Your search keyword '"S Hippenstiel"' showing total 191 results

1. A phage cocktail against Pseudomonas aeruginosa lung infection: results from experimental studies

Author

M C Brack, M Vollgraf, G Nouailles, I Korf, S Wienecke, A Dannheim, H Ziehr, J Bushe, A Voss, A D Gruber, A C Hocke, S Hippenstiel, M Toennies, J Lienau, M Rohde, C Rohde, S Wienhold, and M Witzenrath

Published

2022

2. Integrational approaches for cross-species analysis of lung pathologies at single-cell resolution

Author

P Pennitz, H Kirsten, E Wyler, C Goekeri, B Obermayer, G A Heinz, M F Mashreghi, J Trimpert, M Landthaler, N Suttorp, A C Hocke, S Hippenstiel, M Tönnies, M Scholz, W M Kuebler, M Witzenrath, K Hoenzke, and G Nouailles

Published

2022

3. Phage4Cure – ex vivo and in vivo efficacy testing of a phage cocktail against Pseudomonas aeruginosa

Author

M C Brack, M Vollgraf, G Nouailles, I Korf, S Wienecke, A Dannheim, H Ziehr, J Bushe, A Voss, A D Gruber, A C Hocke, S Hippenstiel, M Tönnies, J Lienau, M Rohde, C Rohde, S M Wienhold, and M Witzenrath

Published

2022

4. Impact of the myeloid Krüppel like factor4 during pneumococcal pneumonia

Author

A Bhattacharyya, C Bollensdorf, R Hengge, S Hippenstiel, and J Zahlten

Subjects

Myeloid, business.industry, Neutrophile, fungi, medicine.disease, medicine.disease_cause, Molecular biology, medicine.anatomical_structure, stomatognathic system, embryonic structures, Pneumococcal pneumonia, Streptococcus pneumoniae, medicine, sense organs, biological phenomena, cell phenomena, and immunity, business, Platelet factor 4

Abstract

Bakterielle Pneumonien sind weltweit eine der haufigsten Todesursachen und S. pneumoniae ist das haufigste klinische Isolat. Neutrophile Granulozyten gehoren zur Klasse der myeloiden Zellen und sind eine wichtige Komponente der angeborenen Immunitat gegen bakterielle Infektionen. Kruppel-like factor 4 (KLF4) spielt dabei nicht nur eine Rolle in der Differenzierung der Zellen des Immunsystems, sondern auch wahrend der Infektion bei der Vermittlung inflammatorischer Signale in unterschiedlichen Zelltypen. Diese Studie zeigt zum ersten Mal in vivo, dass myeloides KLF4 Einfluss auf den Krankheitsverlauf hat und die mit einer bakteriellen Pneumonie einhergehende Entzundungsreaktion reguliert. Die hier aufgefuhrten Ergebnisse demonstrieren, dass der Transkriptionsfaktor KLF4 wahrend einer Pneumokokken Pneumonie in humanen und murinen neutrophilen Granulozyten induziert wird. Diese Induktion ist Zeit- und Dosisabhangig. Auserdem wird die Expression von myeloidem KLF4 durch die Autolyse von S. pneumoniae reguliert, aber nicht uber Toll-like Rezeptor 2 (TLR2), TLR4 oder TLR9 vermittelt. Studien in einem Maus-Pneumonie Modell zeigen, dass myeloides KLF4 einen proinflammatorischen Phanotyp bewirkt. Mause mit einem KLF4 knockout (KLF4-/-) in myeloiden Zellen haben im Vergleich zu Wildtyp (KLF4+/+) Mausen eine hohere Bakterienlast in Lunge, Blut und Milz. Obwohl die Produktion proinflammatorischer Zytokine (wie TNF-α, IL-1β und KC) in BALF und Plasma von KLF4-/- Mausen geringer war, gab es keine Unterschiede bei der Zellrekrutierung in der BALF von KLF4-/- und KLF4+/+ Mausen. Allerdings war die Zellrekrutierung im Blut der KLF4-/- Mause geringer als bei den KLF4+/+ Mausen. Auserdem wurde eine erhohte vaskulare Permeabilitat verbunden mit perivaskularen Odemen und Pleuritis bei KLF4-/- Mausen wahrend der S. pneumoniae-induzierten Infektion beobachtet. Diese Mause erreichten auch eher die humanen Endpunkte als die vergleichbaren KLF4+/+ Mause.%%%%Bacterial pneumonia is one of the leading causes of death worldwide. Streptococcus pneumoniae is the most frequently isolated pathogen from clinical pneumonia samples. Neutrophils belong to the class of myeloid cells and forms an important component of this innate immune system against bacterial infections. Kruppel-like factor 4 (KLF4) has been reported to not only play a role in differentiation of cells of the immune system but also in mediating inflammatory signals in different kinds of host cells during infection. This study shows myeloid KLF4 has an impact on pneumococcal pneumonia outcome and regulates the inflammation associated with bacterial pneumonia in vivo in mice. The results presented in the work show that the transcription factor KLF4 is induced in human and mice neutrophils during pneumococcal pneumonia. The induction of KLF4 is time and dose dependent. Additionally, the expression of myeloid KLF4 is regulated by the autolysis of S. pneumoniae but is not mediated via Toll-like receptor (TLR) 2, TLR4 or TLR9. Studies using a mouse pneumonia model showed that myeloid KLF4…

Published

2018

5. PGE

Author

F, Neuschäfer-Rube, A, Pathe-Neuschäfer-Rube, S, Hippenstiel, and G P, Püschel

Subjects

THP-1 Cells, Tumor Necrosis Factor-alpha, CCAAT-Enhancer-Binding Protein-beta, Interleukin-8, NF-kappa B, U937 Cells, Dinoprostone, Monocytes, Cell Line, HEK293 Cells, Gene Expression Regulation, Cell Line, Tumor, Leukocytes, Mononuclear, Humans, RNA, Messenger, Cyclic AMP Response Element-Binding Protein, Receptors, Prostaglandin E, EP4 Subtype, Signal Transduction

Abstract

Recent studies suggested a role of prostaglandin EIL-8 mRNA and protein induction as well as IL-8 promoter activity and transcription factor activation were assessed in monocytic cell lines, primary blood mononuclear cells (PBMC) and transgenic HEK293 cells expressing the EP4 receptor.In monocytic cell lines THP-1, MonoMac and U937 PGEThese findings suggest that a combined stimulation of TNFα and PGE

Published

2018

6. Alternative and classic activation of primary macrophages – a systems biology approach

Author

W Bertrams, A Marsico, C Schulz, A Sittka, I Du Bois, M Vingron, N Suttorp, S Hippenstiel, and B Schmeck

Subjects

Pulmonary and Respiratory Medicine

Published

2014

7. Expression und Regulation von Pentraxin 3 bei ambulant erworbener Pneumonie

Author

JM Doehn, K Griß, J Zahlten, D Fatykhova, S Wienhold, HC Müller-Redetzky, O Kershaw, AD Gruber, N Suttorp, H Schütte, AC Hocke, M Witzenrath, S Hippenstiel, and Study Group CAPNETZ

Subjects

Pulmonary and Respiratory Medicine

Published

2014

8. Listeria monocytogenes potently induces up-regulation of endothelial adhesion molecules and neutrophil adhesion to cultured human endothelial cells

Author

M Krüll, R Nöst, S Hippenstiel, E Domann, T Chakraborty, and N Suttorp

Subjects

Immunology, Immunology and Allergy

Abstract

Infection of endothelial cells by Listeria monocytogenes is an essential step in the pathogenesis of listeriosis. Listeriolysin (Hly) is one of its major virulence factors. In the early phase of the disease polymorphonuclear leukocytes (PMN) substantially contribute to the nonspecific anti-listerial resistance. We characterized the effects of L. monocytogenes on the expression of endothelial adhesion molecules and on subsequent PMN adhesion to cultured HUVEC. P-selectin, E-selectin, intracellular adhesion molecule-1 (ICAM-1), and vascular cell adhesion molecule-1 (VCAM-1) were up-regulated in HUVEC after cell incubation with L. monocytogenes (wild type), but not with the nonpathogenic Listeria innocua strain. P-selectin expression peaked after 30 min and could be mimicked with similar kinetics by exposure to L. innocua engineered to produce large amounts of Hly or by addition of purified Hly. Listeriolysin production, however, was not necessary for an up-regulation of E-selectin after 6 h or of ICAM-1 and VCAM-1 after 18 to 24 h in HUVEC, because L. monocytogenes defective for Hly synthesis was almost as effective as the wild type. Listeria-induced up-regulation of endothelial adhesion molecules was accompanied by an increased binding of PMN to infected HUVEC. PMN adhesion was significantly reduced in the presence of anti-beta2 integrin, anti-E-selectin, and anti-ICAM-1, but not anti-VCAM-1 Abs. Our data indicate that infection of endothelial cells with L. monocytogenes induced up-regulation of adhesion molecules by two different mechanisms: a Hly-dependent up-regulation of P-selectin and a Hly-independent expression of E-selectin, ICAM-1, and VCAM-1. The ability of L. monocytogenes to stimulate PMN adhesion to endothelial cells may be an important mechanism in the pathogenesis of severe listeriosis.

Published

1997

9. Escherichia coli hemolysin and Staphylococcus aureas alpha-toxin potently induce neutrophil adhesion to cultured human endothelial cells

Author

M Krüll, C Dold, S Hippenstiel, S Rosseau, J Lohmeyer, and N Suttorp

Subjects

Immunology, Immunology and Allergy

Abstract

Adhesion of polymorphonuclear leukocytes (PMN) to endothelial cells is an essential step in inflammatory reactions. We characterized the effects of two important bacterial exotoxins, Escherichia coli hemolysin (HlyA) and Staphylococcus aureus alpha-toxin (S. alpha-toxin) on PMN adhesion to cultured HUVEC. Both toxins increased adherence of human PMN to HUVEC in a dose- and time-dependent manner, peaking after 30 min at 0.01 hemolytic units/ml HlyA or 0.5 microg/ml S. alpha-toxin. Pretreatment of HUVEC with anti-P-selectin mAbs or of PMN with anti-CD11b/CD18 mAb reduced HlyA- and S. alpha-toxin-related cell adhesion significantly. Increased P-selectin expression on toxin-treated endothelial cells was demonstrated by cell surface ELISA. Compared with endotoxin, HlyA and S. alpha-toxin did not induce the expression of E-selectin, ICAM-1, or VCAM-1. FACS analysis showed increased CD11b/CD18 expression on HlyA-, but not on S. alpha-toxin-stimulated PMN. Platelet-activating factor, an important costimulatory factor for PMN adhesion and activation, was also active in the exotoxin-stimulated adhesion system, as evidenced by studies using the platelet-activating factor receptor antagonist BN50727. HPLC analysis of endothelial cell extracts confirmed enhanced toxin-mediated PAF synthesis. The capacity of exotoxins to stimulate PMN adhesion to endothelial cells may be relevant in patients with severe local or systemic bacterial infections.

Published

1996

10. Sphingosinkinase-1 und Sphingosin-1-Phosphat tragen zur Entstehung des akuten Lungenversagens bei Pneumokokken-Pneumonie

Author

B Gutbier, SM Schönrock, R Haberberger, AC Hocke, S Hippenstiel, A Lüth, B Kleuser, WG Bertrams, K Szymanski, K Reppe, HC Müller, B Schmeck, M Andratsch, TJ Mitchell, H Schütte, K Mayer, N Suttorp, and M Witzenrath

Subjects

Pulmonary and Respiratory Medicine

Published

2011

11. PKC(alpha) and PKC(epsilon) differentially regulate Legionella pneumophila-induced GM-CSF

Author

K, Vardarova, S, Scharf, F, Lang, B, Schmeck, B, Opitz, J, Eitel, A C, Hocke, H, Slevogt, A, Flieger, S, Hippenstiel, N, Suttorp, and P D, N'guessan

Subjects

Protein Kinase C-alpha, Granulocyte-Macrophage Colony-Stimulating Factor, Gene Expression Regulation, Bacterial, Protein Kinase C-epsilon, Epithelium, Gene Expression Regulation, Enzymologic, Toll-Like Receptor 2, Legionella pneumophila, Pulmonary Alveoli, Toll-Like Receptor 5, Cell Line, Tumor, Cytokines, Humans, Protein Isoforms, Transcription Factors

Abstract

Legionella pneumophila is an important causative agent of severe pneumonia in humans. The human alveolar epithelium is an effective barrier for inhaled microorganisms and actively participates in the initiation of innate host defense. Although secretion of granulocyte-macrophage colony-stimulating factor (GM-CSF) is essential for the elimination of invading Legionella spp., mechanisms of Legionella pneumophila-induced release of this cytokine are widely unknown. In this study, we have demonstrated a toll-like receptor (TLR)2- and TLR5-dependent release of GM-CSF in L. pneumophila-infected human alveolar epithelial cells. GM-CSF secretion was not dependent on the bacteria type II or type IV secretion system. Furthermore, an increase in protein kinase C (PKC) activity, particularly PKC(alpha) and PKC(epsilon), was noted. Blocking of PKC(alpha) and PKC(epsilon) activity or expression, but not of PKC(beta), PKC(delta), PKC(eta), PKC(theta), and PKC(zeta), significantly reduced the synthesis of GM-CSF in infected cells. While PKC(alpha) was critical for the initiation of a nuclear factor-kappaB-mediated GM-CSF expression, PKC(epsilon) regulated GM-CSF production via activator protein 1. Thus, differential regulation of GM-CSF, production by PKC isoforms, contributes to the host response in Legionnaires' disease.

Published

2009

12. L. pneumophila induziert Histonmodifikationen in Lungenepithelzellen

Author

B Schmeck, J Lorenz, PD N'Guessan, B Opitz, V van Laak, J Zahlten, H Slevogt, M Witzenrath, A Flieger, N Suttorp, and S Hippenstiel

Subjects

Pulmonary and Respiratory Medicine

Published

2009

13. Adrenomedullin senkt pulmonalvaskuläre Permeabilität und verhindert renale Dysfunktion im Ventilator-induced lung injury

Author

HC Müller, T Tschernig, B Gutbier, S Hippenstiel, M Witzenrath, A Santel, M Kasper, N Suttorp, and S Rosseau

Subjects

Pulmonary and Respiratory Medicine

Published

2009

14. [New aspects of the pathophysiology of pneumonia]

Author

S, Hippenstiel, M, Witzenrath, B, Opitz, H, Schütte, S, Rosseau, and N, Suttorp

Subjects

Neutrophils, Bacterial Toxins, Pulmonary Edema, Pathogene, Wirtsabwehr, Macrophages, Alveolar, Angeborene Immunität, Pneumonia, Bacterial, Humans, Receptors, Immunologic, Host defense, Lung, Inflammation, Innate immunity, Immunity, Cellular, Pulmonary Gas Exchange, Entzündung, Pneumonia, Pneumonia, Pneumococcal, Immunity, Innate, Systemic Inflammatory Response Syndrome, Immunity, Active, Schwerpunkt: Lunge und Infektion, Pneumonie, Pathogens, Signal Transduction

Abstract

Zusammenfassung Pneumonien können zu vital bedrohlichen Störungen der Gasaustauschfunktion der Lunge führen. Bedingt durch die große Vielfalt der Pneumonieerreger wirken unterschiedliche Virulenzfaktoren auf die Lunge ein. Es ist von besonderer Bedeutung, dass neben den direkt pathogenassoziierten Schädigungen eine überschießende Entzündungsreaktion zu Versagen von pulmonaler Barriere und Gasaustauschfunktion führen kann. Neben unspezifischen Abwehrmechanismen kommt rezeptorvermittelter Aktivierung zellgebundener angeborener Immunität eine zentrale Rolle für die pulmonale Immunantwort zu. Pathogenassoziierte Moleküle werden durch transmembranäre und zytosolische Rezeptoren des Wirtes erkannt. Diese Interaktion führt über Signalkaskaden zur Expression immunmodulatorischer Moleküle. Über die adäquate Antibiotikatherapie hinaus müssen innovative Therapieansätze zur Pneumoniebehandlung überschießende Entzündungsreaktionen begrenzen unter gleichzeitiger Unterstützung pulmonaler Abwehrkapazität.

Published

2007

15. Two distinct phospholipases C of Listeria monocytogenes induce ceramide generation, nuclear factor-kappa B activation, and E-selectin expression in human endothelial cells

Author

N, Schwarzer, R, Nöst, J, Seybold, S K, Parida, O, Fuhrmann, M, Krüll, R, Schmidt, R, Newton, S, Hippenstiel, E, Domann, T, Chakraborty, and N, Suttorp

Subjects

Umbilical Veins, Phosphatidylinositol Diacylglycerol-Lyase, NF-kappa B, Ceramides, Listeria monocytogenes, Second Messenger Systems, Up-Regulation, Enzyme Activation, Phosphoinositide Phospholipase C, Type C Phospholipases, Humans, Listeriosis, Endothelium, Vascular, RNA, Messenger, E-Selectin, Cells, Cultured

Abstract

Infection of endothelial cells by Listeria monocytogenes is an essential step in the pathogenesis of listeriosis. We recently reported that L. monocytogenes induces up-regulation of E-selectin and other endothelial adhesion molecules and subsequent polymorphonuclear leukocyte (PMN) adhesion into cultured human endothelial cells. In the present study, we characterized the mechanisms of enhanced E-selectin expression using L. monocytogenes wild type (EGD), the isogenic in-frame deletion mutants for phosphatidylcholine (PC)- and phosphatidylinositol (PI)-specific phospholipases EGD delta plcA and EGD delta plcB, as well as the nonvirulent control strain Listeria innocua. Infection of endothelial cells with EGD delta plcA or EGD delta plcB for 6 h induced, as compared with EGD wild type, intermediate levels of E-selectin mRNA and protein as well as PMN rolling and adhesion at a shear rate of 1 dyne/cm2, indicating that both bacterial phospholipases are required for a maximal effect. Similarly, ceramide content and NF-kappa B activity were increased in L. monocytogenes-exposed endothelial cells, but only to intermediate levels for PC- or PI-phospholipase C (PLC)-deficient listerial mutants. Phospholipase effects could be mimicked by exogenously added ceramides or bacterial sphingomyelinase. The data presented indicate that PI-PLC and PC-PLC are important virulence factors for L. monocytogenes infections that induce accumulation of ceramides that in turn may act as second messengers to control host cell signal-transduction pathways leading to persistent NF-kappa B activation, increased E-selectin expression, and enhanced PMN rolling/adhesion. The ability of L. monocytogenes to stimulate PMN adhesion to endothelial cells may be an important mechanism in the pathogenesis of severe listeriosis.

Published

1998

16. Interaction of human neutrophils with airway epithelial cells: reduction of leukotriene B4 generation by epithelial cell derived prostaglandin E2

Author

M T, Klockmann, H U, Jahn, S, Hippenstiel, H J, Krämer, and N, Suttorp

Subjects

Leukotrienes, Aspirin, Neutrophils, Swine, Bronchi, Epithelial Cells, Cell Communication, Leukotriene B4, Coculture Techniques, Dinoprostone, Trachea, Superoxides, Hydroxyeicosatetraenoic Acids, Animals, Humans, Cells, Cultured

Abstract

Airway epithelial cells (AEC) play an active role in the regulation of inflammatory airway disease. In the present study we analyzed the interaction of AEC with polymorphonuclear leukocytes (PMN) in coincubation with respect to their arachidonic acid (AA) metabolism using reversed phase-HPLC and post-HPLC-ELISA. Primary cultures of porcine AEC released predominantly PGE2, PGF2a, and 15-hydroxyeicosatetraenoic acid (15-HETE), whereas the major human PMN-derived AA metabolite was the chemotactic factor leukotriene B4 (LTB4). In AEC-PMN cocultures stimulated with the calcium ionophore A23187, PMN-related 5-lipoxygenase products were decreased by 45%. This reduction in LTB4 formation in the presence of AEC was mainly due to PGE2 generated by the epithelial cells, whereas 15-HETE made a minor contribution. Most of the effect was inhibited by AEC pretreatment with acetylsalicylic acid and restored by addition of equivalent amounts of exogenous PGE2. LTB4 degradation was not enhanced in PMN-AEC coincubations. Moreover, reduction of LTB4 formation in this system did not require an intimate cell-to-cell contact as shown by studies involving filter membranes for PMN-AEC separation. Superoxide anion concentrations were also decreased in PMN-AEC coincubations; this effect, however, was unrelated to PGE2 for quantitative reasons and was probably due to O2- degradation by epithelial cells. In summary, epithelially derived PGE2 is the major mediator in the coincubation of porcine AEC and human PMN that downregulates neutrophil responses by activating receptors on the neutrophil. A minor contributor in this course of PMN-AEC interaction may be the 15-HETE transcellular pathway. Overall, airway epithelium appears to play an antiinflammatory role by damping the proinflammatory potential of neutrophils.

Published

1998

17. S. PNEUMONIAE INDUCES APOPTOSIS IN LUNG EPITHELIAL CELLS

Author

N. Suttorp, S. Hammerschmid, R. Gross, S. Hippenstiel, P. NʼGuessan, and B. Schmeck

Subjects

Lung, medicine.anatomical_structure, Apoptosis, business.industry, Emergency Medicine, Cancer research, Medicine, Critical Care and Intensive Care Medicine, business

Published

2004

18. NOD PROTEINS ARE INNATE IMMUNE RECEPTORS FOR STREPTOCOCCUS PNEUMONIAE

Author

B. Opitz, Ralf R. Schumann, A. C. Hocke, N. Suttorp, B. Schmeck, and S. Hippenstiel

Subjects

Innate immune system, Immunology, Streptococcus pneumoniae, Emergency Medicine, medicine, Immune receptor, Nod, Biology, Critical Care and Intensive Care Medicine, medicine.disease_cause, Receptor

Published

2004

19. 3R centres contributions to change animal experimentation : A field report from Charité 3 R , the 3R centre of a medical faculty.

Author

Retter I, Behm L, Grohmann L, Schmelz K, Rosowski J, and Hippenstiel S

Subjects

Animals, Humans, Faculty, Medical, Animal Welfare ethics, Biomedical Research, Animal Experimentation ethics

Published

2024

20. Bat-borne H9N2 influenza virus evades MxA restriction and exhibits efficient replication and transmission in ferrets.

Author

Halwe NJ, Hamberger L, Sehl-Ewert J, Mache C, Schön J, Ulrich L, Calvelage S, Tönnies M, Fuchs J, Bandawane P, Loganathan M, Abbad A, Carreño JM, Bermúdez-González MC, Simon V, Kandeil A, El-Shesheny R, Ali MA, Kayali G, Budt M, Hippenstiel S, Hocke AC, Krammer F, Wolff T, Schwemmle M, Ciminski K, Hoffmann D, and Beer M

Subjects

Animals, Humans, Mice, Phylogeny, Influenza, Human transmission, Influenza, Human virology, Lung virology, Antibodies, Viral immunology, Antibodies, Viral blood, Ferrets virology, Influenza A Virus, H9N2 Subtype genetics, Influenza A Virus, H9N2 Subtype physiology, Influenza A Virus, H9N2 Subtype pathogenicity, Influenza A Virus, H9N2 Subtype isolation & purification, Chiroptera virology, Virus Replication, Orthomyxoviridae Infections transmission, Orthomyxoviridae Infections virology, Orthomyxoviridae Infections immunology

Abstract

Influenza A viruses (IAVs) of subtype H9N2 have reached an endemic stage in poultry farms in the Middle East and Asia. As a result, human infections with avian H9N2 viruses have been increasingly reported. In 2017, an H9N2 virus was isolated for the first time from Egyptian fruit bats (Rousettus aegyptiacus). Phylogenetic analyses revealed that bat H9N2 is descended from a common ancestor dating back centuries ago. However, the H9 and N2 sequences appear to be genetically similar to current avian IAVs, suggesting recent reassortment events. These observations raise the question of the zoonotic potential of the mammal-adapted bat H9N2. Here, we investigate the infection and transmission potential of bat H9N2 in vitro and in vivo, the ability to overcome the antiviral activity of the human MxA protein, and the presence of N2-specific cross-reactive antibodies in human sera. We show that bat H9N2 has high replication and transmission potential in ferrets, efficiently infects human lung explant cultures, and is able to evade antiviral inhibition by MxA in transgenic B6 mice. Together with its low antigenic similarity to the N2 of seasonal human strains, bat H9N2 fulfils key criteria for pre-pandemic IAVs., (© 2024. The Author(s).)

Published

2024

21. Analysis of acute COVID-19 including chronic morbidity: protocol for the deep phenotyping National Pandemic Cohort Network in Germany (NAPKON-HAP).

Author

Steinbeis F, Thibeault C, Steinbrecher S, Ahlgrimm Y, Haack IA, August D, Balzuweit B, Bellinghausen C, Berger S, Chaplinskaya-Sobol I, Cornely O, Doeblin P, Endres M, Fink C, Finke C, Frank S, Hanß S, Hartung T, Hellmuth JC, Herold S, Heuschmann P, Heyckendorf J, Heyder R, Hippenstiel S, Hoffmann W, Kelle SU, Knape P, Koehler P, Kretzler L, Leistner DM, Lienau J, Lorbeer R, Lorenz-Depiereux B, Lüttke CD, Mai K, Merle U, Meyer-Arndt LA, Miljukov O, Muenchhoff M, Müller-Plathe M, Neuhann J, Neuhauser H, Nieters A, Otte C, Pape D, Pinto RM, Pley C, Pudszuhn A, Reuken P, Rieg S, Ritter P, Rohde G, Rönnefarth M, Ruzicka M, Schaller J, Schmidt A, Schmidt S, Schwachmeyer V, Schwanitz G, Seeger W, Stahl D, Stobäus N, Stubbe HC, Suttorp N, Temmesfeld B, Thun S, Triller P, Trinkmann F, Vadasz I, Valentin H, Vehreschild M, von Kalle C, von Lilienfeld-Toal M, Weber J, Welte T, Wildberg C, Wizimirski R, Zvork S, Sander LE, Vehreschild J, Zoller T, Kurth F, and Witzenrath M

Subjects

Humans, SARS-CoV-2, Pandemics prevention & control, Quality of Life, Germany epidemiology, Observational Studies as Topic, COVID-19 epidemiology

Abstract

Background: The severe acute respiratory syndrome corona virus 2 (SARS-CoV-2) pandemic causes a high burden of acute and long-term morbidity and mortality worldwide despite global efforts in containment, prophylaxis, and therapy. With unprecedented speed, the global scientific community has generated pivotal insights into the pathogen and the host response evoked by the infection. However, deeper characterization of the pathophysiology and pathology remains a high priority to reduce morbidity and mortality of coronavirus disease 2019 (COVID-19)., Methods: NAPKON-HAP is a multi-centered prospective observational study with a long-term follow-up phase of up to 36 months post-SARS-CoV-2 infection. It constitutes a central platform for harmonized data and biospecimen for interdisciplinary characterization of acute SARS-CoV-2 infection and long-term outcomes of diverging disease severities of hospitalized patients., Results: Primary outcome measures include clinical scores and quality of life assessment captured during hospitalization and at outpatient follow-up visits to assess acute and chronic morbidity. Secondary measures include results of biomolecular and immunological investigations and assessment of organ-specific involvement during and post-COVID-19 infection. NAPKON-HAP constitutes a national platform to provide accessibility and usability of the comprehensive data and biospecimen collection to global research., Conclusion: NAPKON-HAP establishes a platform with standardized high-resolution data and biospecimen collection of hospitalized COVID-19 patients of different disease severities in Germany. With this study, we will add significant scientific insights and provide high-quality data to aid researchers to investigate COVID-19 pathophysiology, pathology, and chronic morbidity., (© 2023. The Author(s).)

Published

2024

22. Correction: State-of-the-art analytical methods of viral infections in human lung organoids.

Author

Baumgardt M, Hülsemann M, Löwa A, Fatykhova D, Hoffmann K, Kessler M, Mieth M, Hellwig K, Frey D, Langenhagen A, Voss A, Obermayer B, Wyler E, Dökel S, Gruber AD, Tölch U, Hippenstiel S, Hocke AC, and Hönzke K

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0276115.]., (Copyright: © 2023 Baumgardt et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

23. Surface proteome of plasma extracellular vesicles as mechanistic and clinical biomarkers for malaria.

Author

Jung AL, Møller Jørgensen M, Bæk R, Artho M, Griss K, Han M, Bertrams W, Greulich T, Koczulla R, Hippenstiel S, Heider D, Suttorp N, and Schmeck B

Subjects

Animals, Humans, Proteome metabolism, Osteopontin metabolism, Biomarkers, Malaria diagnosis, Malaria, Falciparum diagnosis, Extracellular Vesicles metabolism

Abstract

Purpose: Malaria is a life-threatening mosquito-borne disease caused by Plasmodium parasites, mainly in tropical and subtropical countries. Plasmodium falciparum (P. falciparum) is the most prevalent cause on the African continent and responsible for most malaria-related deaths globally. Important medical needs are biomarkers for disease severity or disease outcome. A potential source of easily accessible biomarkers are blood-borne small extracellular vesicles (sEVs)., Methods: We performed an EV Array to find proteins on plasma sEVs that are differentially expressed in malaria patients. Plasma samples from 21 healthy subjects and 15 malaria patients were analyzed. The EV array contained 40 antibodies to capture sEVs, which were then visualized with a cocktail of biotin-conjugated CD9, CD63, and CD81 antibodies., Results: We detected significant differences in the protein decoration of sEVs between healthy subjects and malaria patients. We found CD106 to be the best discrimination marker based on receiver operating characteristic (ROC) analysis with an area under the curve of > 0.974. Additional ensemble feature selection revealed CD106, Osteopontin, CD81, major histocompatibility complex class II DR (HLA-DR), and heparin binding EGF like growth factor (HBEGF) together with thrombocytes to be a feature panel for discrimination between healthy and malaria. TNF-R-II correlated with HLA-A/B/C as well as CD9 with CD81, whereas Osteopontin negatively correlated with CD81 and CD9. Pathway analysis linked the herein identified proteins to IFN-γ signaling., Conclusion: sEV-associated proteins can discriminate between healthy individuals and malaria patients and are candidates for future predictive biomarkers., Trial Registration: The trial was registered in the Deutsches Register Klinischer Studien (DRKS-ID: DRKS00012518)., (© 2023. The Author(s).)

Published

2023

24. The unremarkable alveolar epithelial glycocalyx: a thorium dioxide-based electron microscopic comparison after heparinase or pneumolysin treatment.

Author

Timm S, Lettau M, Hegermann J, Rocha ML, Weidenfeld S, Fatykhova D, Gutbier B, Nouailles G, Lopez-Rodriguez E, Hocke A, Hippenstiel S, Witzenrath M, Kuebler WM, and Ochs M

Subjects

Mice, Humans, Animals, Heparin Lyase, Electrons, Glycosaminoglycans, Glycocalyx, Thorium Dioxide

Abstract

Recent investigations analyzed in depth the biochemical and biophysical properties of the endothelial glycocalyx. In comparison, this complex cell-covering structure is largely understudied in alveolar epithelial cells. To better characterize the alveolar glycocalyx ultrastructure, unaffected versus injured human lung tissue explants and mouse lungs were analyzed by transmission electron microscopy. Lung tissue was treated with either heparinase (HEP), known to shed glycocalyx components, or pneumolysin (PLY), the exotoxin of Streptococcus pneumoniae not investigated for structural glycocalyx effects so far. Cationic colloidal thorium dioxide (cThO 2 ) particles were used for glycocalyx glycosaminoglycan visualization. The level of cThO 2 particles orthogonal to apical cell membranes (≙ stained glycosaminoglycan height) of alveolar epithelial type I (AEI) and type II (AEII) cells was stereologically measured. In addition, cThO 2 particle density was studied by dual-axis electron tomography (≙ stained glycosaminoglycan density in three dimensions). For untreated samples, the average cThO 2 particle level was ≈ 18 nm for human AEI, ≈ 17 nm for mouse AEI, ≈ 44 nm for human AEII and ≈ 35 nm for mouse AEII. Both treatments, HEP and PLY, resulted in a significant reduction of cThO 2 particle levels on human and mouse AEI and AEII. Moreover, a HEP- and PLY-associated reduction in cThO 2 particle density was observed. The present study provides quantitative data on the differential glycocalyx distribution on AEI and AEII based on cThO 2 and demonstrates alveolar glycocalyx shedding in response to HEP or PLY resulting in a structural reduction in both glycosaminoglycan height and density. Future studies should elucidate the underlying alveolar epithelial cell type-specific distribution of glycocalyx subcomponents for better functional understanding., (© 2023. The Author(s).)

Published

2023

25. Ex vivo infection model for Francisella using human lung tissue.

Author

Köppen K, Fatykhova D, Holland G, Rauch J, Tappe D, Graff M, Rydzewski K, Hocke AC, Hippenstiel S, and Heuner K

Subjects

Rabbits, Francisella, Chemokines metabolism, Mice, Inbred C57BL, Bacterial Vaccines, Cytokines metabolism, Mice, Animals, Humans, Lung microbiology, Tularemia microbiology, Francisella tularensis genetics

Abstract

Introduction: Tularemia is mainly caused by Francisella tularensis ( Ft ) subsp. tularensis ( Ftt ) and Ft subsp. holarctica ( Ftt ) in humans and in more than 200 animal species including rabbits and hares. Human clinical manifestations depend on the route of infection and range from flu-like symptoms to severe pneumonia with a mortality rate up to 60% without treatment. So far, only 2D cell culture and animal models are used to study Francisella virulence , but the gained results are transferable to human infections only to a certain extent., Method: In this study, we firstly established an ex vivo human lung tissue infection model using different Francisella strains: Ftt Life Vaccine Strain (LVS), Ftt LVS ΔiglC, Ftt human clinical isolate A-660 and a German environmental Francisella species strain W12-1067 ( F -W12). Human lung tissue was used to determine the colony forming units and to detect infected cell types by using spectral immunofluorescence and electron microscopy. Chemokine and cytokine levels were measured in culture supernatants., Results: Only LVS and A-660 were able to grow within the human lung explants, whereas LVS ΔiglC and F -W12 did not replicate. Using human lung tissue, we observed a greater increase of bacterial load per explant for patient isolate A-660 compared to LVS, whereas a similar replication of both strains was observed in cell culture models with human macrophages. Alveolar macrophages were mainly infected in human lung tissue, but Ftt was also sporadically detected within white blood cells. Although Ftt replicated within lung tissue, an overall low induction of pro-inflammatory cytokines and chemokines was observed. A-660-infected lung explants secreted slightly less of IL-1β, MCP-1, IP-10 and IL-6 compared to Ftt LVS-infected explants, suggesting a more repressed immune response for patient isolate A-660. When LVS and A-660 were used for simultaneous co-infections, only the ex vivo model reflected the less virulent phenotype of LVS, as it was outcompeted by A-660., Conclusion: We successfully implemented an ex vivo infection model using human lung tissue for Francisella . The model delivers considerable advantages and is able to discriminate virulent Francisella from less- or non-virulent strains and can be used to investigate the role of specific virulence factors., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Köppen, Fatykhova, Holland, Rauch, Tappe, Graff, Rydzewski, Hocke, Hippenstiel and Heuner.)

Published

2023

26. Novel protein biomarkers for pneumonia and acute exacerbations in COPD: a pilot study.

Author

Jung AL, Han M, Griss K, Bertrams W, Nell C, Greulich T, Klemmer A, Pott H, Heider D, Vogelmeier CF, Hippenstiel S, Suttorp N, and Schmeck B

Abstract

Introduction: Community-acquired pneumonia (CAP) and acute exacerbations of chronic obstructive pulmonary disease (AECOPD) result in high morbidity, mortality, and socio-economic burden. The usage of easily accessible biomarkers informing on disease entity, severity, prognosis, and pathophysiological endotypes is limited in clinical practice. Here, we have analyzed selected plasma markers for their value in differential diagnosis and severity grading in a clinical cohort., Methods: A pilot cohort of hospitalized patients suffering from CAP ( n  = 27), AECOPD ( n  = 10), and healthy subjects ( n  = 22) were characterized clinically. Clinical scores (PSI, CURB, CRB65, GOLD I-IV, and GOLD ABCD) were obtained, and interleukin-6 (IL-6), interleukin-8 (IL-8), interleukin-2-receptor (IL-2R), lipopolysaccharide-binding protein (LBP), resistin, thrombospondin-1 (TSP-1), lactotransferrin (LTF), neutrophil gelatinase-associated lipocalin (NGAL), neutrophil-elastase-2 (ELA2), hepatocyte growth factor (HGF), soluble Fas (sFas), as well as TNF-related apoptosis-inducing ligand (TRAIL) were measured in plasma., Results: In CAP patients and healthy volunteers, we found significantly different levels of ELA2, HGF, IL-2R, IL-6, IL-8, LBP, resistin, LTF, and TRAIL. The panel of LBP, sFas, and TRAIL could discriminate between uncomplicated and severe CAP. AECOPD patients showed significantly different levels of LTF and TRAIL compared to healthy subjects. Ensemble feature selection revealed that CAP and AECOPD can be discriminated by IL-6, resistin, together with IL-2R. These factors even allow the differentiation between COPD patients suffering from an exacerbation or pneumonia., Discussion: Taken together, we identified immune mediators in patient plasma that provide information on differential diagnosis and disease severity and can therefore serve as biomarkers. Further studies are required for validation in bigger cohorts., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Jung, Han, Griss, Bertrams, Nell, Greulich, Klemmer, Pott, Heider, Vogelmeier, Hippenstiel, Suttorp and Schmeck.)

Published

2023

27. Cystic fibrosis transmembrane conductance regulator modulators attenuate platelet activation and aggregation in blood of healthy donors and COVID-19 patients.

Author

Asmus E, Karle W, Brack MC, Wittig C, Behrens F, Reinshagen L, Pfeiffer M, Schulz S, Mandzimba-Maloko B, Erfinanda L, Perret PL, Michalick L, Smeele PJ, Lim EHT, van den Brom CE, Vonk ABA, Kaiser T, Suttorp N, Hippenstiel S, Sander LE, Kurth F, Rauch U, Landmesser U, Haghikia A, Preissner R, Bogaard HJ, Witzenrath M, Kuebler WM, Szulcek R, and Simmons S

Subjects

Humans, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Health Status, Platelet Activation, Mutation, COVID-19, Cystic Fibrosis

Abstract

Competing Interests: Conflict of interest: E. Asmus reports European patent application number EP22162072.7 (15 March 2022): CFTR Modulators for the treatment of vascular disease. F. Behrens reports a BIH-MD-TRENAL medical research student stipend and a visiting scientist grant from the German Centre for Cardiovascular Research (DZHK), as well as travel support from Berlin Institute of Health (BIH Biomedical Innovation Academy Mobility and Innovation Grant) and German Centre for Cardiovascular Research (DZHK Travel Grant). L. Erfinanda reports European patent application number 20196830.2 - 1112 (18 September 2020): New medical use of cystic fibrosis transmembrane conductance regulator (CFTR) modulators. P.L. Perret reports a travel grant from the German Centre for Cardiovascular Research (DZHK). L.E. Sander reports grants from the Federal Institute for Drugs and Medical Devices of Germany, the Federal Ministry of Research and Education (Germany), the Germany Research Foundation (DFG) and Miltenyi Biotech, and reports personal fees from GlaxoSmithKline, Novartis, Sanofi, Chiesi, Boehringer and Berlin Chemie. U. Rauch reports personal fees from Bayer Vital GmbH, Sanofi Aventis and Boehringer Ingelheim, and is an advisory board member of Bayer Vital GmbH, Sanofi Aventis and Boehringer Ingelheim; U. Rauch also has a leadership role at ESC. U. Landmesser reports personal fees from Abbott, Amgen Bayer, Cardiac Dimensions, Novartis, Pfizer, Novo Nordisk, Daiichi Sankyo, Sanofi, Boston Scientific, AstraZeneca and Boehringer Ingelheim. R. Preissner reports grants from the German Research Foundation (DFG) and European Patent application number EP22162072.7 (15 March 2022): CFTR modulators for the treatment of vascular disease. M. Witzenrath reports grants from the German Research Foundation (DFG), the Federal Ministry of Education and Research (Germany), the German Respiratory Society, the European Respiratory Society, the Marie Curie Foundation, the Else Kröner Fresenius Foundation, the Capnetz Foundation, the International Max Planck Research School, Actelion, Bayer Health Care, Biotest and Boehringer Ingelheim, reports personal fees from Noxxon, Pantherna, Vaxxilon, Aptarion, GlaxoSmithKline, Sinoxa, Biotest, AstraZeneca, Berlin Chemie, Chiesi, Novartis, Teva, Actelion, Boehringer Ingelheim and Bayer Health Care, and reports patents EPO 12181535.1: IL-27 for modulation of immune response in acute lung injury; WO/2010/094491: Means for inhibiting the expression of Ang-2; DE 102020116249.9: Camostat/Niclosamide cotreatment in SARS-CoV-2 infected human lung cells; and PCT/EP2021/075627: New medical use of cystic fibrosis transmembrane conductance regulator (CFTR) modulators. W.M. Kuebler reports grants from the German Research Foundation (DFG), the German Ministry for Research and Education (BMBF), and the German Centre for Cardiovascular Research (DZHK), and reports personal fees from Bayer AG, Germany, and reports European patent application number 20196830.2 - 1112 (18 September 2020): New medical use of cystic fibrosis transmembrane conductance regulator (CFTR) modulators; and European patent application number EP22162072.7 (15 March 2022): CFTR Modulators for the treatment of vascular disease; W.M. Kuebler is Chair-Elect, Publications Committee, American Physiological Society and President, German Society for Microcirculation and Vascular Biology. R. Szulcek reports European patent application number EP22162072.7 (15 March 2022): CFTR Modulators for the treatment of vascular disease. S. Simmons reports grants from the German Centre for Cardiovascular Research (DZHK) and the German Society for Heart Research, and reports European patent application number EP22162072.7 (15 March 2022): CFTR Modulators for the treatment of vascular disease. The remaining authors report no potential conflicts of interest.

Published

2023

28. State-of-the-art analytical methods of viral infections in human lung organoids.

Author

Baumgardt M, Hülsemann M, Löwa A, Fatykhova D, Hoffmann K, Kessler M, Mieth M, Hellwig K, Frey D, Langenhagen A, Voss A, Obermayer B, Wyler E, Dökel S, Gruber AD, Tölch U, Hippenstiel S, Hocke AC, and Hönzke K

Subjects

Humans, SARS-CoV-2, Furin metabolism, Angiotensin-Converting Enzyme 2 metabolism, Pandemics, Lung metabolism, Organoids, COVID-19 metabolism

Abstract

Human-based organ models can provide strong predictive value to investigate the tropism, virulence, and replication kinetics of viral pathogens. Currently, such models have received widespread attention in the study of SARS-CoV-2 causing the COVID-19 pandemic. Applicable to a large set of organoid models and viruses, we provide a step-by-step work instruction for the infection of human alveolar-like organoids with SARS-CoV-2 in this protocol collection. We also prepared a detailed description on state-of-the-art methodologies to assess the infection impact and the analysis of relevant host factors in organoids. This protocol collection consists of five different sets of protocols. Set 1 describes the protein extraction from human alveolar-like organoids and the determination of protein expression of angiotensin-converting enzyme 2 (ACE2), transmembrane serine protease 2 (TMPRSS2) and FURIN as exemplary host factors of SARS-CoV-2. Set 2 provides detailed guidance on the extraction of RNA from human alveolar-like organoids and the subsequent qPCR to quantify the expression level of ACE2, TMPRSS2, and FURIN as host factors of SARS-CoV-2 on the mRNA level. Protocol set 3 contains an in-depth explanation on how to infect human alveolar-like organoids with SARS-CoV-2 and how to quantify the viral replication by plaque assay and viral E gene-based RT-qPCR. Set 4 provides a step-by-step protocol for the isolation of single cells from infected human alveolar-like organoids for further processing in single-cell RNA sequencing or flow cytometry. Set 5 presents a detailed protocol on how to perform the fixation of human alveolar-like organoids and guides through all steps of immunohistochemistry and in situ hybridization to visualize SARS-CoV-2 and its host factors. The infection and all subsequent analytical methods have been successfully validated by biological replications with human alveolar-like organoids based on material from different donors., Competing Interests: The authors declare no conflict of interest., (Copyright: © 2022 Baumgardt et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2022

29. Loss of endothelial CFTR drives barrier failure and edema formation in lung infection and can be targeted by CFTR potentiation.

Author

Erfinanda L, Zou L, Gutbier B, Kneller L, Weidenfeld S, Michalick L, Lei D, Reppe K, Teixeira Alves LG, Schneider B, Zhang Q, Li C, Fatykhova D, Schneider P, Liedtke W, Sohara E, Mitchell TJ, Gruber AD, Hocke A, Hippenstiel S, Suttorp N, Olschewski A, Mall MA, Witzenrath M, and Kuebler WM

Subjects

Humans, Mice, Animals, Calcium, Lung, Cystic Fibrosis Transmembrane Conductance Regulator, TRPV Cation Channels, Chlorides, Pneumonia

Abstract

Pneumonia is the most common cause of the acute respiratory distress syndrome (ARDS). Here, we identified loss of endothelial cystic fibrosis transmembrane conductance regulator (CFTR) as an important pathomechanism leading to lung barrier failure in pneumonia-induced ARDS. CFTR was down-regulated after Streptococcus pneumoniae infection ex vivo or in vivo in human or murine lung tissue, respectively. Analysis of isolated perfused rat lungs revealed that CFTR inhibition increased endothelial permeability in parallel with intracellular chloride ion and calcium ion concentrations ([Cl - ] i and [Ca 2+ ] i ). Inhibition of the chloride ion-sensitive with-no-lysine kinase 1 (WNK1) protein with tyrphostin 47 or WNK463 replicated the effect of CFTR inhibition on endothelial permeability and endothelial [Ca 2+ ] i , whereas WNK1 activation by temozolomide attenuated it. Endothelial [Ca 2+ ] i transients and permeability in response to inhibition of either CFTR or WNK1 were prevented by inhibition of the cation channel transient receptor potential vanilloid 4 (TRPV4). Mice deficient in Trpv4 ( Trpv4 -/- ) developed less lung edema and protein leak than their wild-type littermates after infection with S. pneumoniae . The CFTR potentiator ivacaftor prevented lung CFTR loss, edema, and protein leak after S. pneumoniae infection in wild-type mice. In conclusion, lung infection caused loss of CFTR that promoted lung edema formation through intracellular chloride ion accumulation, inhibition of WNK1, and subsequent disinhibition of TRPV4, resulting in endothelial calcium ion influx and vascular barrier failure. Ivacaftor prevented CFTR loss in the lungs of mice with pneumonia and may, therefore, represent a possible therapeutic strategy in people suffering from ARDS due to severe pneumonia.

Published

2022

30. Human lungs show limited permissiveness for SARS-CoV-2 due to scarce ACE2 levels but virus-induced expansion of inflammatory macrophages.

Author

Hönzke K, Obermayer B, Mache C, Fatykhova D, Kessler M, Dökel S, Wyler E, Baumgardt M, Löwa A, Hoffmann K, Graff P, Schulze J, Mieth M, Hellwig K, Demir Z, Biere B, Brunotte L, Mecate-Zambrano A, Bushe J, Dohmen M, Hinze C, Elezkurtaj S, Tönnies M, Bauer TT, Eggeling S, Tran HL, Schneider P, Neudecker J, Rückert JC, Schmidt-Ott KM, Busch J, Klauschen F, Horst D, Radbruch H, Radke J, Heppner F, Corman VM, Niemeyer D, Müller MA, Goffinet C, Mothes R, Pascual-Reguant A, Hauser AE, Beule D, Landthaler M, Ludwig S, Suttorp N, Witzenrath M, Gruber AD, Drosten C, Sander LE, Wolff T, Hippenstiel S, and Hocke AC

Subjects

Adult, Humans, Angiotensin-Converting Enzyme 2, Lung pathology, Macrophages, Alveolar metabolism, Peptidyl-Dipeptidase A metabolism, SARS-CoV-2, Viral Tropism, COVID-19, Influenza, Human

Abstract

Background: Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) utilises the angiotensin-converting enzyme 2 (ACE2) transmembrane peptidase as cellular entry receptor. However, whether SARS-CoV-2 in the alveolar compartment is strictly ACE2-dependent and to what extent virus-induced tissue damage and/or direct immune activation determines early pathogenesis is still elusive., Methods: Spectral microscopy, single-cell/-nucleus RNA sequencing or ACE2 "gain-of-function" experiments were applied to infected human lung explants and adult stem cell derived human lung organoids to correlate ACE2 and related host factors with SARS-CoV-2 tropism, propagation, virulence and immune activation compared to SARS-CoV, influenza and Middle East respiratory syndrome coronavirus (MERS-CoV). Coronavirus disease 2019 (COVID-19) autopsy material was used to validate ex vivo results., Results: We provide evidence that alveolar ACE2 expression must be considered scarce, thereby limiting SARS-CoV-2 propagation and virus-induced tissue damage in the human alveolus. Instead, ex vivo infected human lungs and COVID-19 autopsy samples showed that alveolar macrophages were frequently positive for SARS-CoV-2. Single-cell/-nucleus transcriptomics further revealed nonproductive virus uptake and a related inflammatory and anti-viral activation, especially in "inflammatory alveolar macrophages", comparable to those induced by SARS-CoV and MERS-CoV, but different from NL63 or influenza virus infection., Conclusions: Collectively, our findings indicate that severe lung injury in COVID-19 probably results from a macrophage-triggered immune activation rather than direct viral damage of the alveolar compartment., Competing Interests: Conflict of interest: J-C. Rückert and H. Radbruch report support from DFG RA 2491/1-1, BMBF (Defeat Pandemics). A.E. Hauser reports support from Charité – Universitätsmedizin Berlin and Deutsches Rheuma-Forschungszentrum Berlin, and grants from Deutsche Forschungsgemeinschaft (HA5354/10-1, TRR130,P17 and C01, HA5354/8-1). T. Wolff reports support from Federal Ministry of Education and Research (BMBF) grant 01K12006F. M. Kessler reports grants from BMBF Organo-Strat, Einstein 3R. M. Dohmen reports contracts with Max-Delbrück Center, Berlin; grants from Gender Equality Fund, Berlin Institute of Health. F. Klauschen reports consulting fees, lecture honoraria, travel support and participation on advisory boards with BMS, Novartis, Roche and Lilly, and is a co-founder of AI-BIH/Charité-Spinoff Aignostics GmbH. F. Heppner reports consulting fees, lecture honoraria, payment for expert testimony and leadership roles at Novartis, AstraZeneca and ThinkHealth Hygiene Solutions. V.M. Corman reports the following patents: 20210190797 (Methods and reagents for diagnosis of SARS-CoV-2 infection); 9841834 (Human recombinant monoclonal antibody against SARS-CoV-2 spike glycoprotein); 9909654 (A pharmaceutical combination comprising an anti-viral protonophore and a serine protease inhibitor). D. Niemeyer reports that Technische Universität Berlin, Freie Universität Berlin and Charité – Universitätsmedizin have filed a patent application for siRNAs inhibiting SARS-CoV-2 replication with D. Niemeyer as coauthor. M.A. Müller reports the following patents: 20210190797 (Methods and reagents for diagnosis of SARS-CoV-2 infection); 9841834 (Human recombinant monoclonal antibody against SARS-CoV-2 spike glycoprotein); 9909654 (A pharmaceutical combination comprising an anti-viral protonophore and a serine protease inhibitor); and has participated on an advisory board for ECDC/WHO. S. Ludwig reports consulting fees from Atriva Therapeutics GmbH, Biontec SE; and has patent PCT/EP2021/063485 pending. M. Witzenrath reports grants from Deutsche Forschungsgemeinschaft, Bundesministerium für Bildung und Forschung, Deutsche Gesellschaft für Pneumologie, European Respiratory Society, Marie Curie Foundation, Else Kröner Fresenius Stiftung, Capnetz Stiftung, International Max Planck Research School, Quark Pharma, Takeda Pharma, Noxxon, Pantherna, Silence Therapeutics, Vaxxilon, Actelion, Bayer Health Care, Biotest and Boehringer Ingelheim; consulting fees from Noxxon, Pantherna, Silence Therapeutics, Vaxxilon, Aptarion, GlaxoSmithKline, Sinoxa and Biotest; lecture honoraria from AstraZeneca, Berlin Chemie, Chiesi, Novartis, Teva, Actelion, Boehringer Ingelheim, GlaxoSmithKline, Biotest, Bayer Health Care; and has the following patents issued: EPO 12181535.1 (IL-27 for modulation of immune response in acute lung injury), WO/2010/094491 (Means for inhibiting the expression of Ang-2), DE 102020116249.9 (Camostat/Niclosamide cotreatment in SARS-CoV-2 infected human lung cells). All other authors have nothing to disclose., (Copyright ©The authors 2022.)

Published

2022

31. Transcriptomic comparison of primary human lung cells with lung tissue samples and the human A549 lung cell line highlights cell type specific responses during infections with influenza A virus.

Author

Bertrams W, Hönzke K, Obermayer B, Tönnies M, Bauer TT, Schneider P, Neudecker J, Rückert JC, Stiewe T, Nist A, Eggeling S, Suttorp N, Wolff T, Hippenstiel S, Schmeck B, and Hocke AC

Subjects

Humans, A549 Cells, Transcriptome, Influenza A Virus, H3N2 Subtype, Alveolar Epithelial Cells, Influenza A virus, Influenza, Human genetics

Abstract

Influenza A virus (IAV) causes pandemics and annual epidemics of severe respiratory infections. A better understanding of the molecular regulation in tissue and cells upon IAV infection is needed to thoroughly understand pathogenesis. We analyzed IAV replication and gene expression induced by IAV strain H3N2 Panama in isolated primary human alveolar epithelial type II cells (AECIIs), the permanent A549 adenocarcinoma cell line, alveolar macrophages (AMs) and explanted human lung tissue by bulk RNA sequencing. Primary AECII exhibit in comparison to AM a broad set of strongly induced genes related to RIG-I and interferon (IFN) signaling. The response of AECII was partly mirrored in A549 cells. In human lung tissue, we observed induction of genes unlike in isolated cells. Viral RNA was used to correlate host cell gene expression changes with viral burden. While relative induction of key genes was similar, gene abundance was highest in AECII cells and AM, while weaker in the human lung (due to less IAV replication) and A549 cells (pointing to their limited suitability as a model). Correlation of host gene induction with viral burden allows a better understanding of the cell-type specific induction of pathways and a possible role of cellular crosstalk requiring intact tissue., (© 2022. The Author(s).)

Published

2022

32. The Current Status and Work of Three Rs Centres and Platforms in Europe.

Author

Neuhaus W, Reininger-Gutmann B, Rinner B, Plasenzotti R, Wilflingseder D, De Kock J, Vanhaecke T, Rogiers V, Jírová D, Kejlová K, Knudsen LE, Nielsen RN, Kleuser B, Kral V, Thöne-Reineke C, Hartung T, Pallocca G, Rovida C, Leist M, Hippenstiel S, Lang A, Retter I, Krämer S, Jedlicka P, Ameli K, Fritsche E, Tigges J, Kuchovská E, Buettner M, Bleich A, Baumgart N, Baumgart J, Meinhardt MW, Spanagel R, Chourbaji S, Kränzlin B, Seeger B, von Köckritz-Blickwede M, Sánchez-Morgado JM, Galligioni V, Ruiz-Pérez D, Movia D, Prina-Mello A, Ahluwalia A, Chiono V, Gutleb AC, Schmit M, van Golen B, van Weereld L, Kienhuis A, van Oort E, van der Valk J, Smith A, Roszak J, Stępnik M, Sobańska Z, Reszka E, Olsson IAS, Franco NH, Sevastre B, Kandarova H, Capdevila S, Johansson J, Svensk E, Cederroth CR, Sandström J, Ragan I, Bubalo N, Kurreck J, and Spielmann H

Subjects

Animals, Europe, Animal Welfare, Animals, Laboratory, Animal Use Alternatives

Abstract

The adoption of Directive 2010/63/EU on the protection of animals used for scientific purposes has given a major push to the formation of Three Rs initiatives in the form of centres and platforms. These centres and platforms are dedicated to the so-called Three Rs, which are the Replacement, Reduction and Refinement of animal use in experiments. ATLA 's 50th Anniversary year has seen the publication of two articles on European Three Rs centres and platforms. The first of these was about the progressive rise in their numbers and about their founding history; this second part focuses on their current status and activities. This article takes a closer look at their financial and organisational structures, describes their Three Rs focus and core activities (dissemination, education, implementation, scientific quality/translatability, ethics), and presents their areas of responsibility and projects in detail. This overview of the work and diverse structures of the Three Rs centres and platforms is not only intended to bring them closer to the reader, but also to provide role models and show examples of how such Three Rs centres and platforms could be made sustainable. The Three Rs centres and platforms are very important focal points and play an immense role as facilitators of Directive 2010/63/EU 'on the ground' in their respective countries. They are also invaluable for the wide dissemination of information and for promoting the implementation of the Three Rs in general.

Published

2022

33. Human alveolar progenitors generate dual lineage bronchioalveolar organoids.

Author

Hoffmann K, Obermayer B, Hönzke K, Fatykhova D, Demir Z, Löwa A, Alves LGT, Wyler E, Lopez-Rodriguez E, Mieth M, Baumgardt M, Hoppe J, Firsching TC, Tönnies M, Bauer TT, Eggeling S, Tran HL, Schneider P, Neudecker J, Rückert JC, Gruber AD, Ochs M, Landthaler M, Beule D, Suttorp N, Hippenstiel S, Hocke AC, and Kessler M

Subjects

Cell Differentiation genetics, Glycogen Synthase Kinase 3 beta metabolism, Humans, Wnt Signaling Pathway, Lung metabolism, Organoids metabolism

Abstract

Mechanisms of epithelial renewal in the alveolar compartment remain incompletely understood. To this end, we aimed to characterize alveolar progenitors. Single-cell RNA-sequencing (scRNA-seq) analysis of the HTII-280 + /EpCAM + population from adult human lung revealed subclusters enriched for adult stem cell signature (ASCS) genes. We found that alveolar progenitors in organoid culture in vitro show phenotypic lineage plasticity as they can yield alveolar or bronchial cell-type progeny. The direction of the differentiation is dependent on the presence of the GSK-3β inhibitor, CHIR99021. By RNA-seq profiling of GSK-3β knockdown organoids we identified additional candidate target genes of the inhibitor, among others FOXM1 and EGF. This gives evidence of Wnt pathway independent regulatory mechanisms of alveolar specification. Following influenza A virus (IAV) infection organoids showed a similar response as lung tissue explants which confirms their suitability for studies of sequelae of pathogen-host interaction., (© 2022. The Author(s).)

Published

2022

34. Introducing quality measures in an academic research consortium: Lessons and recommendation from implementing an ad hoc quality management system for organ model research: Lessons and recommendation from implementing an ad hoc quality management system for organ model research.

Author

Hülsemann M, Wiebach J, Drude NI, Kniffert S, Behm L, Hönzke K, Baumgardt M, Hippenstiel S, Hocke AC, Dirnagl U, and Tölch U

Subjects

Reproducibility of Results, Quality Indicators, Health Care

Abstract

Lessons from implementing quality control systems in an academic research consortium to improve Good Scientific Practice and reproducibility., (© 2022 The Authors. Published under the terms of the CC BY NC ND 4.0 license.)

Published

2022

35. A pulmonologist's guide to perform and analyse cross-species single lung cell transcriptomics.

Author

Pennitz P, Kirsten H, Friedrich VD, Wyler E, Goekeri C, Obermayer B, Heinz GA, Mashreghi MF, Büttner M, Trimpert J, Landthaler M, Suttorp N, Hocke AC, Hippenstiel S, Tönnies M, Scholz M, Kuebler WM, Witzenrath M, Hoenzke K, and Nouailles G

Subjects

Animals, Base Sequence, Chlorocebus aethiops, Cricetinae, Humans, Lung, Mice, Rats, Species Specificity, Swine, Pulmonologists, Transcriptome

Abstract

Single-cell ribonucleic acid sequencing is becoming widely employed to study biological processes at a novel resolution depth. The ability to analyse transcriptomes of multiple heterogeneous cell types in parallel is especially valuable for cell-focused lung research where a variety of resident and recruited cells are essential for maintaining organ functionality. We compared the single-cell transcriptomes from publicly available and unpublished datasets of the lungs in six different species: human ( Homo sapiens ), African green monkey ( Chlorocebus sabaeus ), pig ( Sus domesticus ), hamster ( Mesocricetus auratus ), rat ( Rattus norvegicus ) and mouse ( Mus musculus ) by employing RNA velocity and intercellular communication based on ligand-receptor co-expression, among other techniques. Specifically, we demonstrated a workflow for interspecies data integration, applied a single unified gene nomenclature, performed cell-specific clustering and identified marker genes for each species. Overall, integrative approaches combining newly sequenced as well as publicly available datasets could help identify species-specific transcriptomic signatures in both healthy and diseased lung tissue and select appropriate models for future respiratory research., Competing Interests: Conflict of interest: H. Kirsten reports support for the present manuscript from German Federal Ministry of Education and Research (BMBF) grants e:Med CAPSyS (01ZX1304A) and e:Med SYMPATH (01ZX1906B). E. Wyler has received payment or honoraria for lectures, presentations, speakers’ bureaus, manuscript writing or educational events from Podcast Gegenblende by DGB, outside the submitted work. M. Landthaler reports support for the present manuscript from Berlin Institute of Health. M. Scholz has received grants or contracts from Pfizer Inc. for a project not related to this research. W.M. Kuebler reports support for the present manuscript from German Research Foundation (KU 1218/9-1, KU 1218/11-1, CRC TR84 A02, CRC TR84 C09, CRC 1449 B01), Germany Ministry for Research and Education (SYMPATH, PROVID consortia), German Center for Cardiovascular Research (Partner site project Berlin) and Berlin Institute of Health (Focus Area Vascular Biology). M. Witzenrath has received grants or contracts from Deutsche Forschungsgemeinschaft, Bundesministerium für Bildung und Forschung, Deutsche Gesellschaft für Pneumologie, European Respiratory Society, Marie Curie Foundation, Else Kröner Fresenius Stiftung, Capnetz Stiftung, International Max Planck Research School, Quark Pharma, Takeda Pharma, Noxxon, Pantherna, Silence Therapeutics, Vaxxilon, Actelion, Bayer Health Care, Biotest and Boehringer Ingelheim, outside the submitted work. M. Witzenrath has received personal fees for consulting from Noxxon, Pantherna, Silence Therapeutics, Vaxxilon, Aptarion, GlaxoSmithKline, Sinoxa and Biotest, and for lectures, presentations, speakers’ bureaus, manuscript writing or educational events from AstraZeneca, Berlin Chemie, Chiesi, Novartis, Teva, Actelion, Boehringer Ingelheim, GlaxoSmithKline, Biotest and Bayer Health Care, outside the submitted work. M. Witzenrath has the following patents planned, issued or pending: EPO 12181535.1: IL-27 for modulation of immune response in acute lung injury (issued: 2012); WO/2010/094491: Means for inhibiting the expression of Ang-2 (issued: 2010); and DE 102020116249.9: Camostat/Niclosamide cotreatment in SARS-CoV-2 infected human lung cells (issued: 2020/21). G. Nouailles receives funding from Biotest AG for a project not related to this work. All other authors have nothing to disclose., (Copyright ©The authors 2022.)

Published

2022

36. A multiplex protein panel assay for severity prediction and outcome prognosis in patients with COVID-19: An observational multi-cohort study.

Author

Wang Z, Cryar A, Lemke O, Tober-Lau P, Ludwig D, Helbig ET, Hippenstiel S, Sander LE, Blake D, Lane CS, Sayers RL, Mueller C, Zeiser J, Townsend S, Demichev V, Mülleder M, Kurth F, Sirka E, Hartl J, and Ralser M

Abstract

Background: Global healthcare systems continue to be challenged by the COVID-19 pandemic, and there is a need for clinical assays that can help optimise resource allocation, support treatment decisions, and accelerate the development and evaluation of new therapies., Methods: We developed a multiplexed proteomics assay for determining disease severity and prognosis in COVID-19. The assay quantifies up to 50 peptides, derived from 30 known and newly introduced COVID-19-related protein markers, in a single measurement using routine-lab compatible analytical flow rate liquid chromatography and multiple reaction monitoring (LC-MRM). We conducted two observational studies in patients with COVID-19 hospitalised at Charité - Universitätsmedizin Berlin, Germany before (from March 1 to 26, 2020, n=30) and after (from April 4 to November 19, 2020, n=164) dexamethasone became standard of care. The study is registered in the German and the WHO International Clinical Trials Registry (DRKS00021688)., Findings: The assay produces reproducible (median inter-batch CV of 10.9%) absolute quantification of 47 peptides with high sensitivity (median LLOQ of 143 ng/ml) and accuracy (median 96.8%). In both studies, the assay reproducibly captured hallmarks of COVID-19 infection and severity, as it distinguished healthy individuals, mild, moderate, and severe COVID-19. In the post-dexamethasone cohort, the assay predicted survival with an accuracy of 0.83 (108/130), and death with an accuracy of 0.76 (26/34) in the median 2.5 weeks before the outcome, thereby outperforming compound clinical risk assessments such as SOFA, APACHE II, and ABCS scores., Interpretation: Disease severity and clinical outcomes of patients with COVID-19 can be stratified and predicted by the routine-applicable panel assay that combines known and novel COVID-19 biomarkers. The prognostic value of this assay should be prospectively assessed in larger patient cohorts for future support of clinical decisions, including evaluation of sample flow in routine setting. The possibility to objectively classify COVID-19 severity can be helpful for monitoring of novel therapies, especially in early clinical trials., Funding: This research was funded in part by the European Research Council (ERC) under grant agreement ERC-SyG-2020 951475 (to M.R) and by the Wellcome Trust (IA 200829/Z/16/Z to M.R.). The work was further supported by the Ministry of Education and Research (BMBF) as part of the National Research Node 'Mass Spectrometry in Systems Medicine (MSCoresys)', under grant agreements 031L0220 and 161L0221. J.H. was supported by a Swiss National Science Foundation (SNSF) Postdoc Mobility fellowship (project number 191052). This study was further supported by the BMBF grant NaFoUniMedCOVID-19 - NUM-NAPKON, FKZ: 01KX2021. The study was co-funded by the UK's innovation agency, Innovate UK, under project numbers 75594 and 56328., Competing Interests: EM Scientific Limited (t/a Inoviv) and Charité – Universitätsmedizin Berlin (Ziyue Wang, Michael Mülleder, Vadim Demichev, Johannes Hartl and Markus Ralser) filed joint patent applications for the protein panel assay described herein - United States Application No: 63/156291, 63/283787 and 17/685756. Leif-Erik Sander received honoraria for lectures from Boehringer Ingelheim, Novartis, Berlin Chemie, GSK, Merck, Novartis, Sanofi. Ernestas Sirka and Adam Cryar are/were employees of EM Scientific Limited (t/a Inoviv). Daniel Blake, Rebekah L Sayers and Catherine S Lane are employees of SCIEX. Christoph Mueller and Johannes Zeiser are employees of Agilent Technologies., (© 2022 The Authors.)

Published

2022

37. Highly multiplexed immune repertoire sequencing links multiple lymphocyte classes with severity of response to COVID-19.

Author

Dannebaum R, Suwalski P, Asgharian H, Du Zhipei G, Lin H, Weiner J, Holtgrewe M, Thibeault C, Müller M, Wang X, Karadeniz Z, Saccomanno J, Doehn JM, Hübner RH, Hinzmann B, Blüher A, Siemann S, Telman D, Suttorp N, Witzenrath M, Hippenstiel S, Skurk C, Poller W, Sander LE, Beule D, Kurth F, Guettouche T, Landmesser U, Berka J, Luong K, Rubelt F, and Heidecker B

Abstract

Background: Disease progression of subjects with coronavirus disease 2019 (COVID-19) varies dramatically. Understanding the various types of immune response to SARS-CoV-2 is critical for better clinical management of coronavirus outbreaks and to potentially improve future therapies. Disease dynamics can be characterized by deciphering the adaptive immune response., Methods: In this cross-sectional study we analyzed 117 peripheral blood immune repertoires from healthy controls and subjects with mild to severe COVID-19 disease to elucidate the interplay between B and T cells. We used an immune repertoire Primer Extension Target Enrichment method (immunoPETE) to sequence simultaneously human leukocyte antigen (HLA) restricted T cell receptor beta chain (TRB) and unrestricted T cell receptor delta chain (TRD) and immunoglobulin heavy chain (IgH) immune receptor repertoires. The distribution was analyzed of TRB, TRD and IgH clones between healthy and COVID-19 infected subjects. Using McFadden's Adjusted R2 variables were examined for a predictive model. The aim of this study is to analyze the influence of the adaptive immune repertoire on the severity of the disease (value on the World Health Organization Clinical Progression Scale) in COVID-19., Findings: Combining clinical metadata with clonotypes of three immune receptor heavy chains (TRB, TRD, and IgH), we found significant associations between COVID-19 disease severity groups and immune receptor sequences of B and T cell compartments. Logistic regression showed an increase in shared IgH clonal types and decrease of TRD in subjects with severe COVID-19. The probability of finding shared clones of TRD clonal types was highest in healthy subjects (controls). Some specific TRB clones seems to be present in severe COVID-19 (Figure S7b). The most informative models (McFadden´s Adjusted R2=0.141) linked disease severity with immune repertoire measures across all three cell types, as well as receptor-specific cell counts, highlighting the importance of multiple lymphocyte classes in disease progression., Interpretation: Adaptive immune receptor peripheral blood repertoire measures are associated with COVID-19 disease severity., Funding: The study was funded with grants from the Berlin Institute of Health (BIH)., Competing Interests: Telman Dilduz, Dannenbaum Richard, Anja Blüher, Florian Rubelt, Gracie Du Zhipei, Luong Khai, Asgharin Hosseinali, Lin Hai and Berka Jan are employees of Roche Diagnostics and Dannenbaum Richard, Rubelt Forian, Lin Hai, Luong Khai, Berka Jan receive salary, stock and options as part of their employment compensation., (© 2022 The Authors.)

Published

2022

38. The Rise of Three Rs Centres and Platforms in Europe.

Author

Neuhaus W, Reininger-Gutmann B, Rinner B, Plasenzotti R, Wilflingseder D, De Kock J, Vanhaecke T, Rogiers V, Jírová D, Kejlová K, Knudsen LE, Nielsen RN, Kleuser B, Kral V, Thöne-Reineke C, Hartung T, Pallocca G, Leist M, Hippenstiel S, Lang A, Retter I, Krämer S, Jedlicka P, Ameli K, Fritsche E, Tigges J, Buettner M, Bleich A, Baumgart N, Baumgart J, Meinhardt MW, Spanagel R, Chourbaji S, Kränzlin B, Seeger B, von Köckritz-Blickwede M, Sánchez-Morgado JM, Galligioni V, Ruiz-Pérez D, Movia D, Prina-Mello A, Ahluwalia A, Chiono V, Gutleb AC, Schmit M, van Golen B, van Weereld L, Kienhuis A, van Oort E, van der Valk J, Smith A, Roszak J, Stępnik M, Sobańska Z, Olsson IAS, Franco NH, Sevastre B, Kandarova H, Capdevila S, Johansson J, Cederroth CR, Sandström J, Ragan I, Bubalo N, and Spielmann H

Subjects

Animal Testing Alternatives, Animals, Europe, Animal Experimentation

Abstract

Public awareness and discussion about animal experiments and replacement methods has greatly increased in recent years. The term 'the Three Rs', which stands for the Replacement, Reduction and Refinement of animal experiments, is inseparably linked in this context. A common goal within the Three Rs scientific community is to develop predictive non-animal models and to better integrate all available data from in vitro , in silico and omics technologies into regulatory decision-making processes regarding, for example, the toxicity of chemicals, drugs or food ingredients. In addition, it is a general concern to implement (human) non-animal methods in basic research. Toward these efforts, there has been an ever-increasing number of Three Rs centres and platforms established over recent years - not only to develop novel methods, but also to disseminate knowledge and help to implement the Three Rs principles in policies and education. The adoption of Directive 2010/63/EU on the protection of animals used for scientific purposes gave a strong impetus to the creation of Three Rs initiatives, in the form of centres and platforms. As the first of a series of papers, this article gives an overview of the European Three Rs centres and platforms, and their historical development. The subsequent articles, to be published over the course of ATLA 's 50th Anniversary year, will summarise the current focus and tasks as well as the future and the plans of the Three Rs centres and platforms. The Three Rs centres and platforms are very important points of contact and play an immense role in their respective countries as 'on the ground' facilitators of Directive 2010/63/EU . They are also invaluable for the widespread dissemination of information and for promoting implementation of the Three Rs in general.

Published

2022

39. Altered fibrin clot structure and dysregulated fibrinolysis contribute to thrombosis risk in severe COVID-19.

Author

Wygrecka M, Birnhuber A, Seeliger B, Michalick L, Pak O, Schultz AS, Schramm F, Zacharias M, Gorkiewicz G, David S, Welte T, Schmidt JJ, Weissmann N, Schermuly RT, Barreto G, Schaefer L, Markart P, Brack MC, Hippenstiel S, Kurth F, Sander LE, Witzenrath M, Kuebler WM, Kwapiszewska G, and Preissner KT

Subjects

Fibrin, Fibrinolysis, Humans, SARS-CoV-2, COVID-19, Thrombosis etiology

Abstract

The high incidence of thrombotic events suggests a possible role of the contact system pathway in COVID-19 pathology. In this study, we determined the altered levels of factor XII (FXII) and its activation products in critically ill patients with COVID-19 in comparison with patients with severe acute respiratory distress syndrome related to the influenza virus (acute respiratory distress syndrome [ARDS]-influenza). Compatible with those data, we found rapid consumption of FXII in COVID-19 but not in ARDS-influenza plasma. Interestingly, the lag phase in fibrin formation, triggered by the FXII activator kaolin, was not prolonged in COVID-19, as opposed to that in ARDS-influenza. Confocal and electron microscopy showed that increased FXII activation rate, in conjunction with elevated fibrinogen levels, triggered formation of fibrinolysis-resistant, compact clots with thin fibers and small pores in COVID-19. Accordingly, clot lysis was markedly impaired in COVID-19 as opposed to that in ARDS-influenza. Dysregulated fibrinolytic system, as evidenced by elevated levels of thrombin-activatable fibrinolysis inhibitor, tissue-plasminogen activator, and plasminogen activator inhibitor-1 in COVID-19 potentiated this effect. Analysis of lung tissue sections revealed widespread extra- and intravascular compact fibrin deposits in patients with COVID-19. A compact fibrin network structure and dysregulated fibrinolysis may collectively contribute to a high incidence of thrombotic events in COVID-19., (© 2022 by The American Society of Hematology. Licensed under Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0), permitting only noncommercial, nonderivative use with attribution. All other rights reserved.)

Published

2022

40. Complement activation induces excessive T cell cytotoxicity in severe COVID-19.

Author

Georg P, Astaburuaga-García R, Bonaguro L, Brumhard S, Michalick L, Lippert LJ, Kostevc T, Gäbel C, Schneider M, Streitz M, Demichev V, Gemünd I, Barone M, Tober-Lau P, Helbig ET, Hillus D, Petrov L, Stein J, Dey HP, Paclik D, Iwert C, Mülleder M, Aulakh SK, Djudjaj S, Bülow RD, Mei HE, Schulz AR, Thiel A, Hippenstiel S, Saliba AE, Eils R, Lehmann I, Mall MA, Stricker S, Röhmel J, Corman VM, Beule D, Wyler E, Landthaler M, Obermayer B, von Stillfried S, Boor P, Demir M, Wesselmann H, Suttorp N, Uhrig A, Müller-Redetzky H, Nattermann J, Kuebler WM, Meisel C, Ralser M, Schultze JL, Aschenbrenner AC, Thibeault C, Kurth F, Sander LE, Blüthgen N, and Sawitzki B

Subjects

Adult, Aged, Aged, 80 and over, COVID-19 virology, Chemotactic Factors metabolism, Cytotoxicity, Immunologic, Endothelial Cells virology, Female, Humans, Lymphocyte Activation, Male, Microvessels virology, Middle Aged, Monocytes metabolism, Neutrophils metabolism, Receptors, IgG metabolism, Single-Cell Analysis, Young Adult, COVID-19 immunology, COVID-19 pathology, Complement Activation, Proteome, SARS-CoV-2 immunology, T-Lymphocytes, Cytotoxic immunology, Transcriptome

Abstract

Severe COVID-19 is linked to both dysfunctional immune response and unrestrained immunopathology, and it remains unclear whether T cells contribute to disease pathology. Here, we combined single-cell transcriptomics and single-cell proteomics with mechanistic studies to assess pathogenic T cell functions and inducing signals. We identified highly activated CD16 + T cells with increased cytotoxic functions in severe COVID-19. CD16 expression enabled immune-complex-mediated, T cell receptor-independent degranulation and cytotoxicity not found in other diseases. CD16 + T cells from COVID-19 patients promoted microvascular endothelial cell injury and release of neutrophil and monocyte chemoattractants. CD16 + T cell clones persisted beyond acute disease maintaining their cytotoxic phenotype. Increased generation of C3a in severe COVID-19 induced activated CD16 + cytotoxic T cells. Proportions of activated CD16 + T cells and plasma levels of complement proteins upstream of C3a were associated with fatal outcome of COVID-19, supporting a pathological role of exacerbated cytotoxicity and complement activation in COVID-19., Competing Interests: Declaration of interests V.M.C. is named together with Euroimmun GmbH on a patent application filed recently regarding SARS-CoV-2 diagnostics via antibody testing. A.R.S. and H.E.M. are listed as inventors on a patent application by the DRFZ Berlin in the field of mass cytometry., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

41. A proteomic survival predictor for COVID-19 patients in intensive care.

Author

Demichev V, Tober-Lau P, Nazarenko T, Lemke O, Kaur Aulakh S, Whitwell HJ, Röhl A, Freiwald A, Mittermaier M, Szyrwiel L, Ludwig D, Correia-Melo C, Lippert LJ, Helbig ET, Stubbemann P, Olk N, Thibeault C, Grüning NM, Blyuss O, Vernardis S, White M, Messner CB, Joannidis M, Sonnweber T, Klein SJ, Pizzini A, Wohlfarter Y, Sahanic S, Hilbe R, Schaefer B, Wagner S, Machleidt F, Garcia C, Ruwwe-Glösenkamp C, Lingscheid T, Bosquillon de Jarcy L, Stegemann MS, Pfeiffer M, Jürgens L, Denker S, Zickler D, Spies C, Edel A, Müller NB, Enghard P, Zelezniak A, Bellmann-Weiler R, Weiss G, Campbell A, Hayward C, Porteous DJ, Marioni RE, Uhrig A, Zoller H, Löffler-Ragg J, Keller MA, Tancevski I, Timms JF, Zaikin A, Hippenstiel S, Ramharter M, Müller-Redetzky H, Witzenrath M, Suttorp N, Lilley K, Mülleder M, Sander LE, Kurth F, and Ralser M

Abstract

Global healthcare systems are challenged by the COVID-19 pandemic. There is a need to optimize allocation of treatment and resources in intensive care, as clinically established risk assessments such as SOFA and APACHE II scores show only limited performance for predicting the survival of severely ill COVID-19 patients. Additional tools are also needed to monitor treatment, including experimental therapies in clinical trials. Comprehensively capturing human physiology, we speculated that proteomics in combination with new data-driven analysis strategies could produce a new generation of prognostic discriminators. We studied two independent cohorts of patients with severe COVID-19 who required intensive care and invasive mechanical ventilation. SOFA score, Charlson comorbidity index, and APACHE II score showed limited performance in predicting the COVID-19 outcome. Instead, the quantification of 321 plasma protein groups at 349 timepoints in 50 critically ill patients receiving invasive mechanical ventilation revealed 14 proteins that showed trajectories different between survivors and non-survivors. A predictor trained on proteomic measurements obtained at the first time point at maximum treatment level (i.e. WHO grade 7), which was weeks before the outcome, achieved accurate classification of survivors (AUROC 0.81). We tested the established predictor on an independent validation cohort (AUROC 1.0). The majority of proteins with high relevance in the prediction model belong to the coagulation system and complement cascade. Our study demonstrates that plasma proteomics can give rise to prognostic predictors substantially outperforming current prognostic markers in intensive care., Competing Interests: The authors declare no competing interests. Author John F. Timms was unable to confirm their authorship contributions. On their behalf, the corresponding author has reported their contributions to the best of their knowledge., (Copyright: © 2022 Demichev et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2022

42. Preclinical Assessment of Bacteriophage Therapy against Experimental Acinetobacter baumannii Lung Infection.

Author

Wienhold SM, Brack MC, Nouailles G, Krishnamoorthy G, Korf IHE, Seitz C, Wienecke S, Dietert K, Gurtner C, Kershaw O, Gruber AD, Ross A, Ziehr H, Rohde M, Neudecker J, Lienau J, Suttorp N, Hippenstiel S, Hocke AC, Rohde C, and Witzenrath M

Subjects

Acinetobacter Infections immunology, Acinetobacter Infections microbiology, Acinetobacter Infections pathology, Animals, Anti-Bacterial Agents pharmacology, Cytokines metabolism, Drug Resistance, Multiple, Bacterial, Female, Humans, Lung immunology, Lung microbiology, Lung pathology, Mice, Mice, Inbred C57BL, Pneumonia, Bacterial immunology, Pneumonia, Bacterial microbiology, Pneumonia, Bacterial pathology, Acinetobacter Infections therapy, Acinetobacter baumannii drug effects, Acinetobacter baumannii virology, Myoviridae physiology, Phage Therapy adverse effects, Pneumonia, Bacterial therapy

Abstract

Respiratory infections caused by multidrug-resistant Acinetobacter baumannii are difficult to treat and associated with high mortality among critically ill hospitalized patients. Bacteriophages (phages) eliminate pathogens with high host specificity and efficacy. However, the lack of appropriate preclinical experimental models hampers the progress of clinical development of phages as therapeutic agents. Therefore, we tested the efficacy of a purified lytic phage, vB_AbaM_Acibel004, against multidrug-resistant A. baumannii clinical isolate RUH 2037 infection in immunocompetent mice and a human lung tissue model. Sham- and A. baumannii -infected mice received a single-dose of phage or buffer via intratracheal aerosolization. Group-specific differences in bacterial burden, immune and clinical responses were compared. Phage-treated mice not only recovered faster from infection-associated hypothermia but also had lower pulmonary bacterial burden, lower lung permeability, and cytokine release. Histopathological examination revealed less inflammation with unaffected inflammatory cellular recruitment. No phage-specific adverse events were noted. Additionally, the bactericidal effect of the purified phage on A. baumannii was confirmed after single-dose treatment in an ex vivo human lung infection model. Taken together, our data suggest that the investigated phage has significant potential to treat multidrug-resistant A. baumannii infections and further support the development of appropriate methods for preclinical evaluation of antibacterial efficacy of phages.

Published

2021

43. SARS-CoV-2 infection triggers profibrotic macrophage responses and lung fibrosis.

Author

Wendisch D, Dietrich O, Mari T, von Stillfried S, Ibarra IL, Mittermaier M, Mache C, Chua RL, Knoll R, Timm S, Brumhard S, Krammer T, Zauber H, Hiller AL, Pascual-Reguant A, Mothes R, Bülow RD, Schulze J, Leipold AM, Djudjaj S, Erhard F, Geffers R, Pott F, Kazmierski J, Radke J, Pergantis P, Baßler K, Conrad C, Aschenbrenner AC, Sawitzki B, Landthaler M, Wyler E, Horst D, Hippenstiel S, Hocke A, Heppner FL, Uhrig A, Garcia C, Machleidt F, Herold S, Elezkurtaj S, Thibeault C, Witzenrath M, Cochain C, Suttorp N, Drosten C, Goffinet C, Kurth F, Schultze JL, Radbruch H, Ochs M, Eils R, Müller-Redetzky H, Hauser AE, Luecken MD, Theis FJ, Conrad C, Wolff T, Boor P, Selbach M, Saliba AE, and Sander LE

Subjects

Antigens, CD metabolism, Antigens, Differentiation, Myelomonocytic metabolism, COVID-19 diagnostic imaging, Cell Communication, Cohort Studies, Fibroblasts pathology, Gene Expression Regulation, Humans, Idiopathic Pulmonary Fibrosis diagnostic imaging, Idiopathic Pulmonary Fibrosis genetics, Mesenchymal Stem Cells pathology, Phenotype, Proteome metabolism, Receptors, Cell Surface metabolism, Respiratory Distress Syndrome diagnostic imaging, Respiratory Distress Syndrome pathology, Respiratory Distress Syndrome virology, Tomography, X-Ray Computed, Transcription, Genetic, CD163 Antigen, COVID-19 pathology, COVID-19 virology, Idiopathic Pulmonary Fibrosis pathology, Idiopathic Pulmonary Fibrosis virology, Macrophages pathology, Macrophages virology, SARS-CoV-2 physiology

Abstract

COVID-19-induced "acute respiratory distress syndrome" (ARDS) is associated with prolonged respiratory failure and high mortality, but the mechanistic basis of lung injury remains incompletely understood. Here, we analyze pulmonary immune responses and lung pathology in two cohorts of patients with COVID-19 ARDS using functional single-cell genomics, immunohistology, and electron microscopy. We describe an accumulation of CD163-expressing monocyte-derived macrophages that acquired a profibrotic transcriptional phenotype during COVID-19 ARDS. Gene set enrichment and computational data integration revealed a significant similarity between COVID-19-associated macrophages and profibrotic macrophage populations identified in idiopathic pulmonary fibrosis. COVID-19 ARDS was associated with clinical, radiographic, histopathological, and ultrastructural hallmarks of pulmonary fibrosis. Exposure of human monocytes to SARS-CoV-2, but not influenza A virus or viral RNA analogs, was sufficient to induce a similar profibrotic phenotype in vitro. In conclusion, we demonstrate that SARS-CoV-2 triggers profibrotic macrophage responses and pronounced fibroproliferative ARDS., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2021. Published by Elsevier Inc.)

Published

2021

44. Analysis of Severe Acute Respiratory Syndrome 2 Replication in Explant Cultures of the Human Upper Respiratory Tract Reveals Broad Tissue Tropism of Wild-Type and B.1.1.7 Variant Viruses.

Author

Schulze J, Mache C, Balázs A, Frey D, Niemeyer D, Olze H, Dommerich S, Drosten C, Hocke AC, Mall MA, Hippenstiel S, and Wolff T

Subjects

Humans, Respiratory Tract Infections, SARS-CoV-2, Trachea, COVID-19 virology, Respiratory System virology, Viral Tropism, Virus Replication

Abstract

Background: The upper respiratory tract (URT) is the primary entry site for severe acute respiratory syndrome 2 (SARS-CoV-2) and other respiratory viruses, but its involvement in viral amplification and pathogenesis remains incompletely understood., Methods: In this study, we investigated primary nasal epithelial cultures, as well as vital explanted tissues, to scrutinize the tropism of wild-type SARS-CoV-2 and the recently emerged B.1.1.7 variant., Results: Our analyses revealed a widespread replication competence of SARS-CoV-2 in polarized nasal epithelium as well as in the examined URT and salivary gland tissues, which was also shared by the B.1.1.7 virus., Conclusions: In our analyses, we highlighted the active role of these anatomic sites in coronavirus disease 2019., (© The Author(s) 2021. Published by Oxford University Press for the Infectious Diseases Society of America. All rights reserved. For permissions, e-mail: journals.permissions@oup.com.)

Published

2021

45. Animal experiments: EU is pushing to find substitutes fast.

Author

Hippenstiel S, Thöne-Reineke C, and Kurreck J

Subjects

Animals, Humans, Models, Animal, Organoids, Animal Use Alternatives trends, European Union, Models, Biological, Research Design trends

Published

2021

46. Cross-reactive CD4 + T cells enhance SARS-CoV-2 immune responses upon infection and vaccination.

Author

Loyal L, Braun J, Henze L, Kruse B, Dingeldey M, Reimer U, Kern F, Schwarz T, Mangold M, Unger C, Dörfler F, Kadler S, Rosowski J, Gürcan K, Uyar-Aydin Z, Frentsch M, Kurth F, Schnatbaum K, Eckey M, Hippenstiel S, Hocke A, Müller MA, Sawitzki B, Miltenyi S, Paul F, Mall MA, Wenschuh H, Voigt S, Drosten C, Lauster R, Lachman N, Sander LE, Corman VM, Röhmel J, Meyer-Arndt L, Thiel A, and Giesecke-Thiel C

Subjects

Adult, Age Factors, Aged, Aged, 80 and over, Asymptomatic Diseases, BNT162 Vaccine, CD3 Complex immunology, COVID-19 Vaccines immunology, Cross Reactions, Female, Humans, Immunity, Immunodominant Epitopes immunology, Male, Middle Aged, Open Reading Frames, Peptide Fragments immunology, SARS-CoV-2 genetics, Spike Glycoprotein, Coronavirus immunology, Vaccination, Young Adult, CD4-Positive T-Lymphocytes immunology, COVID-19 immunology, SARS-CoV-2 immunology

Abstract

The functional relevance of preexisting cross-immunity to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is a subject of intense debate. Here, we show that human endemic coronavirus (HCoV)–reactive and SARS-CoV-2–cross-reactive CD4 + T cells are ubiquitous but decrease with age. We identified a universal immunodominant coronavirus-specific spike peptide (S816-830) and demonstrate that preexisting spike- and S816-830–reactive T cells were recruited into immune responses to SARS-CoV-2 infection and their frequency correlated with anti–SARS-CoV-2-S1-IgG antibodies. Spike–cross-reactive T cells were also activated after primary BNT162b2 COVID-19 messenger RNA vaccination and displayed kinetics similar to those of secondary immune responses. Our results highlight the functional contribution of preexisting spike–cross-reactive T cells in SARS-CoV-2 infection and vaccination. Cross-reactive immunity may account for the unexpectedly rapid induction of immunity after primary SARS-CoV-2 immunization and the high rate of asymptomatic or mild COVID-19 disease courses.

Published

2021

47. Increased risk of severe clinical course of COVID-19 in carriers of HLA-C*04:01.

Author

Weiner J, Suwalski P, Holtgrewe M, Rakitko A, Thibeault C, Müller M, Patriki D, Quedenau C, Krüger U, Ilinsky V, Popov I, Balnis J, Jaitovich A, Helbig ET, Lippert LJ, Stubbemann P, Real LM, Macías J, Pineda JA, Fernandez-Fuertes M, Wang X, Karadeniz Z, Saccomanno J, Doehn JM, Hübner RH, Hinzmann B, Salvo M, Blueher A, Siemann S, Jurisic S, Beer JH, Rutishauser J, Wiggli B, Schmid H, Danninger K, Binder R, Corman VM, Mühlemann B, Arjun Arkal R, Fragiadakis GK, Mick E, Comet C, Calfee CS, Erle DJ, Hendrickson CM, Kangelaris KN, Krummel MF, Woodruff PG, Langelier CR, Venkataramani U, García F, Zyla J, Drosten C, Alice B, Jones TC, Suttorp N, Witzenrath M, Hippenstiel S, Zemojtel T, Skurk C, Poller W, Borodina T, Pa-Covid SG, Ripke S, Sander LE, Beule D, Landmesser U, Guettouche T, Kurth F, and Heidecker B

Abstract

Background: Since the beginning of the coronavirus disease 2019 (COVID-19) pandemic, there has been increasing urgency to identify pathophysiological characteristics leading to severe clinical course in patients infected with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Human leukocyte antigen alleles (HLA) have been suggested as potential genetic host factors that affect individual immune response to SARS-CoV-2. We sought to evaluate this hypothesis by conducting a multicenter study using HLA sequencing., Methods: We analyzed the association between COVID-19 severity and HLAs in 435 individuals from Germany ( n  = 135), Spain ( n  = 133), Switzerland ( n  = 20) and the United States ( n  = 147), who had been enrolled from March 2020 to August 2020. This study included patients older than 18 years, diagnosed with COVID-19 and representing the full spectrum of the disease. Finally, we tested our results by meta-analysing data from prior genome-wide association studies (GWAS)., Findings: We describe a potential association of HLA-C*04:01 with severe clinical course of COVID-19. Carriers of HLA-C*04:01 had twice the risk of intubation when infected with SARS-CoV-2 (risk ratio 1.5 [95% CI 1.1-2.1], odds ratio 3.5 [95% CI 1.9-6.6], adjusted p -value = 0.0074). These findings are based on data from four countries and corroborated by independent results from GWAS. Our findings are biologically plausible, as HLA-C*04:01 has fewer predicted bindings sites for relevant SARS-CoV-2 peptides compared to other HLA alleles., Interpretation: HLA-C*04:01 carrier state is associated with severe clinical course in SARS-CoV-2. Our findings suggest that HLA class I alleles have a relevant role in immune defense against SARS-CoV-2., Funding: Funded by Roche Sequencing Solutions, Inc., Competing Interests: Bettina Heidecker, MD reports support from Roche Sequencing Solutions, Inc; a project grant from the Swiss National Science Foundation; is an inventor on patents that use RNA for diagnosis of myocarditis. Juerg H. Beer, MD reports grants from the Swiss National Foundation of Science, the Swiss Heart Foundation, the Foundation Kardio, Baden; Grant support to the institution from Bayer not related to this study; and lecture fee from Daiichi Sankyo to the institution. Martin Witzenrath, MD reports grants from Deutsche Forschungsgemeinschaft, Bundesministerium für Bildung und Forschung, Deutsche Gesellschaft für Pneumologie, European Respiratory Society, Marie Curie Foundation, Else Kröner Fresenius Stiftung, Capnetz Stiftung, International Max Planck Research School, Quark Pharma, Takeda Pharma, Noxxon, Pantherna, Silence Therapeutics, Vaxxilon, Actelion, Bayer Health Care, Biotest, and Boehringer Ingelheim; consulting fees from Noxxon, Pantherna, Silence Therapeutics, Vaxxilon, Aptarion, Glaxo Smith Kline, Sinoxa, and Biotest; payment or honoraria for lectures, presentations, speakers bureaus, manuscript writing or educational events from Astra Zeneca, Berlin Chemie, Chiesi, Novartis, Teva, Actelion, Boehringer Ingelheim, Glaxo Smith Kline, Biotest, and Bayer Health Care; patent EPO 12,181,535.1: IL-27 for modulation of immune response in acute lung injury issued 2012, patent WO/2010/094,491: Means for inhibiting the expression of Ang-2 issued 2010, and patent DE 102,020,116,249.9: Camostat/ Niclosamide cotreatment in SARS-CoV-2 infected human lung cells issued 2020/21. Alexander Rakitko, Valery Ilinsky, and Iaroslav Popov are employees of Genotek Ltd. Melina Müller declares support for the present manuscript from Roche Sequencing Solutions and Swiss National Science Foundation and Berlin Institutes of Health. Joseph Balnis and Ariel Jaitovich declare support from the National Institute of Health (NIH, K01-HL130704). Bernd Hinzmann, Mauricio A Salvo, Anja Blüher, and Sandra Siemann declare support from Roche Sequencing Solutions. Carolyn Calfee reports NIH payment to her institution; payment from Roche/Genentech Payment and Bayer to her institution for observational study in ARDS; payment from Quantum Leap Healthcare Collaborative to her institution for adaptive platform Phase 2 trial in COVID-19; and consulting fees for novel therapies for ARDS from Vasomune and Quark Pharmaceuticals Payment. David J Erle reports NIH Grants to UCSF. Prescott G Woodruff reports support from Roche Sequencing Solutions, Inc., Swiss National Science Foundation, and Berlin Institutes of Health; US National Institutes of Health grant to his institution (U19AI077439) Charles Langelier reports NIH payment to his institution. Federico García reports grants from ViiV, MSD, and Roche; payment from Abbvie, Gilead, ViiV, MSD, and Roche; support for attending meetings and/or travel from Abbvie and Gilead; participation on a Data Safety Monitoring Board or Advisory Board for Gilead, ViiV, and Thera. Joanna Zyla has been supported by the Silesian University of Technology grant for Support and Development of Research Potential. Terry C. Jones reports a grant from Wellcome Trust, UK, on unrelated research on ancient viral DNA and an NIAID-NIH CEIRS grant (HHSN272201400008C). Leif Erik Sander reports Berlin Institutes of Health support to the PA-COVID-19 study group. Wolfgang Poller reports that this study was partially funded by Roche Sequencing Solutions, Inc., which also provided material for exome sequencing. Ulf Landmesser reports consulting fees from Abbott, Amgen, Bayer, Cardiac Dimensions, Novartis, Pfizer, and Omeicos; payment or honoraria for lectures, presentations, speakers bureaus, manuscript writing or educational events from Novartis, Abott, NovoNordisk, Bayer, Amgen, DaiichiSankyo, Pfizer, Sanofi, Boson Scientific, Astra Zeneca, and Boehringer Ingelheim. All other authors have nothing to declare., (© 2021 The Authors.)

Published

2021

48. Krueppel-Like Factor 4 Expression in Phagocytes Regulates Early Inflammatory Response and Disease Severity in Pneumococcal Pneumonia.

Author

Herta T, Bhattacharyya A, Rosolowski M, Conrad C, Gurtner C, Gruber AD, Ahnert P, Gutbier B, Frey D, Suttorp N, Hippenstiel S, and Zahlten J

Subjects

Adult, Aged, Animals, Bacteremia diagnosis, Bronchoalveolar Lavage Fluid cytology, Community-Acquired Infections microbiology, Disease Models, Animal, Female, Humans, Interleukin-10 metabolism, Kruppel-Like Factor 4 genetics, Kruppel-Like Factor 4 metabolism, Lung immunology, Lung pathology, Male, Mice, Mice, Inbred C57BL, Middle Aged, Pneumonia, Pneumococcal immunology, Severity of Illness Index, Streptococcus pneumoniae immunology, Bacteremia pathology, Community-Acquired Infections pathology, Phagocytes metabolism, Pneumonia, Pneumococcal pathology

Abstract

The transcription factor Krueppel-like factor (KLF) 4 fosters the pro-inflammatory immune response in macrophages and polymorphonuclear neutrophils (PMNs) when stimulated with Streptococcus pneumoniae , the main causative pathogen of community-acquired pneumonia (CAP). Here, we investigated the impact of KLF4 expression in myeloid cells such as macrophages and PMNs on inflammatory response and disease severity in a pneumococcal pneumonia mouse model and in patients admitted to hospital with CAP. We found that mice with a myeloid-specific knockout of KLF4 mount an insufficient early immune response with reduced levels of pro-inflammatory cytokines and increased levels of the anti-inflammatory cytokine interleukin (IL) 10 in bronchoalveolar lavage fluid and plasma and an impaired bacterial clearance from the lungs 24 hours after infection with S. pneumoniae . This results in higher rates of bacteremia, increased lung tissue damage, more severe symptoms of infection and reduced survival. Higher KLF4 gene expression levels in the peripheral blood of patients with CAP at hospital admission correlate with a favourable clinical presentation (lower sequential organ failure assessment (SOFA) score), lower serum levels of IL-10 at admission, shorter hospital stay and lower mortality or requirement of intensive care unit treatment within 28 days after admission. Thus, KLF4 in myeloid cells such as macrophages and PMNs is an important regulator of the early pro-inflammatory immune response and, therefore, a potentially interesting target for therapeutic interventions in pneumococcal pneumonia., 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 Herta, Bhattacharyya, Rosolowski, Conrad, Gurtner, Gruber, Ahnert, Gutbier, Frey, Suttorp, Hippenstiel and Zahlten.)

Published

2021

49. Functional comparison of MERS-coronavirus lineages reveals increased replicative fitness of the recombinant lineage 5.

Author

Schroeder S, Mache C, Kleine-Weber H, Corman VM, Muth D, Richter A, Fatykhova D, Memish ZA, Stanifer ML, Boulant S, Gultom M, Dijkman R, Eggeling S, Hocke A, Hippenstiel S, Thiel V, Pöhlmann S, Wolff T, Müller MA, and Drosten C

Subjects

Animals, Camelus, Cells, Cultured, Coronavirus Infections epidemiology, Coronavirus Infections transmission, Genome, Viral, Humans, Middle East Respiratory Syndrome Coronavirus isolation & purification, Middle East Respiratory Syndrome Coronavirus pathogenicity, Phylogeny, Recombination, Genetic, Republic of Korea epidemiology, Saudi Arabia epidemiology, Virus Replication, Coronavirus Infections virology, Middle East Respiratory Syndrome Coronavirus genetics

Abstract

Middle East respiratory syndrome coronavirus (MERS-CoV) is enzootic in dromedary camels across the Middle East and Africa. Virus-induced pneumonia in humans results from animal contact, with a potential for limited onward transmission. Phenotypic changes have been suspected after a novel recombinant clade (lineage 5) caused large nosocomial outbreaks in Saudi Arabia and South Korea in 2016. However, there has been no functional assessment. Here we perform a comprehensive in vitro and ex vivo comparison of viruses from parental and recombinant virus lineages (lineage 3, n = 7; lineage 4, n = 8; lineage 5, n = 9 viruses) from Saudi Arabia, isolated immediately before and after the shift toward lineage 5. Replication of lineage 5 viruses is significantly increased. Transcriptional profiling finds reduced induction of immune genes IFNB1, CCL5, and IFNL1 in lung cells infected with lineage 5 strains. Phenotypic differences may be determined by IFN antagonism based on experiments using IFN receptor knock out and signaling inhibition. Additionally, lineage 5 is more resilient against IFN pre-treatment of Calu-3 cells (ca. 10-fold difference in replication). This phenotypic change associated with lineage 5 has remained undiscovered by viral sequence surveillance, but may be a relevant indicator of pandemic potential., (© 2021. The Author(s).)

Published

2021

50. A time-resolved proteomic and prognostic map of COVID-19.

Author

Demichev V, Tober-Lau P, Lemke O, Nazarenko T, Thibeault C, Whitwell H, Röhl A, Freiwald A, Szyrwiel L, Ludwig D, Correia-Melo C, Aulakh SK, Helbig ET, Stubbemann P, Lippert LJ, Grüning NM, Blyuss O, Vernardis S, White M, Messner CB, Joannidis M, Sonnweber T, Klein SJ, Pizzini A, Wohlfarter Y, Sahanic S, Hilbe R, Schaefer B, Wagner S, Mittermaier M, Machleidt F, Garcia C, Ruwwe-Glösenkamp C, Lingscheid T, Bosquillon de Jarcy L, Stegemann MS, Pfeiffer M, Jürgens L, Denker S, Zickler D, Enghard P, Zelezniak A, Campbell A, Hayward C, Porteous DJ, Marioni RE, Uhrig A, Müller-Redetzky H, Zoller H, Löffler-Ragg J, Keller MA, Tancevski I, Timms JF, Zaikin A, Hippenstiel S, Ramharter M, Witzenrath M, Suttorp N, Lilley K, Mülleder M, Sander LE, Ralser M, and Kurth F

Subjects

Age Factors, Blood Cell Count, Blood Gas Analysis, Enzyme Activation, Humans, Inflammation pathology, Machine Learning, Prognosis, Proteomics, SARS-CoV-2 immunology, Biomarkers analysis, COVID-19 pathology, Disease Progression, Proteome physiology

Abstract

COVID-19 is highly variable in its clinical presentation, ranging from asymptomatic infection to severe organ damage and death. We characterized the time-dependent progression of the disease in 139 COVID-19 inpatients by measuring 86 accredited diagnostic parameters, such as blood cell counts and enzyme activities, as well as untargeted plasma proteomes at 687 sampling points. We report an initial spike in a systemic inflammatory response, which is gradually alleviated and followed by a protein signature indicative of tissue repair, metabolic reconstitution, and immunomodulation. We identify prognostic marker signatures for devising risk-adapted treatment strategies and use machine learning to classify therapeutic needs. We show that the machine learning models based on the proteome are transferable to an independent cohort. Our study presents a map linking routinely used clinical diagnostic parameters to plasma proteomes and their dynamics in an infectious disease., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021