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Impact of proteostasis and the ubiquitin proteasome system on myeloid cell function in the CNS
(2023)
Cellular protein homeostasis (proteostasis) maintains a functional proteome and thus proper cell function. Proteostasis is facilitated by the ubiquitin-proteasome system (UPS), an intracellular protein turnover machinery ensuring clearance of damaged, misfolded, old and/or unneeded regulatory proteins. This is particularly important in the central nervous system (CNS), where it is linked to neurodegeneration. Disruptions of the proteostasis systems cause the accumulation of misfolded proteins which are commonly seen in progressive neurodegenerative diseases also linked to neuroinflammation. Proper UPS function can protect cells from the accumulation of defective proteins, neurodegeneration and neuroinflammation. Furthermore, it has been found that loss of function mutations in the genes encoding UPS components are linked to systemic inflammation including neuroinflammation and/or neurodevelopmental disorders. Proteasome defects in patients suffering from these disorders cause decreased proteasome activity, accumulation of proteins, activation of proteotoxic stress responses and systemic inflammation. However, the molecular link between proteotoxic stress and the initiation of inflammatory signalling remained unclear. In Article 2, we summarized the importance of the UPS in immune cell proteostasis and function including activation of innate and adaptive immune responses. Although UPS function is notably important in innate immune signalling, the current understanding of the role of UPS in myeloid cell function in the CNS is limited. We also indicated the involvement of impaired UPS function in sterile systemic inflammation including neuroinflammation as well as tumour diseases and pathogen manipulation of immune cells.
To investigate the molecular link behind proteasome impairment and systemic inflammation in the brain, we focused on microglia cells as the only immune residents of the CNS. In Article 1, we used a pharmacological inhibitor called bortezomib which targets β5 and β5i/LMP7 subunit activities in standard proteasome (SP) and immunoproteasome (IP), respectively. We showed for the first time on the molecular level that inhibition of proteasome activity by bortezomib triggers the accumulation of ubiquitylated proteins, proteotoxic stress responses and innate immune signalling activation depending on the induced proteotoxic stress response called unfolded protein response (UPR) in murine microglia. In particular, activation of the inositol-requiring protein 1α arm of UPR upon bortezomib treatment leads to systemic inflammation as indicated by type I interferon (IFN) response.
IP enhance the proteolytic capacity of UPS by rapid clearance of proteins upon immune signalling activation. Microglia, like other immune cells, exhibit constitutive expression of IP as well as SP to maintain their cellular proteostasis. In Manuscript 3, we studied the particular impact of IP impairment on microglial cellular function. We showed accumulation of ubiquitin-modified proteins and activation of proteotoxic stress responses in IP-impaired mouse and human microglia models. Moreover, we identified possible IP substrates in microglia using β5i/LMP7 knockout mice as an IP deficiency model and, examined how IP deficiency affects microglia function. IP deficient microglia affected the ubiquitylation levels of proteins involved in multiple pathways such as immune responses, energy metabolism, cytoskeleton organisation, cell cycle and ribosome function. Based on the molecular analysis, we confirmed sterile activation of innate immune signalling mechanisms in IP impaired microglia. This is driven by the proteotoxic stress sensor protein kinase R (PKR). In addition, we were able to show that IP impairment altered levels of the microglial activation markers, which are also involved in motility, adhesion and phagocytosis of microglia.
In this thesis, we highlight that UPS function is necessary to maintain microglial proteostasis and, that impairment of proteasome activities triggers sterile inflammation in microglia via activation of proteotoxic stress responses. The described activation of innate immune signalling mechanisms in microglia upon proteasome impairment may be considered as new therapeutic targets for patients suffering from rare protesomapathies or other disorders linked to dysregulated immune signalling.
Metabolic syndrome is a significant worldwide public health challenge and is inextricably linked to adverse renal and cardiovascular outcomes. The inhibition of the transient receptor potential cation channel subfamily C member 6 (TRPC6) has been found to ameliorate renal outcomes in the unilateral ureteral obstruction (UUO) of accelerated renal fibrosis. Therefore, the pharmacological inhibition of TPRC6 could be a promising therapeutic intervention in the progressive tubulo-interstitial fibrosis in hypertension and metabolic syndrome. In the present study, we hypothesized that the novel selective TRPC6 inhibitor SH045 (larixyl N-methylcarbamate) ameliorates UUO-accelerated renal fibrosis in a New Zealand obese (NZO) mouse model, which is a polygenic model of metabolic syndrome. The in vivo inhibition of TRPC6 by SH045 markedly decreased the mRNA expression of pro-fibrotic markers (Col1α1, Col3α1, Col4α1, Acta2, Ccn2, Fn1) and chemokines (Cxcl1, Ccl5, Ccr2) in UUO kidneys of NZO mice compared to kidneys of vehicle-treated animals. Renal expressions of intercellular adhesion molecule 1 (ICAM-1) and α-smooth muscle actin (α-SMA) were diminished in SH045- versus vehicle-treated UUO mice. Furthermore, renal inflammatory cell infiltration (F4/80+ and CD4+) and tubulointerstitial fibrosis (Sirius red and fibronectin staining) were ameliorated in SH045-treated NZO mice. We conclude that the pharmacological inhibition of TRPC6 might be a promising antifibrotic therapeutic method to treat progressive tubulo-interstitial fibrosis in hypertension and metabolic syndrome.
Platelets transfusion is a safe process, but during or after the process, the recipient may experience an adverse reaction and occasionally a serious adverse reaction (SAR). In this review, we focus on the inflammatory potential of platelet components (PCs) and their involvement in SARs. Recent evidence has highlighted a central role for platelets in the host inflammatory and immune responses. Blood platelets are involved in inflammation and various other aspects of innate immunity through the release of a plethora of immunomodulatory cytokines, chemokines, and associated molecules, collectively termed biological response modifiers that behave like ligands for endothelial and leukocyte receptors and for platelets themselves. The involvement of PCs in SARs—particularly on a critically ill patient’s context—could be related, at least in part, to the inflammatory functions of platelets, acquired during storage lesions. Moreover, we focus on causal link between platelet activation and immune-mediated disorders (transfusion-associated immunomodulation, platelets, polyanions, and bacterial defense and alloimmunization). This is linked to the platelets’ propensity to be activated even in the absence of deliberate stimuli and to the occurrence of time-dependent storage lesions.
Decreased inflammatory profile in oral leukoplakia tissue exposed to cold physical plasma ex vivo
(2023)
Background
Oral leukoplakia (OL) is an unfavorable oral disease often resistant to therapy. To this end, cold physical plasma technology was explored as a novel therapeutic agent in an experimental setup.
Methods
Biopsies with a diameter of 3 mm were obtained from non-diseased and OL tissues. Subsequently, cold atmospheric pressure plasma (CAP) exposure was performed ex vivo in the laboratory. After 20 h of incubation, biopsies were cryo-conserved, and tissue sections were quantified for lymphocyte infiltrates, discriminating between naïve and memory cytotoxic and T-helper cells. In addition, the secretion pattern related to inflammation was investigated in the tissue culture supernatants by quantifying 10 chemokines and cytokines.
Results
In CAP-treated OL tissue, significantly decreased overall lymphocyte numbers were observed. In addition, reduced levels were observed when discriminating for the T-cell subpopulations but did not reach statistical significance. Moreover, CAP treatment significantly reduced levels of C-X-C motif chemokine 10 (CXCL10) and granulocyte-macrophage colony-stimulating factor in the OL biopsies' supernatants. In idiopathically inflamed tissues, ex vivo CAP exposure reduced T-cells and CXCL10 as well but also led to markedly increased interleukin-1β secretion.
Conclusion
Our findings suggest CAP to have immuno-modulatory properties, which could be of therapeutic significance in the therapy of OL. Future studies should investigate the efficacy of CAP therapy in vivo in a larger cohort.
Pulmonary manifestation (PM) of inflammatory bowel disease (IBD) in children is a rare condition. The exact pathogenesis is still unclear, but several explanatory concepts were postulated and several case reports in children were published. We performed a systematic Medline search between April 1976 and April 2022. Different pathophysiological concepts were identified, including the shared embryological origin, “miss-homing” of intestinal based neutrophils and T lymphocytes, inflammatory triggering via certain molecules (tripeptide proline-glycine-proline, interleukin 25), genetic factors and alterations in the microbiome. Most pediatric IBD patients with PM are asymptomatic, but can show alterations in pulmonary function tests and breathing tests. In children, the pulmonary parenchyma is more affected than the airways, leading histologically mainly to organizing pneumonia. Medication-associated lung injury has to be considered in pulmonary symptomatic pediatric IBD patients treated with certain agents (i.e., mesalamine, sulfasalazine or infliximab). Furthermore, the risk of pulmonary embolism is generally increased in pediatric IBD patients. The initial treatment of PM is based on corticosteroids, either inhaled for the larger airways or systemic for smaller airways and parenchymal disease. In summary, this review article summarizes the current knowledge about PM in pediatric IBD patients, focusing on pathophysiological and clinical aspects.
Abstract
Cellular stress has been associated with inflammation, yet precise underlying mechanisms remain elusive. In this study, various unrelated stress inducers were employed to screen for sensors linking altered cellular homeostasis and inflammation. We identified the intracellular pattern recognition receptors NOD1/2, which sense bacterial peptidoglycans, as general stress sensors detecting perturbations of cellular homeostasis. NOD1/2 activation upon such perturbations required generation of the endogenous metabolite sphingosine‐1‐phosphate (S1P). Unlike peptidoglycan sensing via the leucine‐rich repeats domain, cytosolic S1P directly bound to the nucleotide binding domains of NOD1/2, triggering NF‐κB activation and inflammatory responses. In sum, we unveiled a hitherto unknown role of NOD1/2 in surveillance of cellular homeostasis through sensing of the cytosolic metabolite S1P. We propose S1P, an endogenous metabolite, as a novel NOD1/2 activator and NOD1/2 as molecular hubs integrating bacterial and metabolic cues.
Periodontitis is one of the most prevalent oral diseases worldwide and is caused by multifactorial interactions between host and oral bacteria. Altered cellular metabolism of host and microbes releases a number of intermediary end products known as metabolites. There is an increasing interest in identifying metabolites from oral fluids such as saliva to widen the understanding of the complex pathogenesis of periodontitis. It is believed that some metabolites might serve as indicators toward early detection and screening of periodontitis and perhaps even for monitoring its prognosis in the future. Because contemporary periodontal screening methods are deficient, there is an urgent need for novel approaches in periodontal screening procedures. To this end, we associated oral parameters (clinical attachment level, periodontal probing depth, supragingival plaque, supragingival calculus, number of missing teeth, and removable denture) with a large set of salivary metabolites (n = 284) obtained by mass spectrometry among a subsample (n = 909) of nondiabetic participants from the Study of Health in Pomerania (SHIP-Trend-0). Linear regression analyses were performed in age-stratified groups and adjusted for potential confounders. A multifaceted image of associated metabolites (n = 107) was revealed with considerable differences according to age groups. In the young (20 to 39 y) and middle-aged (40 to 59 y) groups, metabolites were predominantly associated with periodontal variables, whereas among the older subjects (≥60 y), tooth loss was strongly associated with metabolite levels. Metabolites associated with periodontal variables were clearly linked to tissue destruction, host defense mechanisms, and bacterial metabolism. Across all age groups, the bacterial metabolite phenylacetate was significantly associated with periodontal variables. Our results revealed alterations of the salivary metabolome in association with age and oral health status. Among our comprehensive panel of metabolites, periodontitis was significantly associated with the bacterial metabolite phenylacetate, a promising substance for further biomarker research.
Background: Colorectal carcinoma (CRC) is a heterogeneous disease, and differences in outcomes have been reported among patients diagnosed with the same disease stage. Prognostic and predictive biomarkers provide information for patient risk stratification and guide treatment selection. Although numerous studies have analyzed the effects of systemic inflammatory factors on CRC outcomes, clinical significance remains to be elucidated. In particular, the treatment strategy of colon cancer patients is different from that of rectal cancer due to outcome and recurrence differences. The identification of patients with a poor prognosis who might benefit from intensive treatment approaches is clinically necessary. Methods: This study aimed to evaluate the value of different blood-based markers and assess the significance of our newly developed inflammatory-nutrition-related biomarker (NCR = BMI × albumin/CRP) in patients with colon cancer. A two-stage design was used with 212 patients with colon cancer (CC) in the discovery cohort (n = 159) and in an external validation cohort (n = 53). Results: A lower preoperative NCR level was significantly correlated with a worse prognosis, sidedness, undifferentiated histology, nodal involvement, and advanced UICC stage. We compared the NCR with other established prognostic indices and showed that the NCR is a more reliable indicator of a poor prognosis for patients with CC. Patients with low NCR levels experienced a significantly shorter Overall Survival (OS) than patients with high levels. Multivariate analysis confirmed preoperative NCR levels as an independent predictor for overall survival with a hazard ratio of 3.3 (95% confidence interval 1.628–6.709, p < 0.001). Finally, we confirmed the predictive value of the NCR in an independent validation cohort and confirmed NCR as an independent prognostic factor for OS. Conclusion: Taken together, we discovered a new prognostic index (NCR) based on BMI, albumin, and CRP levels as an independent prognostic predictor of OS in patients with colon cancer. In all UICC stages, our newly developed NCR marker is able to distinguish patients with better and worse prognoses. We, therefore, propose that NCR may serve as a supplement to the TNM staging system to optimize the risk stratification in CC patients towards personalized oncology. In particular, NCR can be used in clinical trials to stratify patients with UICC II and III tumors and help better select patients who might benefit from adjuvant treatment.
Over the past decades, the human life span has dramatically increased, and therefore, a steady increase in diseases associated with age (such as Alzheimer’s disease and Parkinson’s disease) is expected. In these neurodegenerative diseases, there is a cognitive decline and memory loss, which accompany increased systemic inflammation, the inflamm-aging, and the insulin resistance. Despite numerous studies of age-related pathologies, data on the contribution of brain insulin resistance and innate immunity components to aging are insufficient. Recently, much research has been focused on the consequences of nutrients and adiposity- and nutrient-related signals in brain aging and cognitive decline. Moreover, given the role of metainflammation in neurodegeneration, lifestyle interventions such as calorie restriction may be an effective way to break the vicious cycle of metainflammation and have a role in social behavior. The various effects of calorie restriction on metainflammation, insulin resistance, and neurodegeneration have been described. Less attention has been paid to the social determinants of aging and the possible mechanism by which calorie restriction might influence social behavior. The purpose of this review is to discuss current knowledge in the interdisciplinary field of geroscience—immunosenescence, inflamm-aging, and metainflammation—which makes a significant contribution to aging. A substantial part of the review is devoted to frontiers in the brain insulin resistance in relation to neuroinflammation. In addition, we summarize new data on potential mechanisms of calorie restriction that influence as a lifestyle intervention on the social brain. This knowledge can be used to initiate successful aging and slow the onset of neurodegenerative diseases.
Critically ill patients at the intensive care unit (ICU) often develop a generalized weakness, called ICU-acquired weakness (ICUAW). A major contributor to ICUAW is muscle atrophy, a loss of skeletal muscle mass and function. Skeletal muscle assures almost all of the vital functions of our body. It adapts rapidly in response to physiological as well as pathological stress, such as inactivity, immobilization, and inflammation. In response to a reduced workload or inflammation muscle atrophy develops. Recent work suggests that adaptive or maladaptive processes in the endoplasmic reticulum (ER), also known as sarcoplasmic reticulum, contributes to this process. In muscle cells, the ER is a highly specialized cellular organelle that assures calcium homeostasis and therefore muscle contraction. The ER also assures correct folding of proteins that are secreted or localized to the cell membrane. Protein folding is a highly error prone process and accumulation of misfolded or unfolded proteins can cause ER stress, which is counteracted by the activation of a signaling network known as the unfolded protein response (UPR). Three ER membrane residing molecules, protein kinase R-like endoplasmic reticulum kinase (PERK), inositol requiring protein 1a (IRE1a), and activating transcription factor 6 (ATF6) initiate the UPR. The UPR aims to restore ER homeostasis by reducing overall protein synthesis and increasing gene expression of various ER chaperone proteins. If ER stress persists or cannot be resolved cell death pathways are activated. Although, ER stress-induced UPR pathways are known to be important for regulation of skeletal muscle mass and function as well as for inflammation and immune response its function in ICUAW is still elusive. Given recent advances in the development of ER stress modifying molecules for neurodegenerative diseases and cancer, it is important to know whether or not therapeutic interventions in ER stress pathways have favorable effects and these compounds can be used to prevent or treat ICUAW. In this review, we focus on the role of ER stress-induced UPR in skeletal muscle during critical illness and in response to predisposing risk factors such as immobilization, starvation and inflammation as well as ICUAW treatment to foster research for this devastating clinical problem.
Die Körpergröße kann als ein Marker der Entwicklungsgeschichte von Individuen angesehen werden und ist damit auch durch eine besondere Krankheitsempfindlichkeit beeinflusst. Wenn schon im frühen Lebensalter eine Disposition zu entzündlichen Erkrankungen vorliegt, kann diese eine lebenslange inflammatorische Belastung mit sich bringen und zu einem verzögerten Längenwachstum führen. Auswirkungen der frühen Entwicklung können durch die Körpergröße auch im späteren Leben noch zu einem gewissen Maße nachvollzogen werden. Die Basisstudie SHIP-0 (Study of Health in Pomerania) zeigte einen Zusammenhang zwischen der Körpergröße und Entzündungen des Parodonts. Die 5-Jahres-Folgestudie (SHIP-1) sollte diesen Zusammenhang bestätigen. Folgende Ergebnisse wurden erzielt: 1. Die Körpergröße hatte nur einen geringen Einfluss auf die Veränderung der parodontalen Situation in den fünf Folgejahren. 2. Es zeigte sich eine Tendenz des Zusammenhangs des Attachmentverlustes mit der Körpergröße. 3. Es gab Hinweise darauf, dass größere Probanden in Zusammenhang mit den Risikofaktoren einen geringeren Attachmentverlust aufwiesen als die Kleineren. 4. Die Risikofaktoren (Rauchverhalten, Bildungsniveau, Diabetes mellitus, Alter und Geschlecht) zeigten einen größeren Einfluss auf die Schwere und das Ausmaß der Parodontitis. 5. Der Zusammenhang der Körpergröße mit der parodontalen Erkrankung im Zusammenwirken mit den Risikofaktoren konnte nicht vollständig bestätigt werden. 6. Die Entzündungsparameter WBC und CRP wiesen bei den größten Probanden die geringsten Werte auf im Vergleich zu den kleinsten Probanden. 7. Von den 4290 Probanden der SHIP-0-Studie nahmen nur noch 3300 Probanden an der SHIP-1-Studie teil. Dadurch hat sich die Verteilung der Risikofaktoren verändert. Daher ergibt die Folgestudie nicht mehr bevölkerungs-repräsentative Aussagen, weil besonders die risikobelasteten Patienten dem follow-up ferngeblieben sind. Mit dieser Studie konnte der Zusammenhang der Körpergröße und Entzündungen mit der Parodontitis nicht vollständig bestätigt werden. Der Zeitraum von fünf Jahren ist möglicherweise nicht ausreichend, so dass die 10-Jahres-follow-up-Studie eine Klärung bringen sollte.
Background: Inflammatory markers, such as C-reactive Protein (CRP), Interleukin-6 (IL-6), tumor necrosis factor (TNF)-alpha and fibrinogen, are upregulated following acute stroke. Studies have shown associations of these biomarkers with increased mortality, recurrent vascular risk, and poor functional outcome. It is suggested that physical fitness training may play a role in decreasing long-term inflammatory activity and supports tissue recovery.
Aim: We investigated the dynamics of selected inflammatory markers in the subacute phase following stroke and determined if fluctuations are associated with functional recovery up to 6 months. Further, we examined whether exposure to aerobic physical fitness training in the subacute phase influenced serum inflammatory markers over time.
Methods: This is an exploratory analysis of patients enrolled in the multicenter randomized-controlled PHYS-STROKE trial. Patients within 45 days of stroke onset were randomized to receive either four weeks of aerobic physical fitness training or relaxation sessions. Generalized estimating equation models were used to investigate the dynamics of inflammatory markers and the associations of exposure to fitness training with serum inflammatory markers over time. Multiple logistic regression models were used to explore associations between inflammatory marker levels at baseline and three months after stroke and outcome at 3- or 6-months.
Results: Irrespective of the intervention group, high sensitive CRP (hs-CRP), IL-6, and fibrinogen (but not TNF-alpha) were significantly lower at follow-up visits when compared to baseline (p all ≤ 0.01). In our cohort, exposure to aerobic physical fitness training did not influence levels of inflammatory markers over time. In multivariate logistic regression analyses, increased baseline IL-6 and fibrinogen levels were inversely associated with worse outcome at 3 and 6 months. Increased levels of hs-CRP at 3 months after stroke were associated with impaired outcome at 6 months. We found no independent associations of TNF-alpha levels with investigated outcome parameters.
Conclusion: Serum markers of inflammation were elevated after stroke and decreased within 6 months. In our cohort, exposure to aerobic physical fitness training did not modify the dynamics of inflammatory markers over time. Elevated IL-6 and fibrinogen levels in early subacute stroke were associated with worse outcome up to 6-months after stroke.
Clinical Trial Registration: ClinicalTrials.gov, NCT01953549.
Abstract
Neutrophils are the most abundant leukocytes in circulation playing a key role in acute inflammation during microbial infections. Phagocytosis, one of the crucial defence mechanisms of neutrophils against pathogens, is amplified by chemotactic leukotriene (LT)B4, which is biosynthesized via 5‐lipoxygenase (5‐LOX). However, extensive liberation of LTB4 can be destructive by over‐intensifying the inflammatory process. While enzymatic biosynthesis of LTB4 is well characterized, less is known about molecular mechanisms that activate 5‐LOX and lead to LTB4 formation during host–pathogen interactions. Here, we investigated the ability of the common opportunistic fungal pathogen Candida albicans to induce LTB4 formation in neutrophils, and elucidated pathogen‐mediated drivers and cellular processes that activate this pathway. We revealed that C. albicans‐induced LTB4 biosynthesis requires both the morphological transition from yeast cells to hyphae and the expression of hyphae‐associated genes, as exclusively viable hyphae or yeast‐locked mutant cells expressing hyphae‐associated genes stimulated 5‐LOX by [Ca2+]i mobilization and p38 MAPK activation. LTB4 biosynthesis was orchestrated by synergistic activation of dectin‐1 and Toll‐like receptor 2, and corresponding signaling via SYK and MYD88, respectively. Conclusively, we report hyphae‐specific induction of LTB4 biosynthesis in human neutrophils. This highlights an expanding role of neutrophils during inflammatory processes in the response to C. albicans infections.
40 Männer und 40 Frauen wurden untersucht, um zu überprüfen ob der steigende Schweregrad einer Parodotopathie die enzymatische Aktivität von Prokallikrein und Kallikrein im Mischspeichel beeinflußt. 10 Männer und 10 Frauen pro Gruppe: A:Gesund, B:Parodotopathie+, C:Parodotopathie++, D:Recall Eine signifikante Erhöhung der Enzymaktivität war lediglich bei Frauen der Gruppe B und Männern der Gruppe C zu verzeichnen.
Der Einsatz von atmosphärischem Niedertemperaturplasma zur Behandlung chronischer Wunden stellt eine erfolgversprechende, in Entwicklung befindliche Therapieoption dar. Dabei wird von der Hypothese ausgegangen, dass chronische Wunden durch die Stimulation mittels Plasma aktiviert werden können, wodurch die über die Stufe der resorptiven Inflammation die physiologische Heilung wieder in Gang gesetzt werden kann. Daher wurde zur Identifizierung des Reiz- und Inflammationspotential des Plasmas und zur Ableitung geeigneter Behandlungsparameter Plasma im HET-CAM geprüft. Zunächst wurden mit einem Atmosphärendruck Plasma-Jet unter Verwendung von Argongas und einer Dielectric-Barrier Discharge (DBD)-Plasmaquelle die Reizwirkungen an der CAM durch mäanderförmige Plasmabehandlung und punktuelle Anwendung getestet. Dabei wurden neben mäanderförmigen und punktuellen Applikationsmustern unterschiedliche Anwendungsfrequenzen und damit unterschiedliche Plasmadosen untersucht. Die Temperatur des Plasmas nahm v. a. bei längeren Behandlungszeiten Einfluss und führte zu einer Wirkungsverstärkung bis hin zu thermischen Schädigungen. Der Gasfluss erwies sich als limitierend für das geprüfte Modell. Der gepulste Modus war bei mäanderförmiger Anwendung am verträglichsten. Die Überprüfung auf Reversibilität der Effekte ergab, dass geringe Reizungen vollständig reversibel waren, währen schwere Reizungen zu nicht reversiblen Koagulationen führten. Aufgrund der unbefriedigenden Ergebnisse mit sehr schneller Bildung von Thrombosen, geringem Arbeitsabstand und fehlender Potentialfreiheit wurde die DBD-Elektrode von der weiteren Untersuchung ausgenommen und der kINPen09 als Weiterentwicklung des Plasma-Jets mit geringerer Plasmatemperatur auf inflammatorische Wirkung bei punktueller Anwendung mit verschiedenen Expositionszeiten im kontinuierlichen Modus und im gepulsten Modus mit Argon als Trägergas, sowie im kontinuierlichen Modus unter Zusatz von 0,1 % Sauerstoff, getestet. In dieser Testreihe war ebenfalls das gepulste Plasma am verträglichsten, das mit Sauerstoff angereicherte Plasma führte zu den schwersten Inflammationen. Alle Reaktionen wurden durch die kombinierte Anwendung mit Hydrocortison deutlich abgeschwächt. Mit der Inflammationsinduktion konnten Gewebeprozesse in Form von Kontraktion, Koagulation und inflammationsassoziierter Angiogenese auf der CAM erzeugt werden, die für Aktivierung der sekundären Wundheilung relevant sein dürften. Ableitend aus den Untersuchungen kann für die Anwendung an chronischen Wunden eine Behandlungszeit von maximal 5 s pro qcm Wundfläche für den kontinuierlichen Modus empfohlen werden. Dabei sollte wegen der besseren Verträglichkeit der mäanderförmigen Behandlung gegenüber der punktuellen Anwendung der Vorzug gegeben werden. Unter Berücksichtigung der vorliegenden Untersuchung zur Reiz- und Inflammationswirkung von Plasma im HET-CAM und weiteren Prüfungen zur Wirksamkeit und Verträglichkeit in vivo und in vitro erweist sich die Plasmaapplikation mit dem kINPen09 als vielversprechende Option zur Behandlung chronischer Wunden.