Refine
Year of publication
Document Type
- Article (93)
- Doctoral Thesis (7)
Has Fulltext
- yes (100)
Is part of the Bibliography
- no (100)
Keywords
- inflammation (100) (remove)
Institute
- Medizin (80)
- Biochemie, Chemie und Pharmazie (8)
- Sonderforschungsbereiche / Forschungskollegs (8)
- Sportwissenschaften (8)
- Pharmazie (5)
- Biochemie und Chemie (4)
- Zentrum für Arzneimittelforschung, Entwicklung und Sicherheit (3)
- Biowissenschaften (2)
- Buchmann Institut für Molekulare Lebenswissenschaften (BMLS) (1)
- Physik (1)
Extracts of frankincense, the gum resin of Boswellia species, have been extensively used in traditional folk medicine since ancient times and are still of great interest as promising anti-inflammatory remedies in Western countries. Despite their common therapeutic use and the intensive pharmacological research including studies on active ingredients, modes of action, bioavailability, pharmacokinetics, and clinical efficacy, frankincense preparations are available as nutraceuticals but have not yet approved as a drug on the market. A major issue of commercially available frankincense nutraceuticals is the striking differences in their composition and quality, especially related to the content of boswellic acids (BAs) as active ingredients, mainly due to the use of material from divergent Boswellia species but also because of different work-up and extraction procedures. Here, we assessed three frequently used frankincense-based preparations for their BA content and the interference with prominent pro-inflammatory actions and targets that have been proposed, that is, 5-lipoxygenase and leukotriene formation in human neutrophils, microsomal prostaglandin E2 synthase-1, and inflammatory cytokine secretion in human blood monocytes. Our data reveal striking differences in the pharmacological efficiencies of these preparations in inflammation-related bioassays which obviously correlate with the amounts of BAs they contain. In summary, high-quality frankincense extracts display powerful anti-inflammatory effectiveness against multiple targets which can be traced back to BAs as bioactive ingredients.
Exogenous adenosine and its metabolite inosine exert anti-inflammatory effects in synoviocytes of osteoarthritis (OA) and rheumatoid arthritis (RA) patients. We analyzed whether these cells are able to synthesize adenosine/inosine and which adenosine receptors (ARs) contribute to anti-inflammatory effects. The functionality of synthesizing enzymes and ARs was tested using agonists/antagonists. Both OA and RA cells expressed CD39 (converts ATP to AMP), CD73 (converts AMP to adenosine), ADA (converts adenosine to inosine), ENT1/2 (adenosine transporters), all AR subtypes (A1, A2A, A2B and A3) and synthesized predominantly adenosine. The CD73 inhibitor AMPCP significantly increased IL-6 and decreased IL-10 in both cell types, while TNF only increased in RA cells. The ADA inhibitor DAA significantly reduced IL-6 and induced IL-10 in both OA and RA cells. The A2AAR agonist CGS 21680 significantly inhibited IL-6 and induced TNF and IL-10 only in RA, while the A2BAR agonist BAY 60-6583 had the same effect in both OA and RA. Taken together, OA and RA synoviocytes express the complete enzymatic machinery to synthesize adenosine/inosine; however, mainly adenosine is responsible for the anti- (IL-6 and IL-10) or pro-inflammatory (TNF) effects mediated by A2A- and A2BAR. Stimulating CD39/CD73 with simultaneous ADA blockage in addition to TNF inhibition might represent a promising therapeutic strategy.
End-stage renal disease has been denominated a vasculopathic state, owing to the accelerated arterial stiffening, which occurs in addition to and independent of atherosclerosis and bears an increased cardiovascular risk. The altered metabolic milieu in uraemia leads to an increased oxidative stress, heightened inflammatory burden, and an abnormal calcium-phosphate metabolism, which are thought to be responsible for the vascular changes. The pulse wave velocity (PWV) is a widely employed surrogate parameter of arteriosclerosis. The purpose of this study was to gain more insight into the pathogenesis of arterial stiffness, by investigating the influence of markers of oxidative stress, procoagulation, and inflammation, and of the calcium-phosphate product on the PWV. We conducted a cross-sectional study in 53 stable patients aged 59 ± 16 years, who had been on haemodialysis for at least 4 months (68 ± 48). Carotid-radial PWV was measured using a semi-automated device, Complior SP (Artech Medical, France). Advanced glycosylation end-products (AGE) and advanced oxidation protein products (AOPP), were quantified according to previously described methods. High sensitive CRP was measured using ELISA, whereas the other biochemical parameters, i.e. fibrinogen, albumin, calcium, phosphate, cholesterol, and triglycerides, were determined using routine methods. For statistical calculations we employed SPSS (Statistical Package of Social Science, 12.0, 2003). The correlations between PWV, as the dependent variable, and many dependent variables were assessed by means of multiple regression analysis, in which we controlled for the influence of the traditional cardiovascular risk factors and some of the patients’ medication (calcium-channel blockers and statins). PWV was found to be significantly correlated to serum CRP (p=0.003), LDLcholesterol (p<0.001), triglycerides (p<0.001), AGE (p=0.002), calcium (p<0.001), phosphate (p=0.001), and fibrinogen (p=0.020). Between PWV and dialysis duration (months) an interesting quadratic relationship (p=0.058) was noted. Against expectation, regression analysis showed a negative correlation between AOPP and PWV (p=0.001). We failed to confirm the correlation between PWV and age, systolic blood pressure, or heart rate. Among traditional cardiovascular risk factors only LDL-cholesterol was positively correlated to PWV. In this cross-sectional analysis we could put forward that PWV correlates positively and significantly with fibrinogen, CRP, AGEs, calcium, phosphate, and LDL-cholesterol in haemodialysis patients. It seems procoagulatory and proinflammatory pathways, oxidative stress, and the calcium-phosphate product exert a synergistic effect on disturbances of vascular architecture in ESRD patients.
Autophagy is a core molecular pathway for the preservation of cellular and organismal homeostasis. Pharmacological and genetic interventions impairing autophagy responses promote or aggravate disease in a plethora of experimental models. Consistently, mutations in autophagy-related processes cause severe human pathologies. Here, we review and discuss preclinical data linking autophagy dysfunction to the pathogenesis of major human disorders including cancer as well as cardiovascular, neurodegenerative, metabolic, pulmonary, renal, infectious, musculoskeletal, and ocular disorders.
Chronic kidney disease and diabetes mellitus are associated with extensive media calcification, which leads to increased cardiovascular morbidity and mortality. Here, we investigated the role of autophagy in the pathogenesis of uremic vascular media calcification. DBA/2 mice were fed with high-phosphate diet (HPD) in order to cause vascular calcification. DBA/2 mice on standard chow diet were used as control. In parallel, autophagy and its response to rapamycin, 3-methyladenine (3-MA), and bafilomycin were studied in an in vitro model using mouse vascular smooth muscle cells (MOVAS). DBA/2 mice on HPD developed severe vascular media calcification, which is mirrored in vitro by culturing MOVAS under calcifying conditions. Both, in vitro and in vivo, autophagy significantly increased in MOVAS under calcifying conditions and in aortas of HPD mice, respectively. Histologically, autophagy was located to the aortic Tunica media, but also vascular endothelial cells, and was found to continuously increase during HPD treatment. 3-MA as well as bafilomycin blocked autophagy in MOVAS and increased calcification. Vice versa, rapamycin treatment further increased autophagy and resulted in a significant decrease of vascular calcification in vitro and in vivo. Rapamycin reduced Runx2 transcription levels in aortas and MOVAS to control levels, whereas it increased α-smooth muscle actin and Sm22α transcription in MOVAS to control levels. Furthermore, rapamycin-treated HPD mice survived significantly longer compared to HPD controls. These findings indicate that autophagy is an endogenous response of vascular smooth muscle cells (VSMC) to protect from calcification in uremia. Induction of autophagy by rapamycin protects cells and mice from uremic media calcification possibly by inhibiting osteogenic transdifferentiation of VSMC.
Bacterial and fungal toll-like receptor activation elicits type I IFN responses in mast cells
(2021)
Next to their role in IgE-mediated allergic diseases and in promoting inflammation, mast cells also have antiinflammatory functions. They release pro- as well as antiinflammatory mediators, depending on the biological setting. Here we aimed to better understand the role of mast cells during the resolution phase of a local inflammation induced with the Toll-like receptor (TLR)-2 agonist zymosan. Multiple sequential immunohistology combined with a statistical neighborhood analysis showed that mast cells are located in a predominantly antiinflammatory microenvironment during resolution of inflammation and that mast cell-deficiency causes decreased efferocytosis in the resolution phase. Accordingly, FACS analysis showed decreased phagocytosis of zymosan and neutrophils by macrophages in mast cell-deficient mice. mRNA sequencing using zymosan-induced bone marrow-derived mast cells (BMMC) revealed a strong type I interferon (IFN) response, which is known to enhance phagocytosis by macrophages. Both, zymosan and lipopolysaccharides (LPS) induced IFN-β synthesis in BMMCs in similar amounts as in bone marrow derived macrophages. IFN-β was expressed by mast cells in paws from naïve mice and during zymosan-induced inflammation. As described for macrophages the release of type I IFNs from mast cells depended on TLR internalization and endosome acidification. In conclusion, mast cells are able to produce several mediators including IFN-β, which are alone or in combination with each other able to regulate the phagocytotic activity of macrophages during resolution of inflammation.
Ginger (Zingiber officinale Roscoe) is widely used as medicinal plant. According to the Committee on Herbal Medicinal Products (HMPC), dried powdered ginger rhizome can be applied for the prevention of nausea and vomiting in motion sickness (well-established use). Beyond this, a plethora of pre-clinical studies demonstrated anti-cancer, anti-oxidative, or anti-inflammatory actions. 6-Shogaol is formed from 6-gingerol by dehydration and represents one of the main bioactive principles in dried ginger rhizomes. 6-Shogaol is characterized by a Michael acceptor moiety being reactive with nucleophiles. This review intends to compile important findings on the actions of 6-shogaol as an anti-inflammatory compound: in vivo, 6-shogaol inhibited leukocyte infiltration into inflamed tissue accompanied with reduction of edema swelling. In vitro and in vivo, 6-shogaol reduced inflammatory mediator systems such as COX-2 or iNOS, affected NFκB and MAPK signaling, and increased levels of cytoprotective HO-1. Interestingly, certain in vitro studies provided deeper mechanistic insights demonstrating the involvement of PPAR-γ, JNK/Nrf2, p38/HO-1, and NFκB in the anti-inflammatory actions of the compound. Although these studies provide promising evidence that 6-shogaol can be classified as an anti-inflammatory substance, the exact mechanism of action remains to be elucidated. Moreover, conclusive clinical data for anti-inflammatory actions of 6-shogaol are largely lacking.
Nach schwerem Trauma wird häufig eine immunologische Dysregulation beobachtet, die durch das Vorliegen einer überschießenden Inflammationsreaktion bei gleichzeitig bestehender Immunsuppression gekennzeichnet ist. Diese inadäquate Immunreaktion wird für das Auftreten posttraumatischer Komplikationen wie Systemic Inflammatory Response Syndrome (SIRS), Sepsis oder Multiorganversagen mitverantwortlich gemacht. Eine entscheidende Rolle bei den posttraumatisch ablaufenden immunologischen Vorgängen scheint dabei den Monozyten als Teil des unspezifischen Immunsystems zuzukommen. Ziel der vorliegenden Arbeit war die Untersuchung der Monozytenaktivität nach Trauma unterschiedlicher Ausprägung und Schwere sowie ihre Korrelation mit an der posttraumatischen immunologischen Dysregulation potentiell beteiligten Mediatoren wie Interleukin-6 und Interleukin-10. Im Rahmen dieser 12-monatigen prospektiven klinischen Studie wurde von insgesamt 57 Patienten bei Eintreffen im Schockraum sowie an fünf Folgetagen Vollblut abgenommen. Bei 18 ausgewählten Patienten erfolgten weitere Blutentnahmen bis Tag 14. Die Patienten wurden nach Verletzungsschwere mittels Injury Severity Score (ISS) in fünf Gruppen eingeteilt und einer Kontrollgruppe gegenübergestellt. Die Blutproben wurden zunächst für 24 Stunden mit bakteriellem Lipopolysaccharid (LPS) inkubiert. Schließlich erfolgte aus den gewonnenen Proben mittels ELISA die Messung der Konzentration von Interleukin-1β als Surrogatparameter für die Aktivierbarkeit der Monozyten. Des Weiteren erfolgte die Bestimmung der Konzentrationen von Interleukin-6, Interleukin-10 und CRP im Patientenserum. Die Monozytenaktivität war bereits bei leicht verletzten Patienten mit einem ISS von eins bis acht Punkten signifikant gegenüber der Kontrollgruppe supprimiert. Diese Suppression setzte sich mit steigender Verletzungsschwere signifikant fort. Des Weiteren zeigte sich bereits bei Eintreffen der Patienten im Schockraum in allen Gruppen eine signifikante Suppression der stimulierten monozytären IL-1β-Produktion gegenüber der Kontrollgruppe. In der Gruppe der Leichtverletzten erreichte die IL-1β-Konzentration im Überstand bereits am zweiten Tag nach Trauma wieder die Werte gesunder Probanden, während in Gruppe II an Tag fünf, in Gruppe IV und V erst an Tag sechs ein partieller, nicht signifikanter Anstieg der Werte beobachtet werden konnte. Der Vergleich zwischen männlichen und weiblichen Patienten zeigte eine signifikante Suppression der stimulierten IL-1β-Produktion im weiblichen Kollektiv. Der Vergleich von Patienten mit posttraumatischer Entwicklung eines SIRS und Patienten ohne SIRS-Nachweis zeigte in der SIRS-Gruppe eine signifikante Reduktion der Monozytenaktivität, wobei die SIRS-Patienten im Durchschnitt allerdings auch schwerer verletzt waren. Der Vergleich der stimulierten Monozytenaktivität mit den Serumkonzentrationen von IL-6 und IL-10 zeigte für IL-6 einen der stimulierten IL-1β-Produktion entgegen- gesetzten, signifikanten Konzentrationsanstieg in Abhängigkeit von der Verletzungsschwere. Die Serumkonzentrationen von IL-10 waren erst bei Schwerstverletzten mit einem ISS ≥ 25 Punkten signifikant erhöht. Die Untersuchung der CRP-Serumkonzentration in Abhängigkeit von der Verletzungsschwere zeigte von Gruppe I bis III einen signifikanten Anstieg. Ab einem ISS von ≥ 16 Punkten war jedoch keine signifikante Konzentrationserhöhung des Serum-CRP mehr zu verzeichnen. Die vorliegende Studie zeigt, dass es bereits bei leichten Verletzungen zu einer Suppression des unspezifischen Immunsystems und hierbei insbesondere der Monozytenaktivität kommt. Diese Immunsuppression lässt sich bereits kurz nach dem Trauma, bei Eintreffen in der Klinik, nachweisen. Die Ursache für die wider Erwarten deutliche Reduktion der Monozytenaktivität bei weiblichen gegenüber männlichen Patienten konnte nicht geklärt werden. Eine mögliche Ursache könnte das fortgeschrittene, postmenopausale Alter zahlreicher Patientinnen sein. Aufgrund seiner geringer ausgeprägten Korrelation mit der Verletzungsschwere erwies sich die Serumkonzentration von CRP im Vergleich mit der stimulierten IL-1β-Produktion und der IL-6-Serumkonzentration als der für diese Untersuchung weniger geeignete Parameter.
Research over the past few years has provided fascinating results indicating that biglycan, besides being a ubiquitous structural component of the extracellular matrix (ECM), may act as a signaling molecule. Proteolytically released from the ECM, biglycan acts as a danger signal signifying tissue stress or injury. As a ligand of innate immunity receptors and activator of the inflammasome, biglycan stimulates multifunctional proinflammatory signaling linking the innate to the adaptive immune response. By clustering several types of receptors on the cell surface and orchestrating their downstream signaling events, biglycan is capable to autonomously trigger sterile inflammation and to potentiate the inflammatory response to microbial invasion. Besides operating in a broad biological context, biglycan also displays tissue-specific affinities to certain receptors and structural components, thereby playing a crucial role in bone formation, muscle integrity, and synapse stability at the neuromuscular junction. This review attempts to provide a concise summary of recent data regarding the involvement of biglycan in the regulation of inflammation and the musculoskeletal system, pointing out both a signaling and a structural role for this proteoglycan. The potential of biglycan as a novel therapeutic target or agent for the treatment of inflammatory diseases and skeletal muscular dystrophies is also addressed.
Inflammatory diseases including psoriasis are associated with metabolic and cardiovascular comorbidities, including obesity and metabolic syndrome. Obesity is associated with greater psoriasis disease severity and reduced response to treatment. Therefore, targeting metabolic comorbidities could improve patients’ health status and psoriasis-specific outcomes. METABOLyx is a randomized controlled trial evaluating the combination of a lifestyle intervention program with secukinumab treatment in psoriasis. Here, the rationale, methodology and baseline patient characteristics of METABOLyx are presented. A total of 768 patients with concomitant moderate to severe plaque psoriasis and metabolic syndrome were randomized to secukinumab 300 mg, or secukinumab 300 mg plus a tailored lifestyle intervention program, over 24 weeks. A substudy of immunologic and metabolic biomarkers is ongoing. The primary endpoint of METABOLyx is PASI90 response at week 24. Other endpoints include patient-reported outcomes and safety. METABOLyx represents the first large scale clinical trial of an immunomodulatory biologic in combination with a standardized lifestyle intervention.