCGA-HNSCC cohort when patients were stratified for HPV-status. However, CD73 prognosticated OS of oral cavity carcinomas. Furthermore, CD73 expression levels correlated with response to Cetuximab in HPV-negative advanced, metastasized HNSCC patients., Conclusions: In sum, CD73 is an effector of EGF/EGFR-mediated local invasion and a potential therapeutic target and candidate predictive marker for advanced HPV-negative HNSCC., (© 2023. National Science Council of the Republic of China (Taiwan).)

Published
2023
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18. The Microtubule-Targeting Agent Pretubulysin Impairs the Inflammatory Response in Endothelial Cells by a JNK-Dependent Deregulation of the Histone Acetyltransferase Brd4.

Author

Primke TF, Ingelfinger R, Elewa MAF, Macinkovic I, Weigert A, Fabritius MP, Reichel CA, Ullrich A, Kazmaier U, Burgers LD, and Fürst R

Subjects
Transcription Factors, Microtubules, Histone Acetyltransferases, Endothelial Cells, Nuclear Proteins
Abstract

The anti-inflammatory effects of depolymerizing microtubule-targeting agents on leukocytes are known for a long time, but the potential involvement of the vascular endothelium and the underlying mechanistic basis is still largely unclear. Using the recently synthesized depolymerizing microtubule-targeting agent pretubulysin, we investigated the anti-inflammatory potential of pretubulysin and other microtubule-targeting agents with respect to the TNF-induced leukocyte adhesion cascade in endothelial cells, to improve our understanding of the underlying biomolecular background. We found that treatment with pretubulysin reduces inflammation in vivo and in vitro via inhibition of the TNF-induced adhesion of leukocytes to the vascular endothelium by down-regulation of the pro-inflammatory cell adhesion molecules ICAM-1 and VCAM-1 in a JNK-dependent manner. The underlying mechanism includes JNK-induced deregulation and degradation of the histone acetyltransferase Bromodomain-containing protein 4. This study shows that depolymerizing microtubule-targeting agents, in addition to their established effects on leukocytes, also significantly decrease the inflammatory activation of vascular endothelial cells. These effects are not based on altered pro-inflammatory signaling cascades, but require deregulation of the capability of cells to enter constructive transcription for some genes, setting a baseline for further research on the prominent anti-inflammatory effects of depolymerizing microtubule-targeting agents.

Published
2023
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19. A transcriptomic pan-cancer signature for survival prognostication and prediction of immunotherapy response based on endothelial senescence.

Author

Wu Z, Uhl B, Gires O, and Reichel CA

Subjects
Humans, Endothelial Cells, Precision Medicine, Immunotherapy, Cellular Senescence, Endothelium, Prognosis, Transcriptome, Neoplasms genetics, Neoplasms therapy
Abstract

Background: The microvascular endothelium inherently controls nutrient delivery, oxygen supply, and immune surveillance of malignant tumors, thus representing both biological prerequisite and therapeutic vulnerability in cancer. Recently, cellular senescence emerged as a fundamental characteristic of solid malignancies. In particular, tumor endothelial cells have been reported to acquire a senescence-associated secretory phenotype, which is characterized by a pro-inflammatory transcriptional program, eventually promoting tumor growth and formation of distant metastases. We therefore hypothesize that senescence of tumor endothelial cells (TEC) represents a promising target for survival prognostication and prediction of immunotherapy efficacy in precision oncology., Methods: Published single-cell RNA sequencing datasets of different cancer entities were analyzed for cell-specific senescence, before generating a pan-cancer endothelial senescence-related transcriptomic signature termed EC.SENESCENCE.SIG. Utilizing this signature, machine learning algorithms were employed to construct survival prognostication and immunotherapy response prediction models. Machine learning-based feature selection algorithms were applied to select key genes as prognostic biomarkers., Results: Our analyses in published transcriptomic datasets indicate that in a variety of cancers, endothelial cells exhibit the highest cellular senescence as compared to tumor cells or other cells in the vascular compartment of malignant tumors. Based on these findings, we developed a TEC-associated, senescence-related transcriptomic signature (EC.SENESCENCE.SIG) that positively correlates with pro-tumorigenic signaling, tumor-promoting dysbalance of immune cell responses, and impaired patient survival across multiple cancer entities. Combining clinical patient data with a risk score computed from EC.SENESCENCE.SIG, a nomogram model was constructed that enhanced the accuracy of clinical survival prognostication. Towards clinical application, we identified three genes as pan-cancer biomarkers for survival probability estimation. As therapeutic perspective, a machine learning model constructed on EC.SENESCENCE.SIG provided superior pan-cancer prediction for immunotherapy response than previously published transcriptomic models., Conclusions: We here established a pan-cancer transcriptomic signature for survival prognostication and prediction of immunotherapy response based on endothelial senescence., (© 2023. The Author(s).)

Published
2023
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20. Vitronectin promotes immunothrombotic dysregulation in the venular microvasculature.

Author

Uhl B, Haring F, Slotta-Huspenina J, Luft J, Schneewind V, Hildinger J, Wu Z, Steiger K, Smiljanov B, Batcha AMN, Keppler OT, Hellmuth JC, Lahmer T, Stock K, Weiss BG, Canis M, Stark K, Bromberger T, Moser M, Schulz C, Weichert W, Zuchtriegel G, and Reichel CA

Subjects
Humans, Blood Platelets physiology, Platelet Glycoprotein GPIIb-IIIa Complex, Microvessels, Vitronectin, COVID-19
Abstract

Microvascular immunothrombotic dysregulation is a critical process in the pathogenesis of severe systemic inflammatory diseases. The mechanisms controlling immunothrombosis in inflamed microvessels, however, remain poorly understood. Here, we report that under systemic inflammatory conditions the matricellular glycoproteinvitronectin (VN) establishes an intravascular scaffold, supporting interactions of aggregating platelets with immune cells and the venular endothelium. Blockade of the VN receptor glycoprotein (GP)IIb/IIIa interfered with this multicellular interplay and effectively prevented microvascular clot formation. In line with these experimental data, particularly VN was found to be enriched in the pulmonary microvasculature of patients with non-infectious (pancreatitis-associated) or infectious (coronavirus disease 2019 (COVID-19)-associated) severe systemic inflammatory responses. Targeting the VN-GPIIb/IIIa axis hence appears as a promising, already feasible strategy to counteract microvascular immunothrombotic dysregulation in systemic inflammatory pathologies., Competing Interests: Author WW declarers the following conflict of interests: Research grants from Roche, MSD, BMS, and AstraZeneca. Advisory board, lectures, speaker bureaus: Roche, MSD, BMS, AstraZeneca, Pfizer, Merck, Lilly, Boehringer, Novartis, Takeda, Bayer, Janssen, Amgen, Astellas, Illumina, Eisai, Siemens, Agilent, ADC, GSK, and Molecular Health. The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Uhl, Haring, Slotta-Huspenina, Luft, Schneewind, Hildinger, Wu, Steiger, Smiljanov, Batcha, Keppler, Hellmuth, Lahmer, Stock, Weiss, Canis, Stark, Bromberger, Moser, Schulz, Weichert, Zuchtriegel and Reichel.)

Published
2023
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21. A transcriptomic map of EGFR-induced epithelial-to-mesenchymal transition identifies prognostic and therapeutic targets for head and neck cancer.

Author

Schinke H, Shi E, Lin Z, Quadt T, Kranz G, Zhou J, Wang H, Hess J, Heuer S, Belka C, Zitzelsberger H, Schumacher U, Genduso S, Riecken K, Gao Y, Wu Z, Reichel CA, Walz C, Canis M, Unger K, Baumeister P, Pan M, and Gires O

Subjects
Cell Line, Tumor, Epithelial-Mesenchymal Transition genetics, ErbB Receptors genetics, Gene Expression Regulation, Neoplastic, Humans, Neoplasm Recurrence, Local genetics, Prognosis, Squamous Cell Carcinoma of Head and Neck genetics, Head and Neck Neoplasms drug therapy, Head and Neck Neoplasms genetics, Transcriptome
Abstract

Background: Epidermal growth factor receptor (EGFR) is both a driver oncogene and a therapeutic target in advanced head and neck squamous cell carcinoma (HNSCC). However, response to EGFR treatment is inconsistent and lacks markers for treatment prediction. This study investigated EGFR-induced epithelial-to-mesenchymal transition (EMT) as a central parameter in tumor progression and identified novel prognostic and therapeutic targets, and a candidate predictive marker for EGFR therapy response., Methods: Transcriptomic profiles were analyzed by RNA sequencing (RNA-seq) following EGFR-mediated EMT in responsive human HNSCC cell lines. Exclusive genes were extracted via differentially expressed genes (DEGs) and a risk score was determined through forward feature selection and Cox regression models in HNSCC cohorts. Functional characterization of selected prognostic genes was conducted in 2D and 3D cellular models, and findings were validated by immunohistochemistry in primary HNSCC., Results: An EGFR-mediated EMT gene signature composed of n = 171 genes was identified in responsive cell lines and transferred to the TCGA-HNSCC cohort. A 5-gene risk score comprising DDIT4, FADD, ITGB4, NCEH1, and TIMP1 prognosticated overall survival (OS) in TCGA and was confirmed in independent HNSCC cohorts. The EGFR-mediated EMT signature was distinct from EMT hallmark and partial EMT (pEMT) meta-programs with a differing enrichment pattern in single malignant cells. Molecular characterization showed that ITGB4 was upregulated in primary tumors and metastases compared to normal mucosa and correlated with EGFR/MAPK activity in tumor bulk and single malignant cells. Preferential localization of ITGB4 together with its ligand laminin 5 at tumor-stroma interfaces correlated with increased tumor budding in primary HNSCC tissue sections. In vitro, ITGB4 knock-down reduced EGFR-mediated migration and invasion and ITGB4-antagonizing antibody ASC8 impaired 2D and 3D invasion. Furthermore, a logistic regression model defined ITGB4 as a predictive marker of progression-free survival in response to Cetuximab in recurrent metastatic HNSCC patients., Conclusions: EGFR-mediated EMT conveyed through MAPK activation contributes to HNSCC progression upon induction of migration and invasion. A 5-gene risk score based on a novel EGFR-mediated EMT signature prognosticated survival of HNSCC patients and determined ITGB4 as potential therapeutic and predictive target in patients with strong EGFR-mediated EMT., (© 2022. The Author(s).)

Published
2022
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22. [Child with a vascularized throat mass].

Author

Volgger V, Ledderose ST, Bienenstein E, Walz C, Hermann M, Nitsche M, Sharaf K, Hüttl T, Wildgruber M, Kisch-Wedel H, and Reichel CA

Subjects
Child, Female, Humans, Neck, Pharynx pathology, Tongue, Neurilemmoma surgery, Tongue Neoplasms diagnosis, Tongue Neoplasms pathology, Tongue Neoplasms surgery
Abstract

We report the case of an 11-year-old girl with difficultly speaking and a history of singular, self-limiting oral bleeding. Clinical and radiological examination in the emergency room showed a vascularized tumor of the base of the tongue, which almost completely occluded the oropharynx. After complex anesthesiologic preparation and endoluminal embolization, the tumor was safely removed by transoral laser microsurgery. Histology revealed a rare benign schwannoma of the oropharynx. Further clinical examinations and genetic screening were recommended., (© 2022. The Author(s), under exclusive licence to Springer Medizin Verlag GmbH, ein Teil von Springer Nature.)

Published
2022
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24. Intravital calcium imaging in myeloid leukocytes identifies calcium frequency spectra as indicators of functional states.

Author

Mehari FT, Miller M, Pick R, Bader A, Pekayvaz K, Napoli M, Uhl B, Reichel CA, Sperandio M, Walzog B, Schulz C, Massberg S, and Stark K

Subjects
Animals, Calcium Signaling, Inflammation, Intravital Microscopy methods, Mice, Calcium metabolism, Leukocytes metabolism
Abstract

The assessment of leukocyte activation in vivo is mainly based on surrogate parameters, such as cell shape changes and migration patterns. Consequently, additional parameters are required to dissect the complex spatiotemporal activation of leukocytes during inflammation. Here, we showed that intravital microscopy of myeloid leukocyte Ca 2+ signals with Ca 2+ reporter mouse strains combined with bioinformatic signal analysis provided a tool to assess their activation in vivo. We demonstrated by two-photon microscopy that tissue-resident macrophages reacted to sterile inflammation in the cremaster muscle with Ca 2+ transients in a distinct spatiotemporal pattern. Moreover, through high-resolution, intravital spinning disk confocal microscopy, we identified the intracellular Ca 2+ signaling patterns of neutrophils during the migration cascade in vivo. These patterns were modulated by the Ca 2+ channel Orai1 and Gα i -coupled GPCRs, whose effects were evident through analysis of the range of frequencies of the Ca 2+ signal (frequency spectra), which provided insights into the complex patterns of leukocyte Ca 2+ oscillations. Together, these findings establish Ca 2+ frequency spectra as an additional dimension to assess leukocyte activation and migration during inflammation in vivo.

Published
2022
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26. Liquid BIOpsy for MiNimal RESidual DiSease Detection in Head and Neck Squamous Cell Carcinoma (LIONESS)-a personalised circulating tumour DNA analysis in head and neck squamous cell carcinoma.

Author

Flach S, Howarth K, Hackinger S, Pipinikas C, Ellis P, McLay K, Marsico G, Forshew T, Walz C, Reichel CA, Gires O, Canis M, and Baumeister P

Subjects
Biomarkers, Tumor genetics, Humans, Liquid Biopsy, Neoplasm, Residual genetics, Prospective Studies, Squamous Cell Carcinoma of Head and Neck genetics, Squamous Cell Carcinoma of Head and Neck surgery, Circulating Tumor DNA genetics, Head and Neck Neoplasms diagnosis, Head and Neck Neoplasms genetics, Head and Neck Neoplasms surgery
Abstract

Background: Head and neck squamous cell carcinoma (HNSCC) remain a substantial burden to global health. Cell-free circulating tumour DNA (ctDNA) is an emerging biomarker but has not been studied sufficiently in HNSCC., Methods: We conducted a single-centre prospective cohort study to investigate ctDNA in patients with p16-negative HNSCC who received curative-intent primary surgical treatment. Whole-exome sequencing was performed on formalin-fixed paraffin-embedded (FFPE) tumour tissue. We utilised RaDaR TM , a highly sensitive personalised assay using deep sequencing for tumour-specific variants, to analyse serial pre- and post-operative plasma samples for evidence of minimal residual disease and recurrence., Results: In 17 patients analysed, personalised panels were designed to detect 34 to 52 somatic variants. Data show ctDNA detection in baseline samples taken prior to surgery in 17 of 17 patients. In post-surgery samples, ctDNA could be detected at levels as low as 0.0006% variant allele frequency. In all cases with clinical recurrence to date, ctDNA was detected prior to progression, with lead times ranging from 108 to 253 days., Conclusions: This study illustrates the potential of ctDNA as a biomarker for detecting minimal residual disease and recurrence in HNSCC and demonstrates the feasibility of personalised ctDNA assays for the detection of disease prior to clinical recurrence., (© 2022. The Author(s).)

Published
2022
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27. [Artificial intelligence in otorhinolaryngology].

Author

Haider SP, Sharaf K, Baumeister P, and Reichel CA

Subjects
Algorithms, Artificial Intelligence, Forecasting, Medicine, Otolaryngology
Abstract

Background: The continued advancement of digitalization increasingly allows deployment of artificial intelligence (AI) algorithms, leveraging profound effects on society and medicine., Objective: This article aims to provide an overview of current developments and futures perspectives of AI in otorhinolaryngology., Materials and Methods: Scientific studies and expert analyses were evaluated and discussed., Results: AI can increase the value of current diagnostic tools in otorhinolaryngology and enhance surgical precision in head and neck surgery., Conclusion: AI has the potential to further improve diagnostic and therapeutic procedures in otorhinolaryngology. This technology, however, is associated with challenges, for example in the domain of privacy and data security., (© 2021. The Author(s).)

Published
2022
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28. Uncoupled biological and chronological aging of neutrophils in cancer promotes tumor progression.

Author

Mittmann LA, Haring F, Schaubächer JB, Hennel R, Smiljanov B, Zuchtriegel G, Canis M, Gires O, Krombach F, Holdt L, Brandau S, Vogl T, Lauber K, Uhl B, and Reichel CA

Subjects
Animals, Carcinoma, Squamous Cell immunology, Carcinoma, Squamous Cell metabolism, Chemokine CXCL2 genetics, Chemokine CXCL2 metabolism, Female, Inflammation immunology, Inflammation metabolism, Male, Mice, Mice, Inbred BALB C, Mice, Inbred C3H, Receptors, CXCR4 genetics, Receptors, CXCR4 metabolism, Receptors, Formyl Peptide genetics, Receptors, Formyl Peptide metabolism, Receptors, Interleukin-8B genetics, Aging, Carcinoma, Squamous Cell pathology, Inflammation pathology, Neovascularization, Pathologic, Neutrophils immunology, Receptors, Interleukin-8B metabolism
Abstract

Background: Beyond their fundamental role in homeostasis and host defense, neutrophilic granulocytes (neutrophils) are increasingly recognized to contribute to the pathogenesis of malignant tumors. Recently, aging of mature neutrophils in the systemic circulation has been identified to be critical for these immune cells to properly unfold their homeostatic and anti-infectious functional properties. The role of neutrophil aging in cancer remains largely obscure., Methods: Employing advanced in vivo microscopy techniques in different animal models of cancer as well as utilizing pulse-labeling and cell transfer approaches, various ex vivo / in vitro assays, and human data, we sought to define the functional relevance of neutrophil aging in cancer., Results: Here, we show that signals released during early tumor growth accelerate biological aging of circulating neutrophils, hence uncoupling biological from chronological aging of these immune cells. This facilitates the accumulation of highly reactive neutrophils in malignant lesions and endows them with potent protumorigenic functions, thus promoting tumor progression. Counteracting uncoupled biological aging of circulating neutrophils by blocking the chemokine receptor CXCR2 effectively suppressed tumor growth., Conclusions: Our data uncover a self-sustaining mechanism of malignant neoplasms in fostering protumorigenic phenotypic and functional changes in circulating neutrophils. Interference with this aberrant process might therefore provide a novel, already pharmacologically targetable strategy for cancer immunotherapy., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2021. Re-use permitted under CC BY. Published by BMJ.)

Published
2021
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29. The natural product vioprolide A exerts anti-inflammatory actions through inhibition of its cellular target NOP14 and downregulation of importin-dependent NF-ĸB p65 nuclear translocation.

Author

Burgers LD, Luong B, Li Y, Fabritius MP, Michalakis S, Reichel CA, Müller R, and Fürst R

Subjects
Active Transport, Cell Nucleus, Animals, Cell Adhesion drug effects, Cell Adhesion Molecules metabolism, Cells, Cultured, Choroidal Neovascularization drug therapy, Choroidal Neovascularization immunology, Choroidal Neovascularization metabolism, Choroidal Neovascularization pathology, Coculture Techniques, Disease Models, Animal, Female, Human Umbilical Vein Endothelial Cells immunology, Human Umbilical Vein Endothelial Cells metabolism, Humans, Inflammation immunology, Inflammation metabolism, Karyopherins genetics, Leukocytes immunology, Leukocytes metabolism, Macrophages drug effects, Macrophages immunology, Macrophages metabolism, Mice, Inbred C57BL, Microglia drug effects, Microglia immunology, Microglia metabolism, Nuclear Proteins genetics, Transcription Factor RelA genetics, Mice, Anti-Inflammatory Agents pharmacology, Human Umbilical Vein Endothelial Cells drug effects, Inflammation drug therapy, Karyopherins metabolism, Leukocytes drug effects, Macrocyclic Compounds pharmacology, Nuclear Proteins metabolism, Transcription Factor RelA metabolism, Transendothelial and Transepithelial Migration drug effects
Abstract

Chronic inflammation is characterized by persisting leukocyte infiltration of the affected tissue, which is enabled by activated endothelial cells (ECs). Chronic inflammatory diseases remain a major pharmacotherapeutic challenge, and thus the search for novel drugs and drug targets is an ongoing demand. We have identified the natural product vioprolide A (vioA) to exert anti-inflammatory actions in vivo and in ECs in vitro through inhibition of its cellular target nucleolar protein 14 (NOP14). VioA attenuated the infiltration of microglia and macrophages during laser-induced murine choroidal neovascularization and the leukocyte trafficking through the vascular endothelium in the murine cremaster muscle. Mechanistic studies revealed that vioA downregulates EC adhesion molecules and the tumor necrosis factor receptor (TNFR) 1 by decreasing the de novo protein synthesis in ECs. Most importantly, we found that inhibition of importin-dependent NF-ĸB p65 nuclear translocation is a crucial part of the action of vioA leading to reduced NF-ĸB promotor activity and inflammatory gene expression. Knockdown experiments revealed a causal link between the cellular target NOP14 and the anti-inflammatory action of vioA, classifying the natural product as unique drug lead for anti-inflammatory therapeutics., (Copyright © 2021 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published
2021
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30. Low kindlin-3 levels in osteoclasts of kindlin-3 hypomorphic mice result in osteopetrosis due to leaky sealing zones.

Author

Klapproth S, Richter K, Türk C, Bock T, Bromberger T, Dominik J, Huck K, Pfaller K, Hess MW, Reichel CA, Krüger M, Nakchbandi IA, and Moser M

Subjects
Animals, Bone Matrix, Bone and Bones, Integrins, Mice, Cytoskeletal Proteins genetics, Osteoclasts, Osteopetrosis genetics
Abstract

Osteoclasts form special integrin-mediated adhesion structures called sealing zones that enable them to adhere to and resorb bone. Sealing zones consist of densely packed podosomes tightly interconnected by actin fibers. Their formation requires the presence of the hematopoietic integrin regulator kindlin-3 (also known as Fermt3). In this study, we investigated osteoclasts and their adhesion structures in kindlin-3 hypomorphic mice expressing only 5-10% of the kindlin-3 level of wild-type mice. Low kindlin-3 expression reduces integrin activity, results in impaired osteoclast adhesion and signaling, and delays cell spreading. Despite these defects, in vitro-generated kindlin-3-hypomorphic osteoclast-like cells arrange their podosomes into adhesion patches and belts, but their podosome and actin organization is abnormal. Remarkably, kindlin-3-hypomorphic osteoclasts form sealing zones when cultured on calcified matrix in vitro and on bone surface in vivo. However, functional assays, immunohistochemical staining and electron micrographs of bone sections showed that they fail to seal the resorption lacunae properly, which is required for secreted proteinases to digest bone matrix. This results in mild osteopetrosis. Our study reveals a new, hitherto understudied function of kindlin-3 as an essential organizer of integrin-mediated adhesion structures, such as sealing zones., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2021. Published by The Company of Biologists Ltd.)

Published
2021
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31. Vitronectin stabilizes intravascular adhesion of neutrophils by coordinating β2 integrin clustering.

Author

Zuchtriegel G, Uhl B, Pick R, Ramsauer M, Dominik J, Mittmann LA, Canis M, Kanse S, Sperandio M, Krombach F, and Reichel CA

Subjects
Animals, Cell Adhesion, Cluster Analysis, Endothelial Cells, Mice, Neutrophils, CD18 Antigens, Vitronectin
Abstract

The recruitment of neutrophils from the microvasculature to the site of injury or infection represents a key event in the inflammatory response. Vitronectin (VN) is a multifunctional macromolecule abundantly present in blood and extracellular matrix. The role of this glycoprotein in the extravasation process of circulating neutrophils remains elusive. Employing advanced in vivo/ex vivo imaging techniques in different mouse models as well as in vitro methods, we uncovered a previously unrecognized function of VN in the transition of dynamic to static intravascular interactions of neutrophils with microvascular endothelial cells. These distinct properties of VN require the heteromerization of this glycoprotein with plasminogen activator inhibitor-1 (PAI- 1) on the activated venular endothelium and subsequent interactions of this protein complex with the scavenger receptor low-density lipoprotein receptor-related protein-1 on intravascularly adhering neutrophils. This induces p38 mitogen-activated protein kinases-dependent intracellular signaling events which, in turn, regulates the proper clustering of the b2 integrin lymphocyte function associated antigen-1 on the surface of these immune cells. As a consequence of this molecular interplay, neutrophils become able to stabilize their adhesion to the microvascular endothelium and, subsequently, to extravasate to the perivascular tissue. Hence, endothelial-bound VN-PAI-1 heteromers stabilize intravascular adhesion of neutrophils by coordinating b2 integrin clustering on the surface of these immune cells, thereby effectively controlling neutrophil trafficking to inflamed tissue. Targeting this protein complex might be beneficial for the prevention and treatment of inflammatory pathologies.

Published
2021
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32. Binding of Rap1 and Riam to Talin1 Fine-Tune β2 Integrin Activity During Leukocyte Trafficking.

Author

Bromberger T, Klapproth S, Rohwedder I, Weber J, Pick R, Mittmann L, Min-Weißenhorn SJ, Reichel CA, Scheiermann C, Sperandio M, and Moser M

Subjects
Animals, Mice, Mice, Knockout, Adaptor Proteins, Signal Transducing metabolism, CD18 Antigens metabolism, Leukocyte Rolling physiology, Membrane Proteins metabolism, Talin metabolism, rap1 GTP-Binding Proteins metabolism
Abstract

β2 integrins mediate key processes during leukocyte trafficking. Upon leukocyte activation, the structurally bent β2 integrins change their conformation towards an extended, intermediate and eventually high affinity conformation, which mediate slow leukocyte rolling and firm arrest, respectively. Translocation of talin1 to integrin adhesion sites by interactions with the small GTPase Rap1 and the Rap1 effector Riam precede these processes. Using Rap1 binding mutant talin1 and Riam deficient mice we show a strong Riam-dependent T cell homing process to lymph nodes in adoptive transfer experiments and by intravital microscopy. Moreover, neutrophils from compound mutant mice exhibit strongly increased rolling velocities to inflamed cremaster muscle venules compared to single mutants. Using Hoxb8 cell derived neutrophils generated from the mutant mouse strains, we show that both pathways regulate leukocyte rolling and adhesion synergistically by inducing conformational changes of the β2 integrin ectodomain. Importantly, a simultaneous loss of both pathways results in a rolling phenotype similar to talin1 deficient neutrophils suggesting that β2 integrin regulation primarily occurs via these two pathways., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Bromberger, Klapproth, Rohwedder, Weber, Pick, Mittmann, Min-Weißenhorn, Reichel, Scheiermann, Sperandio and Moser.)

Published
2021
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33. uPA-PAI-1 heteromerization promotes breast cancer progression by attracting tumorigenic neutrophils.

Author

Uhl B, A Mittmann L, Dominik J, Hennel R, Smiljanov B, Haring F, B Schaubächer J, Braun C, Padovan L, Pick R, Canis M, Schulz C, Mack M, Gutjahr E, Sinn P, Heil J, Steiger K, Kanse SM, Weichert W, Sperandio M, Lauber K, Krombach F, and Reichel CA

Subjects
Female, Humans, Lymphatic Metastasis, Plasminogen Activator Inhibitor 1, Urokinase-Type Plasminogen Activator, Breast Neoplasms, Neutrophils
Abstract

High intratumoral levels of urokinase-type plasminogen activator (uPA)-plasminogen activator inhibitor-1 (PAI-1) heteromers predict impaired survival and treatment response in early breast cancer. The pathogenetic role of this protein complex remains obscure. Here, we demonstrate that heteromerization of uPA and PAI-1 multiplies the potential of the single proteins to attract pro-tumorigenic neutrophils. To this end, tumor-released uPA-PAI-1 utilizes very low-density lipoprotein receptor and mitogen-activated protein kinases to initiate a pro-inflammatory program in perivascular macrophages. This enforces neutrophil trafficking to cancerous lesions and skews these immune cells toward a pro-tumorigenic phenotype, thus supporting tumor growth and metastasis. Blockade of uPA-PAI-1 heteromerization by a novel small-molecule inhibitor interfered with these events and effectively prevented tumor progression. Our findings identify a therapeutically targetable, hitherto unknown interplay between hemostasis and innate immunity that drives breast cancer progression. As a personalized immunotherapeutic strategy, blockade of uPA-PAI-1 heteromerization might be particularly beneficial for patients with highly aggressive uPA-PAI-1 high tumors., (© 2021 The Authors. Published under the terms of the CC BY 4.0 license.)

Published
2021
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34. C81-evoked inhibition of the TNFR1-NFκB pathway during inflammatory processes for stabilization of the impaired vascular endothelial barrier for leukocytes.

Author

Krishnathas GM, Strödke B, Mittmann L, Zech T, Berger LM, Reichel CA, Rösser S, Schmid T, Knapp S, Müller S, Bracher F, Fürst R, and Bischoff-Kont I

Subjects
Animals, Cell Communication, Cell Movement, Endothelium, Vascular drug effects, Leukocytes drug effects, Male, Mice, Mice, Inbred C57BL, Signal Transduction, Transcriptome, Carbazoles pharmacology, Cell Adhesion, Endothelium, Vascular physiology, Inflammation immunology, Leukocytes physiology, NF-kappa B antagonists & inhibitors, Receptors, Tumor Necrosis Factor, Type I antagonists & inhibitors
Abstract

Chronic inflammation-related diseases are characterized by persistent leukocyte infiltration into the underlying tissue. The vascular endothelium plays a major role in this pathophysiological condition. Only few therapeutic strategies focus on the vascular endothelium as a major target for an anti-inflammatory approach. In this study, we present the natural compound-derived carbazole derivative C81 as chemical modulator interfering with leukocyte-endothelial cell interactions. An in vivo assay employing intravital microscopy to monitor leukocyte trafficking after C81 treatment in postcapillary venules of a murine cremaster muscle was performed. Moreover, in vitro assays using HUVECs and monocytes were implemented. The impact of C81 on cell adhesion molecules and the NFκB signaling cascade was analyzed in vitro in endothelial cells. Effects of C81 on protein translation were determined by incorporation of a puromycin analog-based approach and polysome profiling. We found that C81 significantly reduced TNF-activated leukocyte trafficking in postcapillary venules. Similar results were obtained in vitro when C81 reduced leukocyte-endothelial cell interactions by down-regulating cell adhesion molecules. Focusing on the NFκB signaling cascade, we found that C81 reduced the activation on multiple levels of the cascade through promoted IκBα recovery by attenuation of IκBα ubiquitination and through reduced protein levels of TNFR1 caused by protein translation inhibition. We suggest that C81 might represent a promising lead compound for interfering with inflammation-related processes in endothelial cells by down-regulation of IκBα ubiquitination on the one hand and inhibition of translation on the other hand without exerting cytotoxic effects., (© 2021 Federation of American Societies for Experimental Biology.)

Published
2021
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35. TNF-α-Inhibition Improves the Biocompatibility of Porous Polyethylene Implants In Vivo.

Author

Hussain T, Gellrich D, Siemer S, Reichel CA, Eckrich J, Dietrich D, Knauer SK, Stauber RH, and Strieth S

Subjects
Animals, Biocompatible Materials, Male, Mice, Mice, Inbred C57BL, Porosity, Prostheses and Implants, Polyethylene, Tumor Necrosis Factor-alpha
Abstract

Background: To improve the biocompatibility of porous polyethylene (PPE) implants and expand their application range for reconstructive surgery in poorly vascularized environments, implants were coated with tumor necrosis factor α (TNFα) inhibitor Etanercept. While approved for systemic application, local application of the drug is a novel experimental approach. Microvascular and mechanical integration as well as parameters of inflammation were analyzed in vivo., Methods: PPE implants were coated with Etanercept and extracellular matrix (ECM) components prior to implantation into dorsal skinfold chambers of C57BL/6 mice. Fluorescence microscopy analyses of angiogenesis and local inflammatory response were thrice performed in vivo over a period of 14 days to assess tissue integration and biocompatibility. Uncoated implants and ECM-coated implants served as controls., Results: TNFα inhibition with Etanercept led to a reduced local inflammatory response: leukocyte-endothelial cell adherence was significantly lowered compared to both control groups (n = 6/group) on days 3 and 14, where the lowest values were reached: 3573.88 leukocytes/mm-2 ± 880.16 (uncoated implants) vs. 3939.09 mm-2 ± 623.34 (Matrigel only) vs. 637.98 mm-2 + 176.85 (Matrigel and Etanercept). Implant-coating with Matrigel alone and Matrigel and Etanercept led to significantly higher vessel densities 7 and 14 days vs. 3 days after implantation and compared to uncoated implants. Mechanical implant integration as measured by dynamic breaking strength did not differ after 14 days., Conclusion: Our data show a reduced local inflammatory response to PPE implants after immunomodulatory coating with Etanercept in vivo, suggesting improved biocompatibility. Application of this tissue engineering approach is therefore warranted in models of a compromised host environment.

Published
2021
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36. Rare Diseases of the Oral Cavity, Neck, and Pharynx.

Author

Reichel CA

Subjects
Humans, Incidence, Mouth, Precision Medicine, Pharynx, Rare Diseases therapy
Abstract

Diseases occurring with an incidence of less than 1-10 cases per 10 000 individuals are considered as rare. Currently, between 5 000 and 8 000 rare or orphan diseases are known, every year about 250 rare diseases are newly described. Many of those pathologies concern the head and neck area. In many cases, a long time is required to diagnose an orphan disease. The lives of patients who are affected by those diseases are often determined by medical consultations and inpatient stays. Most orphan diseases are of genetic origin and cannot be cured despite medical progress. However, during the last years, the perception of and the knowledge about rare diseases has increased also due to the fact that publicly available databases have been created and self-help groups have been established which foster the autonomy of affected people. Only recently, innovative technical progress in the field of biogenetics allows individually characterizing the genetic origin of rare diseases in single patients. Based on this, it should be possible in the near future to elaborate tailored treatment concepts for patients suffering from rare diseases in the sense of translational and personalized medicine. This article deals with orphan diseases of the lip, oral cavity, pharynx, and cervical soft tissues depicting these developments. The readers will be provided with a compact overview about selected diseases of these anatomical regions. References to further information for medical staff and affected patients support deeper knowledge and lead to the current state of knowledge in this highly dynamic field., Competing Interests: Die Autorinnen/Autoren geben an, dass kein Interessenkonflikt besteht., (The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial-License, permitting copying and reproduction so long as the original work is given appropriate credit. Contents may not be used for commercial purposes, or adapted, remixed, transformed or built upon. (https://creativecommons.org/licenses/by-nc-nd/4.0/).)

Published
2021
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37. A Novel Experimental Approach for In Vivo Analyses of the Salivary Gland Microvasculature.

Author

Uhl B, Braun C, Dominik J, Luft J, Canis M, and Reichel CA

Subjects
Animals, Antibodies pharmacology, Flow Cytometry, Inflammation immunology, Inflammation pathology, Leukocytes drug effects, Leukocytes immunology, Male, Mice, Inbred C57BL, Microscopy, Confocal, Microscopy, Fluorescence, Multiphoton, Microvessels drug effects, Microvessels immunology, Microvessels pathology, Phenotype, Signal Transduction, Tumor Necrosis Factor-alpha pharmacology, Mice, Capillary Permeability drug effects, Cell Adhesion Molecules metabolism, Chemotaxis, Leukocyte drug effects, Inflammation metabolism, Leukocyte Rolling drug effects, Leukocytes metabolism, Microvessels metabolism, Submandibular Gland blood supply
Abstract

Microvascular dysfunction plays a fundamental role in the pathogenesis of salivary gland disorders. Restoring and preserving microvascular integrity might therefore represent a promising strategy for the treatment of these pathologies. The mechanisms underlying microvascular dysfunction in salivary glands, however, are still obscure, partly due to the unavailability of adequate in vivo models. Here, we present a novel experimental approach that allows comprehensive in vivo analyses of the salivary gland microvasculature in mice. For this purpose, we employed different microscopy techniques including multi-photon in vivo microscopy to quantitatively analyze interactions of distinct immune cell subsets in the submandibular gland microvasculature required for their infiltration into the surrounding parenchyma and their effects on microvascular function. Confocal microscopy and multi-channel flow cytometry in tissue sections/homogenates complemented these real-time analyses by determining the molecular phenotype of the participating cells. To this end, we identified key adhesion and signaling molecules that regulate the subset- and tissue-specific trafficking of leukocytes into inflamed glands and control the associated microvascular leakage. Hence, we established an experimental approach that allows in vivo analyses of microvascular processes in healthy and diseased salivary glands. This enables us to delineate distinct pathogenetic factors as novel therapeutic targets in salivary gland diseases., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Uhl, Braun, Dominik, Luft, Canis and Reichel.)

Published
2021
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38. Extratubular Polymerized Uromodulin Induces Leukocyte Recruitment and Inflammation In Vivo .

Author

Immler R, Lange-Sperandio B, Steffen T, Beck H, Rohwedder I, Roth J, Napoli M, Hupel G, Pfister F, Popper B, Uhl B, Mannell H, Reichel CA, Vielhauer V, Scherberich J, Sperandio M, and Pruenster M

Subjects
Abdominal Muscles immunology, Animals, Cell Adhesion Molecules metabolism, Cells, Cultured, Female, Human Umbilical Vein Endothelial Cells metabolism, Human Umbilical Vein Endothelial Cells physiology, Humans, Kidney Diseases immunology, Male, Mice, Inbred C57BL, Polymerization, Inflammation immunology, Leukocytes immunology, Uromodulin immunology
Abstract

Uromodulin (UMOD) is produced and secreted by tubular epithelial cells. Secreted UMOD polymerizes (pUMOD) in the tubular lumen, where it regulates salt transport and protects the kidney from bacteria and stone formation. Under various pathological conditions, pUMOD accumulates within the tubular lumen and reaches extratubular sites where it may interact with renal interstitial cells. Here, we investigated the potential of extratubular pUMOD to act as a damage associated molecular pattern (DAMP) molecule thereby creating local inflammation. We found that intrascrotal and intraperitoneal injection of pUMOD induced leukocyte recruitment in vivo and led to TNF-α secretion by F4/80 positive macrophages. Additionally, pUMOD directly affected vascular permeability and increased neutrophil extravasation independent of macrophage-released TNF-α. Interestingly, pUMOD displayed no chemotactic properties on neutrophils, did not directly activate β2 integrins and did not upregulate adhesion molecules on endothelial cells. In obstructed neonatal murine kidneys, we observed extratubular UMOD accumulation in the renal interstitium with tubular atrophy and leukocyte infiltrates. Finally, we found extratubular UMOD deposits associated with peritubular leukocyte infiltration in kidneys from patients with inflammatory kidney diseases. Taken together, we identified extratubular pUMOD as a strong inducer of leukocyte recruitment, underlining its critical role in mounting an inflammatory response in various kidneys pathologies., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2020 Immler, Lange-Sperandio, Steffen, Beck, Rohwedder, Roth, Napoli, Hupel, Pfister, Popper, Uhl, Mannell, Reichel, Vielhauer, Scherberich, Sperandio and Pruenster.)

Published
2020
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39. Vascular surveillance by haptotactic blood platelets in inflammation and infection.

Author

Nicolai L, Schiefelbein K, Lipsky S, Leunig A, Hoffknecht M, Pekayvaz K, Raude B, Marx C, Ehrlich A, Pircher J, Zhang Z, Saleh I, Marel AK, Löf A, Petzold T, Lorenz M, Stark K, Pick R, Rosenberger G, Weckbach L, Uhl B, Xia S, Reichel CA, Walzog B, Schulz C, Zheden V, Bender M, Li R, Massberg S, and Gaertner F

Subjects
Actin-Related Protein 2-3 Complex metabolism, Adult, Animals, Cell Movement, Cellular Microenvironment, Disease Models, Animal, Fibrinogen metabolism, Humans, Lipopolysaccharides, Lung Injury microbiology, Lung Injury pathology, Methicillin-Resistant Staphylococcus aureus physiology, Mice, Inbred C57BL, Microvessels pathology, Pneumonia microbiology, Pseudopodia metabolism, Blood Platelets pathology, Blood Vessels pathology, Chemotaxis, Inflammation pathology, Pneumonia blood
Abstract

Breakdown of vascular barriers is a major complication of inflammatory diseases. Anucleate platelets form blood-clots during thrombosis, but also play a crucial role in inflammation. While spatio-temporal dynamics of clot formation are well characterized, the cell-biological mechanisms of platelet recruitment to inflammatory micro-environments remain incompletely understood. Here we identify Arp2/3-dependent lamellipodia formation as a prominent morphological feature of immune-responsive platelets. Platelets use lamellipodia to scan for fibrin(ogen) deposited on the inflamed vasculature and to directionally spread, to polarize and to govern haptotactic migration along gradients of the adhesive ligand. Platelet-specific abrogation of Arp2/3 interferes with haptotactic repositioning of platelets to microlesions, thus impairing vascular sealing and provoking inflammatory microbleeding. During infection, haptotaxis promotes capture of bacteria and prevents hematogenic dissemination, rendering platelets gate-keepers of the inflamed microvasculature. Consequently, these findings identify haptotaxis as a key effector function of immune-responsive platelets.

Published
2020
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40. Priming of Anti-tumor Immune Mechanisms by Radiotherapy Is Augmented by Inhibition of Heat Shock Protein 90.

Author

Ernst A, Hennel R, Krombach J, Kapfhammer H, Brix N, Zuchtriegel G, Uhl B, Reichel CA, Frey B, Gaipl US, Winssinger N, Shirasawa S, Sasazuki T, Sperandio M, Belka C, and Lauber K

Abstract

Radiotherapy is an essential part of multi-modal cancer therapy. Nevertheless, for certain cancer entities such as colorectal cancer (CRC) the indications of radiotherapy are limited due to anatomical peculiarities and high radiosensitivity of the surrounding normal tissue. The development of molecularly targeted, combined modality approaches may help to overcome these limitations. Preferably, such strategies should not only enhance radiation-induced tumor cell killing and the abrogation of tumor cell clonogenicity, but should also support the stimulation of anti-tumor immune mechanisms - a phenomenon which moved into the center of interest of preclinical and clinical research in radiation oncology within the last decade. The present study focuses on inhibition of heat shock protein 90 (HSP90) whose combination with radiotherapy has previously been reported to exhibit convincing therapeutic synergism in different preclinical cancer models. By employing in vitro and in vivo analyses, we examined if this therapeutic synergism also applies to the priming of anti-tumor immune mechanisms in model systems of CRC. Our results indicate that the combination of HSP90 inhibitor treatment and ionizing irradiation induced apoptosis in colorectal cancer cells with accelerated transit into secondary necrosis in a hyperactive Kras-dependent manner. During secondary necrosis, dying cancer cells released different classes of damage-associated molecular patterns (DAMPs) that stimulated migration and recruitment of monocytic cells in vitro and in vivo . Additionally, these dying cancer cell-derived DAMPs enforced the differentiation of a monocyte-derived antigen presenting cell (APC) phenotype which potently triggered the priming of allogeneic T cell responses in vitro . In summary, HSP90 inhibition - apart from its radiosensitizing potential - obviously enables and supports the initial steps of anti-tumor immune priming upon radiotherapy and thus represents a promising partner for combined modality approaches. The therapeutic performance of such strategies requires further in-depth analyses, especially for but not only limited to CRC., (Copyright © 2020 Ernst, Hennel, Krombach, Kapfhammer, Brix, Zuchtriegel, Uhl, Reichel, Frey, Gaipl, Winssinger, Shirasawa, Sasazuki, Sperandio, Belka and Lauber.)

Published
2020
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41. Complex human adenoid tissue-based ex vivo culture systems reveal anti-inflammatory drug effects on germinal center T and B cells.

Author

Schmidt A, Huber JE, Sercan Alp Ö, Gürkov R, Reichel CA, Herrmann M, Keppler OT, Leeuw T, and Baumjohann D

Subjects
Adenoids cytology, B-Lymphocytes drug effects, Cells, Cultured, Child, Child, Preschool, Germinal Center cytology, Humans, Immunophenotyping methods, Interleukins genetics, Interleukins metabolism, Janus Kinases metabolism, Proto-Oncogene Proteins c-bcl-6 metabolism, T Follicular Helper Cells drug effects, Tissue Culture Techniques methods, Tumor Necrosis Factor-alpha genetics, Tumor Necrosis Factor-alpha metabolism, Adenoids immunology, Anti-Inflammatory Agents pharmacology, B-Lymphocytes immunology, Germinal Center immunology, T Follicular Helper Cells immunology
Abstract

Background: Human immunology research is often limited to peripheral blood. However, there are important differences between blood immune cells and their counterparts residing in secondary lymphoid organs, such as in the case of germinal center (GC) T follicular helper (Tfh) cells and GC B cells., Methods: We developed a versatile ex vivo lymphoid organ culture platform that is based on human pharyngeal tonsils (adenoids) and allows for drug testing. We systematically phenotyped Tfh and GC B cell subsets in explant- and suspension cultures using multicolor flow cytometry and cytokine multiplex analysis., Findings: Phenotypic changes of certain ex vivo cultured immune cell subsets could be modulated by cytokine addition. Furthermore, we optimized an activation-induced marker assay to evaluate the response to T cell stimulation. We provide proof-of-concept that Tfh and GC B cells could be modulated in these cultures by different anti-inflammatory drugs in unstimulated states and upon activation with vaccine-derived antigens. For example, GC B cells were lost upon CD40L blockade, and clinically approved JAK inhibitors impacted Tfh and GC B cells, including down-regulation of their key transcription factor BCL6. BCL6 regulation was affected by IL-6 signaling in T cells and IL-4 in B cells, respectively. Furthermore, we demonstrated that JAK signaling and TNF signaling contributed to the stimulation-induced activation of tonsil-derived T cells., Interpretation: Our optimized methods, assays, and mechanistic findings can contribute to a better understanding of human GC responses. These insights may be relevant for improving autoimmune disease therapy and vaccination efficacy., Funding: This work was supported by a project grant under the joint research cooperation agreement of LMU Munich, LMU University Hospital, and Sanofi-Aventis Deutschland GmbH, as well as by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) - Emmy Noether Programme BA 5132/1-1 and BA 5132/1-2 (252623821), SFB 1054 Project B12 (210592381), and SFB 914 Project B03 (165054336)., (Copyright © 2020 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2020
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42. Salivary Gland Disorders in Children and Adolescents: A 15-year Experience.

Author

Gellrich D, Bichler M, Reichel CA, Schrötzlmair F, and Zengel P

Abstract

Introduction  Diseases of the salivary glands are rare in children and adolescents, with the exception of viral-induced infections. Objective  To determine the clinical course of the disease, the diagnostic procedures, the treatment and the outcome of all children and adolescents affected with salivary gland diseases at our clinic over a period of 15 years. Methods  A retrospective chart review including a long-term follow-up was conducted among 146 children and adolescents treated for salivary gland disorders from 2002 to 2016. Results  Diagnosing acute sialadenitis was easily managed by all doctors regardless of their specialty. The diagnosis of sialolithiasis was rapidly made only by otorhinolaryngologists, whereas diagnosing juvenile recurrent parotitis imposed difficulties to doctors of all specialties - resulting in a significant delay between the first occurrence of symptoms and the correct diagnosis. The severity-adjusted treatment yielded improvements in all cases, and a full recovery of 75% of the cases of sialolithiasis, 73% of the cases of juvenile recurrent parotitis, and 100% of the cases of acute sialadenitis. Conclusions  Due to their low prevalence and the lack of pathognomonic symptoms, salivary gland diseases in children and adolescents are often misdiagnosed, resulting in an unnecessarily long period of suffering despite a favorable outcome following the correct treatment., Competing Interests: Conflicts of Interest The authors have none to declare.

Published
2020
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43. Neutrophils promote venular thrombosis by shaping the rheological environment for platelet aggregation.

Author

Puhr-Westerheide D, Schink SJ, Fabritius M, Mittmann L, Hessenauer MET, Pircher J, Zuchtriegel G, Uhl B, Holzer M, Massberg S, Krombach F, and Reichel CA

Subjects
Animals, Blood Platelets metabolism, CD40 Antigens deficiency, CD40 Antigens genetics, CD40 Ligand deficiency, CD40 Ligand genetics, Lipopolysaccharides toxicity, Male, Mice, Mice, Inbred C57BL, Microfluidics instrumentation, Microfluidics methods, Microscopy, Fluorescence, Microvessels drug effects, Microvessels pathology, Neutrophils immunology, Platelet Adhesiveness drug effects, Platelet Glycoprotein GPIb-IX Complex metabolism, Rheology, Thrombosis metabolism, von Willebrand Factor metabolism, Blood Platelets physiology, Neutrophils physiology, Platelet Aggregation physiology, Thrombosis pathology
Abstract

In advanced inflammatory disease, microvascular thrombosis leads to the interruption of blood supply and provokes ischemic tissue injury. Recently, intravascularly adherent leukocytes have been reported to shape the blood flow in their immediate vascular environment. Whether these rheological effects are relevant for microvascular thrombogenesis remains elusive. Employing multi-channel in vivo microscopy, analyses in microfluidic devices, and computational modeling, we identified a previously unanticipated role of leukocytes for microvascular clot formation in inflamed tissue. For this purpose, neutrophils adhere at distinct sites in the microvasculature where these immune cells effectively promote thrombosis by shaping the rheological environment for platelet aggregation. In contrast to larger (lower-shear) vessels, this process in high-shear microvessels does not require fibrin generation or extracellular trap formation, but involves GPIbα-vWF and CD40-CD40L-dependent platelet interactions. Conversely, interference with these cellular interactions substantially compromises microvascular clotting. Thus, leukocytes shape the rheological environment in the inflamed venular microvasculature for platelet aggregation thereby effectively promoting the formation of blood clots. Targeting this specific crosstalk between the immune system and the hemostatic system might be instrumental for the prevention and treatment of microvascular thromboembolic pathologies, which are inaccessible to invasive revascularization strategies.

Published
2019
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44. Artery-Associated Sympathetic Innervation Drives Rhythmic Vascular Inflammation of Arteries and Veins.

Author

de Juan A, Ince LM, Pick R, Chen CS, Molica F, Zuchtriegel G, Wang C, Zhang D, Druzd D, Hessenauer MET, Pelli G, Kolbe I, Oster H, Prophete C, Hergenhan SM, Albrecht U, Ripperger J, Montanez E, Reichel CA, Soehnlein O, Kwak BR, Frenette PS, and Scheiermann C

Subjects
Animals, Arteries innervation, Arteries pathology, Cell Adhesion, Cells, Cultured, Circadian Clocks, Endothelium, Vascular pathology, Gene Expression Regulation, Humans, Intravital Microscopy, Mice, Mice, Inbred C57BL, Mice, Knockout, Periodicity, Receptors, Adrenergic, beta-2 metabolism, Sympathetic Nervous System, Tumor Necrosis Factor-alpha metabolism, Veins innervation, Veins pathology, Arteries immunology, Endothelium, Vascular metabolism, Inflammation immunology, Leukocytes physiology, Thrombosis physiopathology, Veins immunology
Abstract

Background: The incidence of acute cardiovascular complications is highly time-of-day dependent. However, the mechanisms driving rhythmicity of ischemic vascular events are unknown. Although enhanced numbers of leukocytes have been linked to an increased risk of cardiovascular complications, the role that rhythmic leukocyte adhesion plays in different vascular beds has not been studied., Methods: We evaluated leukocyte recruitment in vivo by using real-time multichannel fluorescence intravital microscopy of a tumor necrosis factor-α-induced acute inflammation model in both murine arterial and venous macrovasculature and microvasculature. These approaches were complemented with genetic, surgical, and pharmacological ablation of sympathetic nerves or adrenergic receptors to assess their relevance for rhythmic leukocyte adhesion. In addition, we genetically targeted the key circadian clock gene Bmal1 (also known as Arntl ) in a lineage-specific manner to dissect the importance of oscillations in leukocytes and components of the vessel wall in this process., Results: In vivo quantitative imaging analyses of acute inflammation revealed a 24-hour rhythm in leukocyte recruitment to arteries and veins of the mouse macrovasculature and microvasculature. Unexpectedly, although in arteries leukocyte adhesion was highest in the morning, it peaked at night in veins. This phase shift was governed by a rhythmic microenvironment and a vessel type-specific oscillatory pattern in the expression of promigratory molecules. Differences in cell adhesion molecules and leukocyte adhesion were ablated when disrupting sympathetic nerves, demonstrating their critical role in this process and the importance of β 2 -adrenergic receptor signaling. Loss of the core clock gene Bmal1 in leukocytes, endothelial cells, or arterial mural cells affected the oscillations in a vessel type-specific manner. Rhythmicity in the intravascular reactivity of adherent leukocytes resulted in increased interactions with platelets in the morning in arteries and in veins at night with a higher predisposition to acute thrombosis at different times as a consequence., Conclusions: Together, our findings point to an important and previously unrecognized role of artery-associated sympathetic innervation in governing rhythmicity in vascular inflammation in both arteries and veins and its potential implications in the occurrence of time-of-day-dependent vessel type-specific thrombotic events.

Published
2019
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45. Narciclasine exerts anti-inflammatory actions by blocking leukocyte-endothelial cell interactions and down-regulation of the endothelial TNF receptor 1.

Author

Stark A, Schwenk R, Wack G, Zuchtriegel G, Hatemler MG, Bräutigam J, Schmidtko A, Reichel CA, Bischoff I, and Fürst R

Subjects
Animals, Cell Movement, Cells, Cultured, Down-Regulation, E-Selectin genetics, E-Selectin metabolism, Female, Human Umbilical Vein Endothelial Cells metabolism, Humans, Intercellular Adhesion Molecule-1 genetics, Intercellular Adhesion Molecule-1 metabolism, Jurkat Cells, Mice, Mice, Inbred C57BL, NF-kappa B metabolism, Receptors, Tumor Necrosis Factor, Type I genetics, THP-1 Cells, Vascular Cell Adhesion Molecule-1 genetics, Vascular Cell Adhesion Molecule-1 metabolism, Amaryllidaceae Alkaloids pharmacology, Anti-Inflammatory Agents pharmacology, Cell Adhesion, Human Umbilical Vein Endothelial Cells drug effects, Phenanthridines pharmacology, Receptors, Tumor Necrosis Factor, Type I metabolism
Abstract

The alkaloid narciclasine has been characterized extensively as an anticancer compound. Accumulating evidence suggests that narciclasine has anti-inflammatory potential; however, the underlying mechanism remains poorly understood. We hypothesized that narciclasine affects the activation of endothelial cells (ECs), a hallmark of inflammatory processes, which is a prerequisite for leukocyte-EC interaction. Thus, we aimed to investigate narciclasine's action on this process in vivo and to analyze the underlying mechanisms in vitro . In a murine peritonitis model, narciclasine reduced leukocyte infiltration, proinflammatory cytokine expression, and inflammation-associated abdominal pain. Moreover, narciclasine decreased rolling and blocked adhesion and transmigration of leukocytes in vivo . In cultured ECs, narciclasine inhibited the expression of cell adhesion molecules intercellular adhesion molecule-1, vascular cell adhesion molecule-1, and E-selectin and blocked crucial steps of the NF-κB activation cascade: NF-κB promotor activity, p65 nuclear translocation, inhibitor of κB α (IκBα) phosphorylation and degradation, and IκBα kinase β and TGF-β-activated kinase 1 phosphorylation. Interestingly, these effects were based on the narciclasine-triggered loss of TNF receptor 1 (TNFR1). Our study highlights narciclasine as an interesting anti-inflammatory compound that effectively inhibits the interaction of leukocytes with ECs by blocking endothelial activation processes. Most importantly, we showed that the observed inhibitory action of narciclasine on TNF-triggered signaling pathways is based on the loss of TNFR1.-Stark, A., Schwenk, R., Wack, G., Zuchtriegel, G., Hatemler, M. G., Bräutigam, J., Schmidtko, A., Reichel, C. A., Bischoff, I., Fürst, R. Narciclasine exerts anti-inflammatory actions by blocking leukocyte-endothelial cell interactions and down-regulation of the endothelial TNF receptor 1.

Published
2019
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46. Epithelial-type systemic breast carcinoma cells with a restricted mesenchymal transition are a major source of metastasis.

Author

Liu X, Li J, Cadilha BL, Markota A, Voigt C, Huang Z, Lin PP, Wang DD, Dai J, Kranz G, Krandick A, Libl D, Zitzelsberger H, Zagorski I, Braselmann H, Pan M, Zhu S, Huang Y, Niedermeyer S, Reichel CA, Uhl B, Briukhovetska D, Suárez J, Kobold S, Gires O, and Wang H

Subjects
Animals, Biomarkers, Tumor metabolism, Breast Neoplasms metabolism, Cell Line, Epithelial Cell Adhesion Molecule metabolism, Epithelial Cells metabolism, Female, Lung Neoplasms metabolism, Lung Neoplasms pathology, Mice, Prognosis, Breast Neoplasms pathology, Epithelial Cells pathology, Epithelial-Mesenchymal Transition physiology, Neoplasm Metastasis pathology
Abstract

Carcinoma cells undergo epithelial-mesenchymal transition (EMT); however, contributions of EMT heterogeneity to disease progression remain a matter of debate. Here, we addressed the EMT status of ex vivo cultured circulating and disseminated tumor cells (CTCs/DTCs) in a syngeneic mouse model of metastatic breast cancer (MBC). Epithelial-type CTCs with a restricted mesenchymal transition had the strongest lung metastases formation ability, whereas mesenchymal-type CTCs showed limited metastatic ability. EpCAM expression served as a surrogate marker to evaluate the EMT heterogeneity of clinical samples from MBC, including metastases, CTCs, and DTCs. The proportion of epithelial-type CTCs, and especially DTCs, correlated with distant metastases and poorer outcome of patients with MBC. This study fosters our understanding of EMT in metastasis and underpins heterogeneous EMT phenotypes as important parameters for tumor prognosis and treatment. We further suggest that EpCAM-dependent CTC isolation systems will underestimate CTC numbers but will quantify clinically relevant metastatic cells.

Published
2019
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47. [Recent developments in head and neck immunology : A basis for novel therapeutic strategies?]

Author

Reichel CA

Subjects
Head, Humans, Neck, Otolaryngology, Head and Neck Neoplasms immunology, Immunomodulation, Immunotherapy
Abstract

Immunological processes play a key role in the pathogenesis of head and neck pathologies. Besides allergies or infections of the tonsils, the paranasal sinuses, and the ear, initiation, progression, and metastasis of malignant tumors are particularly dependent on the immune system. The recruitment of white blood cells to the site of injury or infection is a critical event in the pathogenesis of these diseases. This article will provide a compact overview about recent developments in this rapidly growing field in otorhinolaryngology which might establish the basis for promising therapeutic strategies for previously insufficiently treatable disorders of the head and neck.

Published
2019
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48. Direct Rap1/Talin1 interaction regulates platelet and neutrophil integrin activity in mice.

Author

Bromberger T, Klapproth S, Rohwedder I, Zhu L, Mittmann L, Reichel CA, Sperandio M, Qin J, and Moser M

Subjects
Animals, Blood Platelets pathology, CD18 Antigens genetics, Cell Adhesion genetics, Hemorrhage genetics, Hemorrhage pathology, Mice, Mice, Mutant Strains, Neutrophils pathology, Phagocytosis genetics, Talin genetics, rap1 GTP-Binding Proteins genetics, Blood Platelets metabolism, CD18 Antigens metabolism, Hemorrhage metabolism, Neutrophils metabolism, Talin metabolism, rap1 GTP-Binding Proteins metabolism
Abstract

Targeting Talin1 to the plasma membrane is a crucial step in integrin activation, which in leukocytes is mediated by a Rap1/RIAM/Talin1 pathway, whereas in platelets, it is RIAM independent. Recent structural, biochemical, and cell biological studies have suggested direct Rap1/Talin1 interaction as an alternative mechanism to recruit Talin1 to the membrane and induce integrin activation. To test whether this pathway is of relevance in vivo, we generated Rap1 binding-deficient Talin1 knockin (Tln1 3mut ) mice. Although Tln1 3mut mice showed no obvious abnormalities, their platelets exhibited reduced integrin activation, aggregation, adhesion, and spreading, resulting in prolonged tail-bleeding times and delayed thrombus formation and vessel occlusion in vivo. Surprisingly, neutrophil adhesion to different integrin ligands and β2 integrin-dependent phagocytosis were also significantly impaired, which caused profound leukocyte adhesion and extravasation defects in Tln1 3mut mice. In contrast, macrophages exhibited no defect in adhesion or spreading despite reduced integrin activation. Taken together, our findings suggest that direct Rap1/Talin1 interaction is of particular importance in regulating the activity of different integrin classes expressed on platelets and neutrophils, which both depend on fast and dynamic integrin-mediated responses., (© 2018 by The American Society of Hematology.)

Published
2018
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49. Vitronectin promotes the vascularization of porous polyethylene biomaterials.

Author

Hessenauer MET, Lauber K, Zuchtriegel G, Uhl B, Hussain T, Canis M, Strieth S, Berghaus A, and Reichel CA

Subjects
Animals, Mice, Mice, Knockout, Coated Materials, Biocompatible chemistry, Coated Materials, Biocompatible pharmacology, Implants, Experimental, Neovascularization, Physiologic drug effects, Polyethylene chemistry, Polyethylene pharmacology, Vitronectin chemistry, Vitronectin pharmacology
Abstract

Rapid implant vascularization is a prerequisite for successful biomaterial engraftment. Vitronectin (VN) is a matricellular glycoprotein well known for its capability to interact with growth factors, proteases, and protease inhibitors/receptors. Since such proteins are highly relevant for angiogenic processes, we hypothesized that VN contributes to the tissue integration of biomaterials. Employing different in vivo and ex vivo microscopy techniques, engraftment of porous polyethylene (PPE) implants was analyzed in the dorsal skinfold chamber model in wild-type (WT) and VN -/- mice. Upon PPE implantation, vascularization of this biomaterial was severely compromised in animals lacking this matricellular protein. Proteome profiling revealed that VN deficiency does not cause major changes in angiogenic protein composition in the implants suggesting that VN promotes PPE vascularization via mechanisms modulating the activity of angiogenic factors rather than by directly enriching them in the implant. Consequently, surface coating with recombinant VN (embedded in Matrigel®) accelerated implant vascularization in WT mice by enhancing the maturation of a vascular network. Thus, VN contributes to the engraftment of PPE implants by promoting the vascularization of this biomaterial. Surface coating with VN might provide a promising strategy to improve the vascularization of PPE implants without affecting the host's integrity. STATEMENT OF SIGNIFICANCE: Porous polyethylene (PPE) is a biomaterial frequently used in reconstructive surgery. The proper vascularization of PPE implants is a fundamental prerequisite for its successful engraftment in host tissue. Although the overall biocompatibility of PPE is good, there are less favorable application sites for its use in tissue reconstruction mostly characterized by low blood supply. Employing advanced in vivo microscopy methods and proteomic analyses in genetically engineered mice, we here describe a previously unrecognized function of vitronectin (VN) that enables this abundantly present glycoprotein to particularly promote the vascularization of PPE biomaterial. These properties of VN specifically facilitate the formation of a dense vessel network within the implant which relies on modulating the activity of angiogenic mediators rather than on the enrichment of these factors in the implant. Consequently, surface coating with this matricellular protein effectively accelerated and intensified implant vascularization which might be beneficial for its implementation at unfavorable sites for implantation without affecting the host's integrity., (Copyright © 2018 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published
2018
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50. Priming anti-tumor immunity by radiotherapy: Dying tumor cell-derived DAMPs trigger endothelial cell activation and recruitment of myeloid cells.

Author

Krombach J, Hennel R, Brix N, Orth M, Schoetz U, Ernst A, Schuster J, Zuchtriegel G, Reichel CA, Bierschenk S, Sperandio M, Vogl T, Unkel S, Belka C, and Lauber K

Abstract

The major goal of radiotherapy is the induction of tumor cell death. Additionally, radiotherapy can function as in situ cancer vaccination by exposing tumor antigens and providing adjuvants for anti-tumor immune priming. In this regard, the mode of tumor cell death and the repertoire of released damage-associated molecular patterns (DAMPs) are crucial. However, optimal dosing and fractionation of radiotherapy remain controversial. Here, we examined the initial steps of anti-tumor immune priming by different radiation regimens (20 Gy, 4 × 2 Gy, 2 Gy, 0 Gy) with cell lines of triple-negative breast cancer in vitro and in vivo . Previously, we have shown that especially high single doses (20 Gy) induce a delayed type of primary necrosis with characteristics of mitotic catastrophe and plasma membrane disintegration. Now, we provide evidence that protein DAMPs released by these dying cells stimulate sequential recruitment of neutrophils and monocytes in vivo . Key players in this regard appear to be endothelial cells revealing a distinct state of activation upon exposure to supernatants of irradiated tumor cells as characterized by high surface expression of adhesion molecules and production of a discrete cytokine/chemokine pattern. Furthermore, irradiated tumor cell-derived protein DAMPs enforced differentiation and maturation of dendritic cells as hallmarked by upregulation of co-stimulatory molecules and improved T cell-priming. Consistently, a recurring pattern was observed: The strongest effects were detected with 20 Gy-irradiated cells. Obviously, the initial steps of radiotherapy-induced anti-tumor immune priming are preferentially triggered by high single doses - at least in models of triple-negative breast cancer.

Published
2018
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