Your search keyword '"Stefan Uhlig"' showing total 273 results

1. Platelet-derived growth factor (PDGF)-BB regulates the airway tone via activation of MAP2K, thromboxane, actin polymerisation and Ca2+-sensitisation

Author

Annette D. Rieg, Said Suleiman, Carolin Anker, Nina A. Bünting, Eva Verjans, Jan Spillner, Sebastian Kalverkamp, Saskia von Stillfried, Till Braunschweig, Stefan Uhlig, and Christian Martin

Subjects

Diseases of the respiratory system, RC705-779

Abstract

Abstract Background PDGFR-inhibition by the tyrosine kinase inhibitor (TKI) nintedanib attenuates the progress of idiopathic pulmonary fibrosis (IPF). However, the effects of PDGF-BB on the airway tone are almost unknown. We studied this issue and the mechanisms beyond, using isolated perfused lungs (IPL) of guinea pigs (GPs) and precision-cut lung slices (PCLS) of GPs and humans. Methods IPL: PDGF-BB was perfused after or without pre-treatment with the TKI imatinib (perfused/nebulised) and its effects on the tidal volume (TV), the dynamic compliance (Cdyn) and the resistance were studied. PCLS (GP): The bronchoconstrictive effects of PDGF-BB and the mechanisms beyond were evaluated. PCLS (human): The bronchoconstrictive effects of PDGF-BB and the bronchorelaxant effects of imatinib were studied. All changes of the airway tone were measured by videomicroscopy and indicated as changes of the initial airway area. Results PCLS (GP/human): PDGF-BB lead to a contraction of airways. IPL: PDGF-BB decreased TV and Cdyn, whereas the resistance did not increase significantly. In both models, inhibition of PDGFR-(β) (imatinib/SU6668) prevented the bronchoconstrictive effect of PDGF-BB. The mechanisms beyond PDGF-BB-induced bronchoconstriction include activation of MAP2K and TP-receptors, actin polymerisation and Ca2+-sensitisation, whereas the increase of Ca2+ itself and the activation of EP1–4-receptors were not of relevance. In addition, imatinib relaxed pre-constricted human airways. Conclusions PDGFR regulates the airway tone. In PCLS from GPs, this regulatory mechanism depends on the β-subunit. Hence, PDGFR-inhibition may not only represent a target to improve chronic airway disease such as IPF, but may also provide acute bronchodilation in asthma. Since asthma therapy uses topical application. This is even more relevant, as nebulisation of imatinib also appears to be effective.

Published

2022

2. Tyrosine kinase inhibitors relax pulmonary arteries in human and murine precision-cut lung slices

Author

Annette D. Rieg, Nina A. Bünting, Christian Cranen, Said Suleiman, Jan W. Spillner, Heike Schnöring, Thomas Schröder, Saskia von Stillfried, Till Braunschweig, Paul W. Manley, Gereon Schälte, Rolf Rossaint, Stefan Uhlig, and Christian Martin

Subjects

Tyrosine kinase inhibitors, Imatinib, Nilotinib, Pulmonary arteries, Pulmonary arterial hypertension, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Tyrosine kinase inhibitors (TKIs) inhibit the platelet derived growth factor receptor (PDGFR) and gain increasing significance in the therapy of proliferative diseases, e.g. pulmonary arterial hypertension (PAH). Moreover, TKIs relax pulmonary vessels of rats and guinea pigs. So far, it is unknown, whether TKIs exert relaxation in human and murine pulmonary vessels. Thus, we studied the effects of TKIs and the PDGFR-agonist PDGF-BB in precision-cut lung slices (PCLS) from both species. Methods The vascular effects of imatinib (mice/human) or nilotinib (human) were studied in Endothelin-1 (ET-1) pre-constricted pulmonary arteries (PAs) or veins (PVs) by videomicroscopy. Baseline initial vessel area (IVA) was defined as 100%. With regard to TKI-induced relaxation, K+-channel activation was studied in human PAs (PCLS) and imatinib/nilotinib-related changes of cAMP and cGMP were analysed in human PAs/PVs (ELISA). Finally, the contractile potency of PDGF-BB was explored in PCLS (mice/human). Results Murine PCLS: Imatinib (10 μM) relaxed ET-1-pre-constricted PAs to 167% of IVA. Vice versa, 100 nM PDGF-BB contracted PAs to 60% of IVA and pre-treatment with imatinib or amlodipine prevented PDGF-BB-induced contraction. Murine PVs reacted only slightly to imatinib or PDGF-BB. Human PCLS: 100 μM imatinib or nilotinib relaxed ET-1-pre-constricted PAs to 166% or 145% of IVA, respectively, due to the activation of KATP-, BKCa 2+- or Kv-channels. In PVs, imatinib exerted only slight relaxation and nilotinib had no effect. Imatinib and nilotinib increased cAMP in human PAs, but not in PVs. In addition, PDGF-BB contracted human PAs/PVs, which was prevented by imatinib. Conclusions TKIs relax pre-constricted PAs/PVs from both, mice and humans. In human PAs, the activation of K+-channels and the generation of cAMP are relevant for TKI-induced relaxation. Vice versa, PDGF-BB contracts PAs/PVs (human/mice) due to PDGFR. In murine PAs, PDGF-BB-induced contraction depends on intracellular calcium. So, PDGFR regulates the tone of PAs/PVs. Since TKIs combine relaxant and antiproliferative effects, they may be promising in therapy of PAH.

Published

2019

3. Levosimendan reduces segmental pulmonary vascular resistance in isolated perfused rat lungs and relaxes human pulmonary vessels.

Author

Annette Dorothea Rieg, Said Suleiman, Nina Andrea Bünting, Eva Verjans, Jan Spillner, Heike Schnöring, Sebastian Kalverkamp, Thomas Schröder, Saskia von Stillfried, Till Braunschweig, Gereon Schälte, Stefan Uhlig, and Christian Martin

Subjects

Medicine, Science

Abstract

INTRODUCTION:Levosimendan is approved for acute heart failure. Within this context, pulmonary hypertension represents a frequent co-morbidity. Hence, the effects of levosimendan on segmental pulmonary vascular resistance (PVR) are relevant. So far, this issue has been not studied. Beyond that the relaxant effects of levosimendan in human pulmonary vessel are unknown. We addressed these topics in rats' isolated perfused lungs (IPL) and human precision-cut lung slices (PCLS). MATERIAL AND METHODS:In IPL, levosimendan (10 μM) was perfused in untreated and endothelin-1 pre-contracted lungs. The pulmonary arterial pressure (PPA) was continuously recorded and the capillary pressure (Pcap) was determined by the double-occlusion method. Thereafter, segmental PVR, expressed as precapillary (Rpre) and postcapillary resistance (Rpost) and PVR were calculated. Human PCLS were prepared from patients undergoing lobectomy. Levosimendan-induced relaxation was studied in naïve and endothelin-1 pre-contracted PAs and PVs. In endothelin-1 pre-contracted PAs, the role of K+-channels was studied by inhibition of KATP-channels (glibenclamide), BKCa2+-channels (iberiotoxin) and Kv-channels (4-aminopyridine). All changes of the vascular tone were measured by videomicroscopy. In addition, the increase of cAMP/GMP due to levosimendan was measured by ELISA. RESULTS:Levosimendan did not relax untreated lungs or naïve PAs and PVs. In IPL, levosimendan attenuated the endothelin-1 induced increase of PPA, PVR, Rpre and Rpost. In human PCLS, levosimendan relaxed pre-contracted PAs or PVs to 137% or 127%, respectively. In pre-contracted PAs, the relaxant effect of levosimendan was reduced, if KATP- and Kv-channels were inhibited. Further, levosimendan increased cGMP in PAs/PVs, but cAMP only in PVs. DISCUSSION:Levosimendan reduces rats' segmental PVR and relaxes human PAs or PVs, if the pulmonary vascular tone is enhanced by endothelin-1. Regarding levosimendan-induced relaxation, the activation of KATP- and Kv-channels is of impact, as well as the formation of cAMP and cGMP. In conclusion, our results suggest that levosimendan improves pulmonary haemodynamics, if PVR is increased as it is the case in pulmonary hypertension.

Published

2020

4. Reevaluation of Lung Injury in TNF-Induced Shock: The Role of the Acid Sphingomyelinase

Author

Lucy K. Reiss, Ute Raffetseder, Lydia Gibbert, Hannah K. Drescher, Konrad L. Streetz, Agatha Schwarz, Christian Martin, Stefan Uhlig, and Dieter Adam

Subjects

Pathology, RB1-214

Abstract

Tumor necrosis factor (TNF) is a well-known mediator of sepsis. In many cases, sepsis results in multiple organ injury including the lung with acute respiratory distress syndrome (ARDS). More than 20-year-old studies have suggested that TNF may be directly responsible for organ injury during sepsis. However, these old studies are inconclusive, because they relied on human rather than conspecific TNF, which was contaminated with endotoxin in most studies. In this study, we characterized the direct effects of intravenous murine endotoxin-free TNF on cardiovascular functions and organ injury in mice with a particular focus on the lungs. Because of the relevance of the acid sphingomyelinase in sepsis, ARDS, and caspase-independent cell death, we also included acid sphingomyelinase-deficient (ASM-/-) mice. ASM-/- and wild-type (WT) mice received 50 μg endotoxin-free murine TNF intravenously alone or in combination with the pan-caspase inhibitor carbobenzoxy-valyl-alanyl-aspartyl-[O-methyl]-fluoromethylketone (zVAD) and were ventilated at low tidal volume while lung mechanics were followed. Blood pressure was stabilized by intra-arterial fluid support, and body temperature was kept at 37°C to delay lethal shock and to allow investigation of blood gases, lung histopathology, proinflammatory mediators, and microvascular permeability 6 hours after TNF application. Besides the lungs, also the kidneys and liver were examined. TNF elicited the release of inflammatory mediators and a high mortality rate, but failed to injure the lungs, kidneys, or liver of healthy mice significantly within 6 hours. Mortality in WT mice was most likely due to sepsis-like shock, as indicated by metabolic acidosis, high procalcitonin levels, and cardiovascular failure. ASM-/- mice were protected from TNF-induced hypotension and reflex tachycardia and also from mortality. In WT mice, intravenous exogenous TNF does not cause organ injury but induces a systemic inflammatory response with cardiovascular failure, in which the ASM plays a role.

Published

2020

5. Initiation of LPS-induced pulmonary dysfunction and its recovery occur independent of T cells

Author

Eva Verjans, Stephanie Kanzler, Kim Ohl, Annette D. Rieg, Nadine Ruske, Angela Schippers, Norbert Wagner, Klaus Tenbrock, Stefan Uhlig, and Christian Martin

Subjects

ARDS, Acute lung injury, T cell deficiency, Lung function, Lung mechanics, Lung inflammation, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background The acute respiratory distress syndrome (ARDS) is a serious disease in critically ill patients that is characterized by pulmonary dysfunctions, hypoxemia and significant mortality. Patients with immunodeficiency (e.g. SCID with T and B cell deficiency) are particularly susceptible to the development of severe ARDS. However, the role of T cells on pulmonary dysfunctions in immune-competent patients with ARDS is only incompletely understood. Methods Wild-type (wt) and RAG2−/− mice (lymphocyte deficient) received intratracheal instillations of LPS (4 mg/kg) or saline. On day 1, 4 and 10 lung mechanics and bronchial hyperresponsiveness towards acetylcholine were measured with the flexiVent ventilation set-up. The bronchoalveolar lavage fluid (BALF) was examined for leukocytes (FACS analysis) and pro-inflammatory cytokines (ELISA). Results In wt mice, lung mechanics, body weight and body temperature deteriorated in the LPS-group during the early phase (up to d4); these alterations were accompanied by increased leukocyte numbers and inflammatory cytokine levels in the BALF. During the late phase (day 10), both lung mechanics and the cell/cytokine homeostasis recovered in LPS-treated wt mice. RAG2−/− mice experienced changes in body weight, lung mechanics, BAL neutrophil numbers, BAL inflammatory cytokines levels that were comparable to wt mice. Conclusion Following LPS instillation, lung mechanics deteriorate within the first 4 days and recover towards day 10. This response is not altered by the lack of T lymphocytes suggesting that T cells play only a minor role for the initiation, propagation or recovery of LPS-induced lung dysfunctions or function of T lymphocytes can be compensated by other immune cells, such as alveolar macrophages.

Published

2018

6. PDGF-BB regulates the pulmonary vascular tone: impact of prostaglandins, calcium, MAPK- and PI3K/AKT/mTOR signalling and actin polymerisation in pulmonary veins of guinea pigs

Author

Annette D. Rieg, Said Suleiman, Carolin Anker, Eva Verjans, Rolf Rossaint, Stefan Uhlig, and Christian Martin

Subjects

Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Platelet-derived growth factor (PDGF)-BB and its receptor PDGFR are highly expressed in pulmonary hypertension (PH) and mediate proliferation. Recently, we showed that PDGF-BB contracts pulmonary veins (PVs) and that this contraction is prevented by inhibition of PDGFR-β (imatinib/SU6668). Here, we studied PDGF-BB-induced contraction and downstream-signalling in isolated perfused lungs (IPL) and precision-cut lung slices (PCLS) of guinea pigs (GPs). Methods In IPLs, PDGF-BB was perfused after or without pre-treatment with imatinib (perfused/nebulised), the effects on the pulmonary arterial pressure (PPA), the left atrial pressure (PLA) and the capillary pressure (Pcap) were studied and the precapillary (Rpre) and postcapillary resistance (Rpost) were calculated. Perfusate samples were analysed (ELISA) to detect the PDGF-BB-induced release of prostaglandin metabolites (TXA2/PGI2). In PCLS, the contractile effect of PDGF-BB was evaluated in pulmonary arteries (PAs) and PVs. In PVs, PDGF-BB-induced contraction was studied after inhibition of PDGFR-α/β, L-Type Ca2+-channels, ROCK/PKC, prostaglandin receptors, MAP2K, p38-MAPK, PI3K-α/γ, AKT/PKB, actin polymerisation, adenyl cyclase and NO. Changes of the vascular tone were measured by videomicroscopy. In PVs, intracellular cAMP was measured by ELISA. Results In IPLs, PDGF-BB increased PPA, Pcap and Rpost. In contrast, PDGF-BB had no effect if lungs were pre-treated with imatinib (perfused/nebulised). In PCLS, PDGF-BB significantly contracted PVs/PAs which was blocked by the PDGFR-β antagonist SU6668. In PVs, inhibition of actin polymerisation and inhibition of L-Type Ca2+-channels reduced PDGF-BB-induced contraction, whereas inhibition of ROCK/PKC had no effect. Blocking of EP1/3- and TP-receptors or inhibition of MAP2K-, p38-MAPK-, PI3K-α/γ- and AKT/PKB-signalling prevented PDGF-BB-induced contraction, whereas inhibition of EP4 only slightly reduced it. Accordingly, PDGF-BB increased TXA2 in the perfusate, whereas PGI2 was increased in all groups after 120 min and inhibition of IP-receptors did not enhance PDGF-BB-induced contraction. Moreover, PDGF-BB increased cAMP in PVs and inhibition of adenyl cyclase enhanced PDGF-BB-induced contraction, whereas inhibition of NO-formation only slightly increased it. Conclusions PDGF-BB/PDGFR regulates the pulmonary vascular tone by the generation of prostaglandins, the increase of calcium, the activation of MAPK- or PI3K/AKT/mTOR signalling and actin remodelling. More insights in PDGF-BB downstream-signalling may contribute to develop new therapeutics for PH.

Published

2018

7. Reference Gene Selection for Gene Expression Analyses in Mouse Models of Acute Lung Injury

Author

Athanassios Fragoulis, Kristina Biller, Stephanie Fragoulis, Dennis Lex, Stefan Uhlig, and Lucy Kathleen Reiss

Subjects

primer validation, reference gene establishment, qPCR normalisation, ALI mouse models, VILI, IPL, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

qRT-PCR still remains the most widely used method for quantifying gene expression levels, although newer technologies such as next generation sequencing are becoming increasingly popular. A critical, yet often underappreciated, problem when analysing qRT-PCR data is the selection of suitable reference genes. This problem is compounded in situations where up to 25% of all genes may change (e.g., due to leukocyte invasion), as is typically the case in ARDS. Here, we examined 11 widely used reference genes for their suitability in commonly used models of acute lung injury (ALI): ventilator-induced lung injury (VILI), in vivo and ex vivo, lipopolysaccharide plus mechanical ventilation (MV), and hydrochloric acid plus MV. The stability of reference gene expression was determined using the NormFinder, BestKeeper, and geNorm algorithms. We then proceeded with the geNorm results because this is the only algorithm that provides the number of reference genes required to achieve normalisation. We chose interleukin-6 (Il-6) and C-X-C motif ligand 1 (Cxcl-1) as the genes of interest to analyse and demonstrate the impact of inappropriate normalisation. Reference gene stability differed between the ALI models and even within the subgroup of VILI models, no common reference gene index (RGI) could be determined. NormFinder, BestKeeper, and geNorm produced slightly different, but comparable results. Inappropriate normalisation of Il-6 and Cxcl1 gene expression resulted in significant misinterpretation in all four ALI settings. In conclusion, choosing an inappropriate normalisation strategy can introduce different kinds of bias such as gain or loss as well as under- or overestimation of effects, affecting the interpretation of gene expression data.

Published

2021

8. Autopsy registry can facilitate COVID‐19 research

Author

Saskia von Stillfried, Roman David Bülow, Rainer Röhrig, Ruth Knüchel‐Clarke, Peter Boor, for the DeRegCOVID, Pauline Tholen, Barbara Nöthel, Jan Wienströer, Raphael Majeed, Stefan Uhlig, Danny Jonigk, Hans‐Ulrich Holtherm, Karl‐Friedrich Bürrig, and Gustavo Barreton

Subjects

Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract The WHO declared the global outbreak of SARS‐CoV‐2 a pandemic on March 11, 2020, and “call(ed) on all countries to exchange country experiences and practices in a transparent and timely way” ( http://www.euro.who.int/en/health-topics/health-emergencies/pages/news/news/2020/03/who-announces-covid-19-outbreak-a-pandemic ). To date, many medical societies have announced their intention to collect and analyze data from COVID‐19 patients and some large‐scale prospective data collections are already running, such as the LEOSS registry (Lean European Open Survey on SARS‐CoV‐2 Infected Patients) or the CAPACITYCOVID registry (registry of patients with COVID‐19 including cardiovascular risk and complications). The necessity to mobilize and harmonize basic and applied research worldwide is of utmost importance (Sansonetti, 2020).

Published

2020

9. Difficulties in modelling ARDS (2017 Grover Conference Series)

Author

Stefan Uhlig and Wolfgang M. Kuebler

Subjects

Diseases of the circulatory (Cardiovascular) system, RC666-701, Diseases of the respiratory system, RC705-779

Abstract

Fifty years after the first description of acute respiratory distress syndrome (ARDS), none of the many positive drug studies in animal models have been confirmed in clinical trials and translated into clinical practice. This bleak outcome of so many animal experiments shows how difficult it is to model ARDS. Lungs from patients are characterized by hyperinflammation, permeability edema, and hypoxemia; accordingly, this is what most models aim to reproduce. However, in animal models it is very easy to cause inflammation in the lungs, but difficult to cause hypoxemia. Often – and not unlike in patients – models with hypoxemia are accompanied by cardiovascular failure that necessitates fluid support and ventilation, raising the question as to the role of intensive care measures in models of ARDS. In our opinion, there are two major arguments in favor of modelling intensive care medicine in models of ARDS: (1) preventing death from shock; and (2) modelling ventilation and other ICU measures as a second hit. The preferable predictive endpoints in any model of ARDS remain unclear. At present, the best recommendation is to use endpoints that can be compared across studies (i.e. PaO 2 /FiO 2 ratio, compliance, wet-to-dry weight ratio) rather than percentage data. Another important and often overlooked issue is the fact that the thermoneutral environmental temperatures for mice and rats are 30℃ and 28℃, respectively; thus, at room temperature (20–22℃) they suffer from cold stress with the associated significant metabolic changes. While, by definition, any model is an abstraction, we suggest that clinically relevant models of ARDS will have to closer recapitulate important properties of the disease while taking into account species-specific confounders.

Published

2018

10. Inflammatory Mediators in Tracheal Aspirates of Preterm Infants Participating in a Randomized Trial of Permissive Hypercapnia

Author

Sarah Gentner, Mandy Laube, Ulrike Uhlig, Yang Yang, Hans W. Fuchs, Jens Dreyhaupt, Helmut D. Hummler, Stefan Uhlig, and Ulrich H. Thome

Subjects

permissive hypercapnia, bronchopulmonary dysplasia, pulmonary inflammation, tracheal aspirates, preterm infants, Pediatrics, RJ1-570

Abstract

BackgroundVentilator-induced lung injury is considered to be a main factor in the pathogenesis of bronchopulmonary dysplasia (BPD). Optimizing ventilator strategies may reduce respiratory morbidities in preterm infants. Permissive hypercapnia has been suggested to attenuate lung injury. We aimed to determine if a higher PCO2 target range results in less lung injury compared to the control target range and possibly reduces pro-inflammatory cytokines and acid sphingomyelinase (ASM) in tracheal aspirates (TA), which has not been addressed before.MethodsDuring a multicenter trial of permissive hypercapnia in extremely low birthweight infants (PHELBI), preterm infants (birthweight 400–1,000 g, gestational age 23 0/7–28 6/7 weeks) requiring mechanical ventilation within 24 h of birth were randomly assigned to a high PCO2 target or a control group. The high target group aimed at PCO2 values of 55–65, 60–70, and 65–75 mmHg and the control group at PCO2 values of 40–50, 45–55 and 50–60 mmHg on postnatal days 1–3, 4–6, and 7–14, respectively. TA was analyzed for pro-inflammatory cytokines from postnatal day 2–21. BPD was determined at a postmenstrual age of 36 weeks ± 2 days.Main findingsLevels of inflammatory cytokines and ASM were similar in both groups: interleukin (IL)-6 (p = 0.14), IL-8 (p = 0.43), IL-10 (p = 0.24), IL-1β (p = 0.11), macrophage inflammatory protein 1α (p = 0.44), albumin (p = 0.41), neuropeptide Y (p = 0.52), leukotriene B4 (p = 0.11), transforming growth factor-β1 (p = 0.68), nitrite (p = 0.15), and ASM (p = 0.94). Furthermore, most inflammatory mediators were strongly affected by the age of the infants and increased from postnatal day 2 to 21. BPD or death was observed in 14 out of 62 infants, who were distributed evenly between both groups.ConclusionThe results suggest that high PCO2 target levels did not result in lower pulmonary inflammatory activity and thus reflect clinical results. This indicates that high PCO2 target ranges are not effective in reducing ventilator-induced lung injury in preterm infants, as compared to control targets.Trial registrationISRCTN56143743.

Published

2017

11. Shear Stress Counteracts Endothelial CX3CL1 Induction and Monocytic Cell Adhesion

Author

Aaron Babendreyer, Lisa Molls, Daniela Dreymueller, Stefan Uhlig, and Andreas Ludwig

Subjects

Pathology, RB1-214

Abstract

Flow conditions critically regulate endothelial cell functions in the vasculature. Reduced shear stress resulting from disturbed blood flow can drive the development of vascular inflammatory lesions. On endothelial cells, the transmembrane chemokine CX3CL1/fractalkine promotes vascular inflammation by functioning as a surface-expressed adhesion molecule and by becoming released as soluble chemoattractant for monocytic cells expressing the receptor CX3CR1. Here, we report that endothelial cells from human artery, vein, or microvasculature constitutively express CX3CL1 when cultured under static conditions. Stimulation with TNFα under static or very low shear stress conditions strongly upregulates CX3CL1 expression. By contrast, CX3CL1 induction is profoundly reduced when cells are exposed to higher shear stress. When endothelial cells were grown and subsequently stimulated with TNFα under low shear stress, strong adhesion of monocytic THP-1 cells to endothelial cells was observed. This adhesion was in part mediated by transmembrane CX3CL1 as demonstrated with a neutralizing antibody. By contrast, no CX3CL1-dependent adhesion to stimulated endothelium was observed at high shear stress. Thus, during early stages of vascular inflammation, low shear stress typically seen at atherosclerosis-prone regions promotes the induction of endothelial CX3CL1 and monocytic cell recruitment, whereas physiological shear stress counteracts this inflammatory activation of endothelial cells.

Published

2017

12. Inflammatory Mediators in Tracheal Aspirates of Preterm Infants Participating in a Randomized Trial of Inhaled Nitric Oxide.

Author

Mandy Laube, Elena Amann, Ulrike Uhlig, Yang Yang, Hans W Fuchs, Michael Zemlin, Jean-Christophe Mercier, Rolf F Maier, Helmut D Hummler, Stefan Uhlig, and Ulrich H Thome

Subjects

Medicine, Science

Abstract

Ventilated preterm infants frequently develop bronchopulmonary dysplasia (BPD) which is associated with elevated inflammatory mediators in their tracheal aspirates (TA). In animal models of BPD, inhaled nitric oxide (iNO) has been shown to reduce lung inflammation, but data for human preterm infants is missing.Within a European multicenter trial of NO inhalation for preterm infants to prevent BPD (EUNO), TA was collected to determine the effects of iNO on pulmonary inflammation. TA was collected from 43 premature infants randomly assigned to receive either iNO or placebo gas (birth weight 530-1230 g, median 800 g, gestational age 24 to 28 2/7 weeks, median 26 weeks). Interleukin (IL)-1β, IL-6, IL-8, transforming growth factor (TGF)-β1, interferon γ-induced protein 10 (IP-10), macrophage inflammatory protein (MIP)-1α, acid sphingomyelinase (ASM), neuropeptide Y and leukotriene B4 were measured in serial TA samples from postnatal day 2 to 14. Furthermore, TA levels of nitrotyrosine and nitrite were determined under iNO therapy.The TA levels of IP-10, IL-6, IL-8, MIP-1α, IL-1β, ASM and albumin increased with advancing postnatal age in critically ill preterm infants, whereas nitrotyrosine TA levels declined in both, iNO-treated and placebo-treated infants. The iNO treatment generally increased nitrite TA levels, whereas nitrotyrosine TA levels were not affected by iNO treatment. Furthermore, iNO treatment transiently reduced early inflammatory and fibrotic markers associated with BPD development including TGF-β1, IP-10 and IL-8, but induced a delayed increase of ASM TA levels.Treatment with iNO may have played a role in reducing several inflammatory and fibrotic mediators in TA of preterm infants compared to placebo-treated infants. However, survival without BPD was not affected in the main EUNO trial.NCT00551642.

Published

2017

13. Differential Regulation of Lung Endothelial Permeability in Vitro and in Situ

Author

Stefan Uhlig, Yang Yang, Josephine Waade, Claudia Wittenberg, Aaron Babendreyer, and Wolfgang M. Kuebler

Subjects

Endothelial cells, Pulmonary endothelial cells, Pulmonary edema, Vascular permeability, Platelet-activating factor, Calcium, Rho-kinase, Thrombin, LPS, TNF, Sphingosine-1-phosphate, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

In the lungs, increased vascular permeability can lead to acute lung injury. Because vascular permeability is regulated primarily by endothelial cells, many researchers have studied endothelial cell monolayers in culture, in order to understand the pathomechanisms of pulmonary edema. Such studies are based on the assumption that endothelial cells in culture behave like endothelial cells in situ. Here we show that this assumption is largely unfounded. Cultured endothelial cells show profound differences compared to their physiological counterparts, including a dysregulated calcium homeostasis. They fail to reproduce the pulmonary responses to agents such as platelet-activating factor. In contrast, they respond in a Rho-kinase depend fashion to thrombin, LPS or TNF. This is a striking finding for three reasons: (i) in the lungs, none of these agents increases vascular permeability by a direct interaction with endothelial cells; (ii) The endothelial Rho-kinase pathway seems to play little role in the development of pulmonary edema; (iii) This response pattern is similar for many endothelial cells in culture irrespective of their origin, which is in contrast to the stark heterogeneity of endothelial cells in situ. It appears that most endothelial in culture tend to develop a similar phenotyp that is not representative of any of the known endothelial cells of the lungs. We conclude that at present cultured endothelial cells are not useful to study the pathomechanisms of pulmonary edema.

Published

2014

14. Quinidine, but not eicosanoid antagonists or dexamethasone, protect the gut from platelet activating factor-induced vasoconstriction, edema and paralysis.

Author

Ingmar Lautenschläger, Inéz Frerichs, Heike Dombrowsky, Jürgen Sarau, Torsten Goldmann, Karina Zitta, Martin Albrecht, Norbert Weiler, and Stefan Uhlig

Subjects

Medicine, Science

Abstract

Intestinal circulatory disturbances, atony, edema and swelling are of great clinical relevance, but the related mechanisms and possible therapeutic options are poorly characterized, in part because of the difficulties to comprehensively analyze these conditions. To overcome these limitations we have developed a model of the isolated perfused rat small intestine where all of these symptoms can be studied simultaneously. Here we used this model to study the role of eicosanoids, steroids and quinidine in platelet-activating factor (PAF)-induced intestinal disorders. A vascular bolus of PAF (0.5 nmol) triggered release of thromboxane and peptidoleukotrienes into the vascular bed (peak concentration 35 nM and 0.8 nM) and reproduced all symptoms of intestinal failure: mesenteric vasoconstriction, translocation of fluid and macromolecules from the vasculature to the lumen and lymphatics, intestinal edema formation, loss of intestinal peristalsis and decreased galactose uptake. All effects of PAF were abolished by the PAF-receptor antagonist ABT491 (2.5 μM). The COX and LOX inhibitors ASA and AA861 (500 μM, 10 μM) did not exhibit barrier-protective effects and the eicosanoid antagonists SQ29548 and MK571 (10 μM, each) only moderately attenuated the loss of vascular fluid, the redistribution to the lumen and the transfer of FITC dextran to the lumen. The steroid dexamethasone (10 μM) showed no barrier-protective properties and failed to prevent edema formation. Quinidine (100 μM) inhibited the increase in arterial pressure, stabilized all the intestinal barriers, and reduced lymph production and the transfer of FITC dextran to the lymph. While quinidine by itself reduced peristalsis, it also obviated paralysis, preserved intestinal functions and prevented edema formation. We conclude that quinidine exerts multiple protective effects against vasoconstriction, edema formation and paralysis in the intestine. The therapeutic use of quinidine for intestinal ailments deserves further study.

Published

2015

15. Erratum to: Imatinib relaxes the pulmonary venous bed of guinea pigs

Author

Nina A. Maihöfer, Said Suleiman, Daniela Dreymüller, Paul W. Manley, Rolf Rossaint, Stefan Uhlig, Christian Martin, and Annette D. Rieg

Subjects

Diseases of the respiratory system, RC705-779

Published

2017

16. Milrinone relaxes pulmonary veins in guinea pigs and humans.

Author

Annette D Rieg, Said Suleiman, Alberto Perez-Bouza, Till Braunschweig, Jan W Spillner, Thomas Schröder, Eva Verjans, Gereon Schälte, Rolf Rossaint, Stefan Uhlig, and Christian Martin

Subjects

Medicine, Science

Abstract

INTRODUCTION: The phosphodiesterase-III inhibitor milrinone improves ventricular contractility, relaxes pulmonary arteries and reduces right ventricular afterload. Thus, it is used to treat heart failure and pulmonary hypertension (PH). However, its action on pulmonary veins (PVs) is not defined, although particularly PH due to left heart disease primarily affects the pulmonary venous bed. We examined milrinone-induced relaxation in PVs from guinea pigs (GPs) and humans. MATERIAL AND METHODS: Precision-cut lung slices (PCLS) were prepared from GPs or from patients undergoing lobectomy. Milrinone-induced relaxation was studied by videomicroscopy in naïve PVs and in PVs pre-constricted with the ETA-receptor agonist BP0104. Baseline luminal area was defined as 100%. Intracellular cAMP was measured by ELISA and milrinone-induced changes of segmental vascular resistances were studied in the GP isolated perfused lung (IPL). RESULTS: In the IPL (GP), milrinone (10 µM) lowered the postcapillary resistance of pre-constricted vessels. In PCLS (GP), milrinone relaxed naïve and pre-constricted PVs (120%) and this relaxation was attenuated by inhibition of protein kinase G (KT 5823), adenyl cyclase (SQ 22536) and protein kinase A (KT 5720), but not by inhibition of NO-synthesis (L-NAME). In addition, milrinone-induced relaxation was dependent on the activation of K ATP-, BK Ca (2+)- and Kv-channels. Human PVs also relaxed to milrinone (121%), however only if pre-constricted. DISCUSSION: Milrinone relaxes PVs from GPs and humans. In GPs, milrinone-induced relaxation is based on K ATP-, BK Ca (2+)- and Kv-channel-activation and on cAMP/PKA/PKG. The relaxant properties of milrinone on PVs lead to reduced postcapillary resistance and hydrostatic pressures. Hence they alleviate pulmonary edema and suggest beneficial effects of milrinone in PH due to left heart disease.

Published

2014

17. Comparison of airway responses in sheep of different age in precision-cut lung slices (PCLS).

Author

Verena A Lambermont, Marco Schlepütz, Constanze Dassow, Peter König, Luc J Zimmermann, Stefan Uhlig, Boris W Kramer, and Christian Martin

Subjects

Medicine, Science

Abstract

Animal models should display important characteristics of the human disease. Sheep have been considered particularly useful to study allergic airway responses to common natural antigens causing human asthma. A rationale of this study was to establish a model of ovine precision-cut lung slices (PCLS) for the in vitro measurement of airway responses in newborn and adult animals. We hypothesized that differences in airway reactivity in sheep are present at different ages.Lambs were delivered spontaneously at term (147d) and adult sheep lived till 18 months. Viability of PCLS was confirmed by the MTT-test. To study airway provocations cumulative concentration-response curves were performed with different allergic response mediators and biogenic amines. In addition, electric field stimulation, passive sensitization with house dust mite (HDM) and mast cells staining were evaluated.PCLS from sheep were viable for at least three days. PCLS of newborn and adult sheep responded equally strong to methacholine and endothelin-1. The responses to serotonin, leukotriene D4 and U46619 differed with age. No airway contraction was evoked by histamine, except after cimetidine pretreatment. In response to EFS, airways in PCLS from adult and newborn sheep strongly contracted and these contractions were atropine sensitive. Passive sensitization with HDM evoked a weak early allergic response in PCLS from adult and newborn sheep, which notably was prolonged in airways from adult sheep. Only few mast cells were found in the lungs of non-sensitized sheep at both ages.PCLS from sheep lungs represent a useful tool to study pharmacological airway responses for at least three days. Sheep seem well suited to study mechanisms of cholinergic airway contraction. The notable differences between newborn and adult sheep demonstrate the importance of age in such studies.

Published

2014

18. Levosimendan Relaxes Pulmonary Arteries and Veins in Precision-Cut Lung Slices - The Role of KATP-Channels, cAMP and cGMP.

Author

Annette D Rieg, Rolf Rossaint, Eva Verjans, Nina A Maihöfer, Stefan Uhlig, and Christian Martin

Subjects

Medicine, Science

Abstract

Levosimendan is approved for left heart failure and is also used in right heart failure to reduce right ventricular afterload. Despite the fact that pulmonary arteries (PAs) and pulmonary veins (PVs) contribute to cardiac load, their responses to levosimendan are largely unknown.Levosimendan-induced vasorelaxation of PAs and PVs was studied in precision-cut lung slices from guinea pigs by videomicroscopy; baseline luminal area was defined as 100%. Intracellular cAMP- and cGMP-levels were measured by ELISA and NO end products were determined by the Griess reaction.Levosimendan relaxed control PVs (116%) and those pre-constricted with an endothelinA-receptor agonist (119%). PAs were only relaxed if pre-constricted (115%). Inhibition of KATP-channels (glibenclamide), adenyl cyclase (SQ 22536) and protein kinase G (KT 5823) largely attenuated the levosimendan-induced relaxation in control PVs, as well as in pre-constricted PAs and PVs. Inhibition of BKCa (2+)-channels (iberiotoxin) and Kv-channels (4-aminopyridine) only contributed to the relaxant effect of levosimendan in pre-constricted PAs. In both PAs and PVs, levosimendan increased intracellular cAMP- and cGMP-levels, whereas NO end products remained unchanged. Notably, basal NO-levels were higher in PVs. The KATP-channel activator levcromakalim relaxed PAs dependent on cAMP/PKA/PKG and increased cAMP-levels in PAs.Levosimendan initiates complex and divergent signaling pathways in PAs and PVs. Levosimendan relaxes PAs and PVs primarily via KATP-channels and cAMP/cGMP; in PAs, BKCa (2+)- and Kv-channels are also involved. Our findings with levcromakalim do further suggest that in PAs the activation of KATP-channels leads to the production of cAMP/PKA/PKG. In conclusion, these results suggest that levosimendan might reduce right ventricular afterload by relaxation of PAs as well as pulmonary hydrostatic pressure and pulmonary edema by relaxation of PVs.

Published

2013

19. Using the one-lung method to link p38 to pro-inflammatory gene expression during overventilation in C57BL/6 and BALB/c mice.

Author

Stephanie Siegl and Stefan Uhlig

Subjects

Medicine, Science

Abstract

IntroductionThe mechanisms of ventilator-induced lung injury (VILI), including the role of MAP kinases, are frequently studied in different mouse strains. A useful model for such studies is the isolated perfused mouse lung. As a further development we present the one-lung method that permits to continue perfusion and ventilation of the right lung after removal of the left lung. This method was used to compare the effect of high pressure ventilation (HPV) on pro-inflammatory signaling events in two widely used mouse strains (C57BL/6, BALB/c) and to further define the role of p38 in VILI.MethodsLungs were perfused and ventilated for 30 min under control conditions before they were randomized to low (8 cm H(2)O) or high (25 cm H(2)O) pressure ventilation (HPV) for 210 min, with the left lung being removed after 180 min. In the left lung we measured the phosphorylation of p38, JNK, ERK and Akt kinase, and in the right lung gene expression and protein concentrations of Il1b, Il6, Tnf, Cxcl1, Cxcl2, and Areg.ResultsLung mechanics and kinase activation were similar in both mouse strains. HPV increased all genes (except Tnf in BALB/c) and all mediators in both strains. The gene expression of mRNA for Il1b, Il6, Cxcl1 and Cxcl2 was higher in BALB/c mice. Backward regression of the kinase data at t = 180 min with the gene and protein expression data at t = 240 min suggested that p38 controls HPV-induced gene expression, but not protein production. This hypothesis was confirmed in experiments with the p38-kinase inhibitor SB203580.ConclusionsThe one-lung method is useful for mechanistic studies in the lungs. While C57BL/6 show diminished pro-inflammatory responses during HPV, lung mechanics and mechanotransduction processes appear to be similar in both mouse strains. Finally, the one-lung method allowed us to link p38 to gene expression during VILI.

Published

2012

20. Inhalative IL-10 Attenuates Pulmonary Inflammation following Hemorrhagic Shock without Major Alterations of the Systemic Inflammatory Response

Author

Philipp Kobbe, Philipp Lichte, Helen Schreiber, Lucy Kathleen Reiss, Stefan Uhlig, Hans-Christoph Pape, and Roman Pfeifer

Subjects

Pathology, RB1-214

Abstract

Several studies report immunomodulatory effects of endogenous IL-10 after trauma. The present study investigates the effect of inhalative IL-10 administration on systemic and pulmonary inflammation in hemorrhagic shock. Male C57/BL6 mice (8 animals per group) were subjected to pressure-controlled hemorrhagic shock for 1.5 hrs followed by resuscitation and inhalative administration of either 50 μL PBS (Shock group) or 50 μg/kg recombinant mouse IL-10 dissolved in 50 μL PBS (Shock + IL-10 group). Animals were sacrificed after 4.5 hrs of recovery and serum IL-6, IL-10, KC, and MCP-1 concentrations were measured with ELISA kits. Acute pulmonary inflammation was assessed by pulmonary myeloperoxidase (MPO) activity and pulmonary H&E histopathology. Inhalative IL-10 administration decreased pulmonary inflammation without altering the systemic concentrations of IL-6, IL-10, and KC. Serum MCP-1 levels were significantly reduced following inhalative IL-10 administration. These findings suggest that inhalative IL-10 administration may modulate the pulmonary microenvironment without major alterations of the systemic inflammatory response, thus minimizing the potential susceptibility to infection and sepsis.

Published

2012

21. Neurally mediated airway constriction in human and other species: a comparative study using precision-cut lung slices (PCLS).

Author

Marco Schlepütz, Annette D Rieg, Sophie Seehase, Jan Spillner, Alberto Perez-Bouza, Till Braunschweig, Thomas Schroeder, Marc Bernau, Verena Lambermont, Christina Schlumbohm, Katherina Sewald, Rüdiger Autschbach, Armin Braun, Boris W Kramer, Stefan Uhlig, and Christian Martin

Subjects

Medicine, Science

Abstract

The peripheral airway innervation of the lower respiratory tract of mammals is not completely functionally characterized. Recently, we have shown in rats that precision-cut lung slices (PCLS) respond to electric field stimulation (EFS) and provide a useful model to study neural airway responses in distal airways. Since airway responses are known to exhibit considerable species differences, here we examined the neural responses of PCLS prepared from mice, rats, guinea pigs, sheep, marmosets and humans. Peripheral neurons were activated either by EFS or by capsaicin. Bronchoconstriction in response to identical EFS conditions varied between species in magnitude. Frequency response curves did reveal further species-dependent differences of nerve activation in PCLS. Atropine antagonized the EFS-induced bronchoconstriction in human, guinea pig, sheep, rat and marmoset PCLS, showing cholinergic responses. Capsaicin (10 µM) caused bronchoconstriction in human (4 from 7) and guinea pig lungs only, indicating excitatory non-adrenergic non-cholinergic responses (eNANC). However, this effect was notably smaller in human responder (30 ± 7.1%) than in guinea pig (79 ± 5.1%) PCLS. The transient receptor potential (TRP) channel blockers SKF96365 and ruthenium red antagonized airway contractions after exposure to EFS or capsaicin in guinea pigs. In conclusion, the different species show distinct patterns of nerve-mediated bronchoconstriction. In the most common experimental animals, i.e. in mice and rats, these responses differ considerably from those in humans. On the other hand, guinea pig and marmoset monkey mimic human responses well and may thus serve as clinically relevant models to study neural airway responses.

Published

2012

22. The role of sphingolipids in respiratory disease

Author

Yang Yang and Stefan Uhlig

Subjects

Diseases of the respiratory system, RC705-779

Abstract

Sphingolipids form a broad class of lipids with diverse functions ranging from membrane constituents to intracellular second messengers and extracellular mediators. They can be rapidly generated or converted into each other and they play pivotal roles in various cellular processes, many of which are broadly associated with inflammation and apoptosis. Among the numerous sphingolipids, ceramide and sphingosine-1-phosphate (S1P) have received the greatest attention. Ceramide is a hydrophobic molecule that is increased in the lungs of patients with cystic fibrosis and chronic obstructive pulmonary disease (COPD). Ceramide is the eponym for ceramide-rich membrane platforms. that need to form as a prerequisite to the uptake of several microorganisms including Pseudomonas aeruginosa , and as a prerequisite to many signaling processes including apoptosis and increased vascular permeability. Accordingly, abnormal amounts of enzymes involved in the synthesis of ceramide, such as neutral or acid sphingomyelinase, are found in emphysematic smokers and in patients with severe sepsis, and are considered as novel pharmacological targets. S1P acts as an extracellular mediator that opposes several actions of ceramide and acts by binding to G-protein coupled S1P receptors (S1P 1 –S1P 5 ). Of particular interest are S1P 1 receptors that enhance vascular barrier functions and are antiapoptotic. Therefore, S1P 1 -receptor ligands are suggested as novel drugs for COPD and acute lung injury. S1P is a potent chemotaxin for many leukocytes, it organizes lymphocyte trafficking and is involved in several key symptoms of asthma such as airway hyperresponsiveness and pulmonary eosinophil sequestration. S1P is formed by sphingosine kinases that have been identified as possible drug targets for the treatment of asthma. Based on these findings, several new drugs have recently been developed to specifically target sphingomyelinases, sphingosine kinases and S1P receptors for the treatment of COPD, cystic fibrosis, asthma and acute lung injury.

Published

2011

23. Cardiovascular agents affect the tone of pulmonary arteries and veins in precision-cut lung slices.

Author

Annette D Rieg, Rolf Rossaint, Stefan Uhlig, and Christian Martin

Subjects

Medicine, Science

Abstract

IntroductionCardiovascular agents are pivotal in the therapy of heart failure. Apart from their action on ventricular contractility and systemic afterload, they affect pulmonary arteries and veins. Although these effects are crucial in heart failure with coexisting pulmonary hypertension or lung oedema, they are poorly defined, especially in pulmonary veins. Therefore, we investigated the pulmonary vascular effects of adrenoceptor agonists, vasopressin and angiotensin II in the model of precision-cut lung slices that allows simultaneous studies of pulmonary arteries and veins.Materials and methodsPrecision-cut lung slices were prepared from guinea pigs and imaged by videomicroscopy. Concentration-response curves of cardiovascular drugs were analysed in pulmonary arteries and veins.ResultsPulmonary veins responded stronger than arteries to α(1)-agonists (contraction) and β(2)-agonists (relaxation). Notably, inhibition of β(2)-adrenoceptors unmasked the α(1)-mimetic effect of norepinephrine and epinephrine in pulmonary veins. Vasopressin and angiotensin II contracted pulmonary veins via V(1a) and AT(1) receptors, respectively, without affecting pulmonary arteries.DiscussionVasopressin and (nor)epinephrine in combination with β(2)-inhibition caused pulmonary venoconstriction. If applicable in humans, these treatments would enhance capillary hydrostatic pressures and lung oedema, suggesting their cautious use in left heart failure. Vice versa, the prevention of pulmonary venoconstriction by AT(1) receptor antagonists might contribute to their beneficial effects seen in left heart failure. Further, α(1)-mimetic agents might exacerbate pulmonary hypertension and right ventricular failure by contracting pulmonary arteries, whereas vasopressin might not.

Published

2011

24. Recurrent recruitment manoeuvres improve lung mechanics and minimize lung injury during mechanical ventilation of healthy mice.

Author

Lucy Kathleen Reiss, Anke Kowallik, and Stefan Uhlig

Subjects

Medicine, Science

Abstract

INTRODUCTION: Mechanical ventilation (MV) of mice is increasingly required in experimental studies, but the conditions that allow stable ventilation of mice over several hours have not yet been fully defined. In addition, most previous studies documented vital parameters and lung mechanics only incompletely. The aim of the present study was to establish experimental conditions that keep these parameters within their physiological range over a period of 6 h. For this purpose, we also examined the effects of frequent short recruitment manoeuvres (RM) in healthy mice. METHODS: Mice were ventilated at low tidal volume V(T) = 8 mL/kg or high tidal volume V(T) = 16 mL/kg and a positive end-expiratory pressure (PEEP) of 2 or 6 cm H(2)O. RM were performed every 5 min, 60 min or not at all. Lung mechanics were followed by the forced oscillation technique. Blood pressure (BP), electrocardiogram (ECG), heart frequency (HF), oxygen saturation and body temperature were monitored. Blood gases, neutrophil-recruitment, microvascular permeability and pro-inflammatory cytokines in bronchoalveolar lavage (BAL) and blood serum as well as histopathology of the lung were examined. RESULTS: MV with repetitive RM every 5 min resulted in stable respiratory mechanics. Ventilation without RM worsened lung mechanics due to alveolar collapse, leading to impaired gas exchange. HF and BP were affected by anaesthesia, but not by ventilation. Microvascular permeability was highest in atelectatic lungs, whereas neutrophil-recruitment and structural changes were strongest in lungs ventilated with high tidal volume. The cytokines IL-6 and KC, but neither TNF nor IP-10, were elevated in the BAL and serum of all ventilated mice and were reduced by recurrent RM. Lung mechanics, oxygenation and pulmonary inflammation were improved by increased PEEP. CONCLUSIONS: Recurrent RM maintain lung mechanics in their physiological range during low tidal volume ventilation of healthy mice by preventing atelectasis and reduce the development of pulmonary inflammation.

Published

2011

25. Effects of the TLR2 agonists MALP-2 and Pam3Cys in isolated mouse lungs.

Author

Martina Barrenschee, Dennis Lex, and Stefan Uhlig

Subjects

Medicine, Science

Abstract

BACKGROUND:Gram-positive and Gram-negative bacteria are main causes of pneumonia or acute lung injury. They are recognized by the innate immune system via toll-like receptor-2 (TLR2) or TLR4, respectively. Among all organs, the lungs have the highest expression of TLR2 receptors, but little is known about the pulmonary consequences of their activation. Here we studied the effects of the TLR2/6 agonist MALP-2, the TLR2/1 agonist Pam(3)Cys and the TLR4 agonist lipopolysaccharide (LPS) on pro-inflammatory responses in isolated lungs. METHODOLOGY/PRINCIPAL FINDINGS:Isolated perfused mouse lungs were perfused for 60 min or 180 min with MALP-2 (25 ng/mL), Pam(3)Cys (160 ng/mL) or LPS (1 µg/mL). We studied mediator release by enzyme linked immunosorbent assay (ELISA), the activation of mitogen activated protein kinase (MAPK) and AKT/protein kinase B by immunoblotting, and gene induction by quantitative polymerase chain reaction. All agonists activated the MAPK ERK1/2 and p38, but neither JNK or AKT kinase. The TLR ligands upregulated the inflammation related genes Tnf, Il1β, Il6, Il10, Il12, Ifng, Cxcl2 (MIP-2α) and Ptgs2. MALP-2 was more potent than Pam(3)Cys in inducing Slpi, Cxcl10 (IP10) and Parg. Remarkable was the strong induction of Tnc by MALP2, which was not seen with Pam(3)Cys or LPS. The growth factor related genes Areg and Hbegf were not affected. In addition, all three TLR agonists stimulated the release of IL-6, TNF, CXCL2 and CXCL10 protein from the lungs. CONCLUSIONS/SIGNIFICANCE:TLR2 and TLR4 activation leads to similar reactions in the lungs regarding MAPK activation, gene induction and mediator release. Several genes studied here have not yet been appreciated as targets of TLR2-activation in the lungs before, i.e., Slpi, tenascin C, Parg and Traf1. In addition, the MALP-2 dependent induction of Tnc may indicate the existence of TLR2/6-specific pathways.

Published

2010

26. Update on the Features and Measurements of Experimental Acute Lung Injury in Animals: An Official American Thoracic Society Workshop Report

Author

Hrishikesh S. Kulkarni, Janet S. Lee, Julie A. Bastarache, Wolfgang M. Kuebler, Gregory P. Downey, Guillermo M. Albaiceta, William A. Altemeier, Antonio Artigas, Jason H. T. Bates, Carolyn S. Calfee, Charles S. Dela Cruz, Robert P. Dickson, Joshua A. Englert, Jeffrey I. Everitt, Michael B. Fessler, Andrew E. Gelman, Kymberly M. Gowdy, Steve D. Groshong, Susanne Herold, Robert J. Homer, Jeffrey C. Horowitz, Connie C. W. Hsia, Kiyoyasu Kurahashi, Victor E. Laubach, Mark R. Looney, Rudolf Lucas, Nilam S. Mangalmurti, Anne M. Manicone, Thomas R. Martin, Sadis Matalon, Michael A. Matthay, Daniel F. McAuley, Sharon A. McGrath-Morrow, Joseph P. Mizgerd, Stephanie A. Montgomery, Bethany B. Moore, Alexandra Noël, Carrie E. Perlman, John P. Reilly, Eric P. Schmidt, Shawn J. Skerrett, Tomeka L. Suber, Charlotte Summers, Benjamin T. Suratt, Masao Takata, Rubin Tuder, Stefan Uhlig, Martin Witzenrath, Rachel L. Zemans, and Gutavo Matute-Bello

Subjects

Pulmonary and Respiratory Medicine, Clinical Biochemistry, Cell Biology, Molecular Biology

Published

2022

27. Cross-layered wireless network planning and modeling methods and tools.

Author

Stefan Uhlig, Andriy Luntovskyy, and Dietbert Gütter

Published

2009

28. Mean value load identification and queuing-theoretical modeling of wired and wireless LAN.

Author

Andriy Luntovskyy, Stefan Uhlig, Dietbert Gütter, Volodymyr Vasyutynskyy, and Alexander Schill

Published

2007

29. Stimulation of the EP

Author

Tian, Jiang, Rudi, Samapati, Sergej, Klassen, Disi, Lei, Lasti, Erfinanda, Vera, Jankowski, Szandor, Simmons, Jun, Yin, Christoph, Arenz, Alexander, Dietrich, Thomas, Gudermann, Dieter, Adam, Michael, Schaefer, Joachim, Jankowski, Veit, Flockerzi, Rolf, Nüsing, Stefan, Uhlig, and Wolfgang M, Kuebler

Subjects

Endothelial Cells, Pulmonary Edema, Mice, Sphingomyelin Phosphodiesterase, src-Family Kinases, GTP-Binding Proteins, Type C Phospholipases, TRPC6 Cation Channel, Animals, Edema, Tyrosine, Calcium, Platelet Activating Factor, Lung

Abstract

Prostaglandin EIn isolated lungs, we measured increases in endothelial calcium (ΔCaPAF-induced ΔCaEP

Published

2021

30. Reference Gene Selection for Gene Expression Analyses in Mouse Models of Acute Lung Injury

Author

Lucy Kathleen Reiss, Athanassios Fragoulis, Dennis Lex, Stephanie Fragoulis, Stefan Uhlig, and Kristina Biller

Subjects

0301 basic medicine, Genetic Markers, VILI, QH301-705.5, Acute Lung Injury, Computational biology, Biology, Lung injury, Catalysis, Article, Inorganic Chemistry, primer validation, 03 medical and health sciences, acid-induced lung injury, Mice, 0302 clinical medicine, LPS-induced lung injury, In vivo, Reference genes, Gene expression, ALI mouse models, Animals, Biology (General), Physical and Theoretical Chemistry, reference gene establishment, QD1-999, Molecular Biology, Gene, Spectroscopy, Regulation of gene expression, qPCR normalisation, Gene Expression Profiling, Organic Chemistry, General Medicine, Reference Standards, Computer Science Applications, Gene expression profiling, Chemistry, Disease Models, Animal, 030104 developmental biology, 030228 respiratory system, Gene Expression Regulation, Genetic marker, IPL, Female, Algorithms

Abstract

International journal of molecular sciences 22(15), 7853 (2021). doi:10.3390/ijms22157853 special issue: "Molecular genetics and genomics / Maurizio Margaglione, section editor-in-chief [und zahlreiche weitere]", Published by Molecular Diversity Preservation International, Basel

Published

2021

31. Platelet-derived growth factor (PDGF)-BB regulates the airway tone via activation of MAP2K, thromboxane, actin polymerisation and Ca

Author

Annette D, Rieg, Said, Suleiman, Carolin, Anker, Nina A, Bünting, Eva, Verjans, Jan, Spillner, Sebastian, Kalverkamp, Saskia, von Stillfried, Till, Braunschweig, Stefan, Uhlig, and Christian, Martin

Subjects

Mitogen-Activated Protein Kinase Kinases, Niacinamide, Receptor, Platelet-Derived Growth Factor beta, Guinea Pigs, Becaplermin, Imatinib Mesylate, Animals, Humans, Thromboxanes, Proto-Oncogene Proteins c-sis, Protein Kinase Inhibitors, Actins, Asthma

Abstract

PDGFR-inhibition by the tyrosine kinase inhibitor (TKI) nintedanib attenuates the progress of idiopathic pulmonary fibrosis (IPF). However, the effects of PDGF-BB on the airway tone are almost unknown. We studied this issue and the mechanisms beyond, using isolated perfused lungs (IPL) of guinea pigs (GPs) and precision-cut lung slices (PCLS) of GPs and humans.IPL: PDGF-BB was perfused after or without pre-treatment with the TKI imatinib (perfused/nebulised) and its effects on the tidal volume (TV), the dynamic compliance (Cdyn) and the resistance were studied.The bronchoconstrictive effects of PDGF-BB and the mechanisms beyond were evaluated. PCLS (human): The bronchoconstrictive effects of PDGF-BB and the bronchorelaxant effects of imatinib were studied. All changes of the airway tone were measured by videomicroscopy and indicated as changes of the initial airway area.PCLS (GP/human): PDGF-BB lead to a contraction of airways. IPL: PDGF-BB decreased TV and Cdyn, whereas the resistance did not increase significantly. In both models, inhibition of PDGFR-(β) (imatinib/SU6668) prevented the bronchoconstrictive effect of PDGF-BB. The mechanisms beyond PDGF-BB-induced bronchoconstriction include activation of MAP2K and TP-receptors, actin polymerisation and CaPDGFR regulates the airway tone. In PCLS from GPs, this regulatory mechanism depends on the β-subunit. Hence, PDGFR-inhibition may not only represent a target to improve chronic airway disease such as IPF, but may also provide acute bronchodilation in asthma. Since asthma therapy uses topical application. This is even more relevant, as nebulisation of imatinib also appears to be effective.

Published

2021

32. Chronic Obstructive Pulmonary Disease

Author

Stefan Uhlig, Christian Martin, and Michael Dreher

Published

2021

33. Stretchable electrical cell-substrate impedance sensor platform for monitoring cell monolayers under strain

Author

Uwe Schnakenberg, Rudolf Merkel, Christina Hoffmann, Tom Kremers, Bernd Hoffmann, Andreas Ludwig, Aaron Babendreyer, Chen Zhou, Sebastian Bette, Stefan Uhlig, and Sven Gerlach

Subjects

Materials science, Perforation (oil well), Cell, 02 engineering and technology, Substrate (electronics), 010402 general chemistry, 01 natural sciences, Cell junction, Monolayer, Materials Chemistry, medicine, Electrical and Electronic Engineering, Instrumentation, Electrical impedance, Strain (chemistry), Metals and Alloys, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Microelectrode, medicine.anatomical_structure, ddc:620, 0210 nano-technology, Biomedical engineering

Abstract

Stretchable microelectrodes paired with an ultra-elastic substrate can be used for electrical sensing of mechanically stretched cells and cell monolayers. Here, we present the development of a cell-stretching platform with thin-film interdigitated microelectrodes. Up to 35 % cyclic stretch are feasible with a novel interlaced meander design connected to the microelectrodes and using Poly(dimethylsiloxane) (PDMS) with a Young’s modulus of 50 kPa as an ultra-elastic substrate. Reliable electrical contacting of the microelectrodes under stretch was achieved by perforation of the contact pads. The novel platform enables label-free, real-time electrical cell-substrate impedance (ECIS) monitoring of cell monolayers. Proof-of-concept experiments indicated that electrical impedance of Madin-Darby canine kidney (MDCK) cell monolayers increased sharply by uniaxial mechanical strain above 20 %. For comparison, human alveolar basal epithelial adenocarcinoma (A549) cell monolayers, which are known to lack mature cell junctions, showed a continuous decrease of electrical impedance over the whole applied strain range of 35 %. The data reveal that impedance changes upon stretching depend on epithelial cell types and existence of tight cellular junctions. The system provides the basis for reliable continuous long-term monitoring of electrical properties of cell monolayers under strain by electrical impedance spectroscopy, e.g., to monitor epithelial permeability changes in real time and under label-free conditions to screen the influence of pharmacological substances.

Published

2021

34. CO2 = Global Warming = Climate Change! And What Happens If Everthing Is More Complex? Continuous Climate Changes: Geological, Archaeological, and Astrophysical Points of View

Author

Stefan Uhlig

Subjects

010506 paleontology, 010504 meteorology & atmospheric sciences, Épocas glaciales, Solar cycles, Épocas interglaciales, Ice ages, Greenhouse effect, 01 natural sciences, Cambios del nivel del mar, Ciclos solares, Interglacials, Sea level changes, Efecto invernadero, General Earth and Planetary Sciences, 0105 earth and related environmental sciences

Abstract

[Abstract] The continuous natural climate changes of the last 2,56 million years are discussed, presenting data from different scientific areas such as geology, archaeology, astronomy, etc. [Resumen] Se discuten los continuos cambios climaticos naturales de los últimos 2,56 millones de años, presentando hechos y datos de diferentes area científicas como son la geología, arqueología, astronomía, etc.

Published

2020

35. Stimulation of the EP3receptor causes lung oedema by activation of TRPC6 in pulmonary endothelial cells

Author

Tian Jiang, Rudi Samapati, Sergej Klassen, Disi Lei, Lasti Erfinanda, Vera Jankowski, Szandor Simmons, Jun Yin, Christoph Arenz, Alexander Dietrich, Thomas Gudermann, Dieter Adam, Michael Schaefer, Joachim Jankowski, Veit Flockerzi, Rolf Nüsing, Stefan Uhlig, and Wolfgang M. Kuebler

Subjects

Pulmonary and Respiratory Medicine

Abstract

BackgroundProstaglandin E2(PGE2) increases pulmonary vascular permeability by activation of the PGE2receptor 3 (EP3), which may explain adverse pulmonary effects of the EP1/EP3receptor agonist sulprostone in patients. In addition, PGE2contributes to pulmonary oedema in response to platelet-activating factor (PAF). PAF increases endothelial permeability by recruiting the cation channel transient receptor potential canonical 6 (TRPC6) to endothelial caveolaeviaacid sphingomyelinase (ASMase). Yet, the roles of PGE2and EP3in this pathway are unknown. We hypothesised that EP3receptor activation may increase pulmonary vascular permeability by activation of TRPC6, and thus, synergise with ASMase-mediated TRPC6 recruitment in PAF-induced lung oedema.MethodsIn isolated lungs, we measured increases in endothelial calcium (ΔCa2+) or lung weight (Δweight), and endothelial caveolar TRPC6 abundance as well as phosphorylation.ResultsPAF-induced ΔCa2+and Δweight were attenuated in EP3-deficient mice. Sulprostone replicated PAF-induced ΔCa2+and Δweight which were blocked by pharmacological/genetic inhibition of TRPC6, ASMase or Src-family kinases (SrcFK). PAF, but not sulprostone, increased TRPC6 abundance in endothelial caveolae. Immunoprecipitation revealed PAF- and sulprostone-induced tyrosine-phosphorylation of TRPC6 that was prevented by inhibition of phospholipase C (PLC) or SrcFK. PLC inhibition also blocked sulprostone-induced ΔCa2+and Δweight, as did inhibition of SrcFK or inhibitory G-protein (Gi) signalling.ConclusionsEP3activation triggers pulmonary oedemaviaGi-dependent activation of PLC and subsequent SrcFK-dependent tyrosine phosphorylation of TRPC6. In PAF-induced lung oedema, this TRPC6 activation coincides with ASMase-dependent caveolar recruitment of TRPC6, resulting in rapid endothelial Ca2+influx and barrier failure.

Published

2022

36. Levosimendan reduces segmental pulmonary vascular resistance in isolated perfused rat lungs and relaxes human pulmonary vessels

Author

Stefan Uhlig, Heike Schnöring, Annette D. Rieg, Gereon Schälte, Saskia von Stillfried, Nina Andrea Bünting, Jan Spillner, Thomas Schröder, Said Suleiman, Eva Verjans, Till Braunschweig, Sebastian Kalverkamp, and Christian Martin

Subjects

Male, Pulmonology, Hemodynamics, Blood Pressure, 030204 cardiovascular system & hematology, Vascular Medicine, 0302 clinical medicine, Medicine and Health Sciences, Pulmonary Arteries, Lung, Coronary Arteries, Mammals, Multidisciplinary, Pulmonary Hypertension, Eukaryota, Animal Models, Arteries, Perfusion, medicine.anatomical_structure, Experimental Organism Systems, Pulmonary Veins, Vertebrates, Cardiology, cardiovascular system, Medicine, Female, Anatomy, medicine.drug, Research Article, medicine.medical_specialty, Histology, Science, Hypertension, Pulmonary, Guinea Pigs, Pulmonary Artery, Research and Analysis Methods, Rodents, 03 medical and health sciences, Internal medicine, Medical Hypoxia, medicine, Animals, Humans, Rats, Wistar, Simendan, Heart Failure, business.industry, Organisms, Biology and Life Sciences, Levosimendan, medicine.disease, Pulmonary hypertension, Rats, Blood pressure, 030228 respiratory system, Heart failure, Amniotes, Vascular resistance, Animal Studies, Cardiovascular Anatomy, Blood Vessels, Vascular Resistance, business

Abstract

Introduction Levosimendan is approved for acute heart failure. Within this context, pulmonary hypertension represents a frequent co-morbidity. Hence, the effects of levosimendan on segmental pulmonary vascular resistance (PVR) are relevant. So far, this issue has been not studied. Beyond that the relaxant effects of levosimendan in human pulmonary vessel are unknown. We addressed these topics in rats’ isolated perfused lungs (IPL) and human precision-cut lung slices (PCLS). Material and methods In IPL, levosimendan (10 μM) was perfused in untreated and endothelin-1 pre-contracted lungs. The pulmonary arterial pressure (PPA) was continuously recorded and the capillary pressure (Pcap) was determined by the double-occlusion method. Thereafter, segmental PVR, expressed as precapillary (Rpre) and postcapillary resistance (Rpost) and PVR were calculated. Human PCLS were prepared from patients undergoing lobectomy. Levosimendan-induced relaxation was studied in naive and endothelin-1 pre-contracted PAs and PVs. In endothelin-1 pre-contracted PAs, the role of K+-channels was studied by inhibition of KATP-channels (glibenclamide), BKCa2+-channels (iberiotoxin) and Kv-channels (4-aminopyridine). All changes of the vascular tone were measured by videomicroscopy. In addition, the increase of cAMP/GMP due to levosimendan was measured by ELISA. Results Levosimendan did not relax untreated lungs or naive PAs and PVs. In IPL, levosimendan attenuated the endothelin-1 induced increase of PPA, PVR, Rpre and Rpost. In human PCLS, levosimendan relaxed pre-contracted PAs or PVs to 137% or 127%, respectively. In pre-contracted PAs, the relaxant effect of levosimendan was reduced, if KATP- and Kv-channels were inhibited. Further, levosimendan increased cGMP in PAs/PVs, but cAMP only in PVs. Discussion Levosimendan reduces rats’ segmental PVR and relaxes human PAs or PVs, if the pulmonary vascular tone is enhanced by endothelin-1. Regarding levosimendan-induced relaxation, the activation of KATP- and Kv-channels is of impact, as well as the formation of cAMP and cGMP. In conclusion, our results suggest that levosimendan improves pulmonary haemodynamics, if PVR is increased as it is the case in pulmonary hypertension.

Published

2020

37. Acid sphingomyelinase regulates TH2 cytokine release and bronchial asthma

Author

Patricia Klemm, Norbert Wagner, Annette D. Rieg, Kim Ohl, Christian Martin, Svenja Böll, Markus Kamler, Sebastian Ziemann, Stefan Uhlig, Klaus Tenbrock, Eva Verjans, Katrin Anne Becker, and Erich Gulbins

Subjects

Lung, medicine.diagnostic_test, biology, business.industry, medicine.medical_treatment, Immunology, Medizin, Lung injury, respiratory system, medicine.disease, musculoskeletal system, respiratory tract diseases, Ovalbumin, Bronchoalveolar lavage, medicine.anatomical_structure, Cytokine, Bronchial hyperresponsiveness, medicine, biology.protein, Immunology and Allergy, Acid sphingomyelinase, business, medicine.drug, Asthma

Abstract

Background Allergic diseases and especially allergic asthma are widespread diseases with high prevalence in childhood, but also in adults. Acid sphingomyelinase (ASM) is a key regulator of the sphingolipid pathway. Previous studies defined the association of ASM with the pathogenesis of TH 1-directed lung diseases like cystic fibrosis and acute lung injury. Here, we define the role of ASM in TH 2-regulated allergic bronchial asthma. Methods To determine the role of Asm under baseline conditions, wild-type (WT) and Asm-/- mice were ventilated with a flexiVent setup and bronchial hyperresponsiveness was determined using acetylcholine. Flow cytometry and cytokine measurements in bronchoalveolar lavage fluid and lung tissue were followed by in vitro TH 2 differentiations with cells from WT and Asm-/- mice and blockade of Asm with amitriptyline. As proof of principle, we conducted an ovalbumin-induced model of asthma in WT- and Asm-/- mice. Results At baseline, Asm-/- mice showed better lung mechanics, but unaltered bronchial hyperresponsiveness. Higher numbers of Asm-/- T cells in bronchoalveolar lavage fluid released lower levels of IL-4 and IL-5, and these results were paralleled by decreased production of typical TH 2 cytokines in Asm-/- T lymphocytes in vitro. This phenotype could be imitated by incubation of T cells with amitriptyline. In the ovalbumin asthma model, Asm-/- animals were protected from high disease activity and showed better lung functions and lower levels of eosinophils and TH 2 cytokines. Conclusion Asm deficiency could induce higher numbers of TH 2 cells in the lung, but those cells release decreased TH 2 cytokine levels. Hereby, Asm-/- animals are protected from bronchial asthma, which possibly offers novel therapeutic strategies, for example, with ASM blockade.

Published

2020

38. Reevaluation of Lung Injury in TNF-Induced Shock: The Role of the Acid Sphingomyelinase

Author

Agatha Schwarz, Lucy Kathleen Reiss, Hannah K. Drescher, Ute Raffetseder, Stefan Uhlig, Lydia Gibbert, Dieter Adam, Christian Martin, and Konrad L. Streetz

Subjects

0301 basic medicine, Male, ARDS, Article Subject, Neutrophils, Immunology, Pharmacology, Lung injury, Kidney, Permeability, Proinflammatory cytokine, Sepsis, Capillary Permeability, 03 medical and health sciences, Mice, 0302 clinical medicine, medicine, Pathology, Animals, RB1-214, Lung, Inflammation, business.industry, Tumor Necrosis Factor-alpha, Microcirculation, Metabolic acidosis, Shock, Cell Biology, Lung Injury, medicine.disease, Respiration, Artificial, Endotoxins, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, Sphingomyelin Phosphodiesterase, Liver, 030220 oncology & carcinogenesis, Shock (circulatory), Tumor necrosis factor alpha, Female, medicine.symptom, Inflammation Mediators, business, Oligopeptides, Research Article

Abstract

Tumor necrosis factor (TNF) is a well-known mediator of sepsis. In many cases, sepsis results in multiple organ injury including the lung with acute respiratory distress syndrome (ARDS). More than 20-year-old studies have suggested that TNF may be directly responsible for organ injury during sepsis. However, these old studies are inconclusive, because they relied on human rather than conspecific TNF, which was contaminated with endotoxin in most studies. In this study, we characterized the direct effects of intravenous murine endotoxin-free TNF on cardiovascular functions and organ injury in mice with a particular focus on the lungs. Because of the relevance of the acid sphingomyelinase in sepsis, ARDS, and caspase-independent cell death, we also included acid sphingomyelinase-deficient (ASM-/-) mice. ASM-/- and wild-type (WT) mice received 50 μg endotoxin-free murine TNF intravenously alone or in combination with the pan-caspase inhibitor carbobenzoxy-valyl-alanyl-aspartyl-[O-methyl]-fluoromethylketone (zVAD) and were ventilated at low tidal volume while lung mechanics were followed. Blood pressure was stabilized by intra-arterial fluid support, and body temperature was kept at 37°C to delay lethal shock and to allow investigation of blood gases, lung histopathology, proinflammatory mediators, and microvascular permeability 6 hours after TNF application. Besides the lungs, also the kidneys and liver were examined. TNF elicited the release of inflammatory mediators and a high mortality rate, but failed to injure the lungs, kidneys, or liver of healthy mice significantly within 6 hours. Mortality in WT mice was most likely due to sepsis-like shock, as indicated by metabolic acidosis, high procalcitonin levels, and cardiovascular failure. ASM-/- mice were protected from TNF-induced hypotension and reflex tachycardia and also from mortality. In WT mice, intravenous exogenous TNF does not cause organ injury but induces a systemic inflammatory response with cardiovascular failure, in which the ASM plays a role.

Published

2020

39. Bronchial Asthma

Author

Stefan Uhlig, Michael Dreher, and Christian Martin

Published

2020

40. Initiation of LPS-induced pulmonary dysfunction and its recovery occur independent of T cells

Author

Kim Ohl, Klaus Tenbrock, Nadine Ruske, Annette D. Rieg, Christian Martin, Angela Schippers, Stefan Uhlig, Stephanie Kanzler, Eva Verjans, and Norbert Wagner

Subjects

Lipopolysaccharides, Male, 0301 basic medicine, Pulmonary and Respiratory Medicine, ARDS, Lung inflammation, T-Lymphocytes, Lymphocyte, medicine.medical_treatment, Proinflammatory cytokine, Mice, 03 medical and health sciences, 0302 clinical medicine, Immune system, Macrophages, Alveolar, medicine, Acute lung injury, Animals, T cell deficiency, Lung, Mice, Knockout, lcsh:RC705-779, Respiratory Distress Syndrome, Lung mechanics, medicine.diagnostic_test, business.industry, lcsh:Diseases of the respiratory system, respiratory system, medicine.disease, Lung function, respiratory tract diseases, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Cytokine, Bronchoalveolar lavage, 030220 oncology & carcinogenesis, Immunology, Cytokines, Female, business, Bronchoalveolar Lavage Fluid, Research Article

Abstract

Background The acute respiratory distress syndrome (ARDS) is a serious disease in critically ill patients that is characterized by pulmonary dysfunctions, hypoxemia and significant mortality. Patients with immunodeficiency (e.g. SCID with T and B cell deficiency) are particularly susceptible to the development of severe ARDS. However, the role of T cells on pulmonary dysfunctions in immune-competent patients with ARDS is only incompletely understood. Methods Wild-type (wt) and RAG2−/− mice (lymphocyte deficient) received intratracheal instillations of LPS (4 mg/kg) or saline. On day 1, 4 and 10 lung mechanics and bronchial hyperresponsiveness towards acetylcholine were measured with the flexiVent ventilation set-up. The bronchoalveolar lavage fluid (BALF) was examined for leukocytes (FACS analysis) and pro-inflammatory cytokines (ELISA). Results In wt mice, lung mechanics, body weight and body temperature deteriorated in the LPS-group during the early phase (up to d4); these alterations were accompanied by increased leukocyte numbers and inflammatory cytokine levels in the BALF. During the late phase (day 10), both lung mechanics and the cell/cytokine homeostasis recovered in LPS-treated wt mice. RAG2−/− mice experienced changes in body weight, lung mechanics, BAL neutrophil numbers, BAL inflammatory cytokines levels that were comparable to wt mice. Conclusion Following LPS instillation, lung mechanics deteriorate within the first 4 days and recover towards day 10. This response is not altered by the lack of T lymphocytes suggesting that T cells play only a minor role for the initiation, propagation or recovery of LPS-induced lung dysfunctions or function of T lymphocytes can be compensated by other immune cells, such as alveolar macrophages. Electronic supplementary material The online version of this article (10.1186/s12890-018-0741-2) contains supplementary material, which is available to authorized users.

Published

2018

41. Load and capacity simulation for design of combined wired and wireless LAN.

Author

Andriy Luntovskyy, Stefan Uhlig, Dietbert Gütter, and Alexander Schill

Published

2008

42. One-hit Models of Ventilator-induced Lung Injury

Author

Stefan Uhlig and Dennis Lex

Subjects

0301 basic medicine, Mechanical ventilation, medicine.medical_specialty, Lung, Biotrauma, business.industry, medicine.medical_treatment, Environmental air flow, Inflammation, Lung injury, Proinflammatory cytokine, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Anesthesiology and Pain Medicine, medicine.anatomical_structure, 030228 respiratory system, Internal medicine, Anesthesia, medicine, Breathing, Cardiology, medicine.symptom, business

Abstract

Background One important explanation for the detrimental effects of conventional mechanical ventilation is the biotrauma hypothesis that ventilation may trigger proinflammatory responses that subsequently cause lung injury. This hypothesis has frequently been studied in so-called one-hit models (overventilation of healthy lungs) that so far have failed to establish an unequivocal link between inflammation and hypoxemic lung failure. This study was designed to develop a one-hit biotrauma model. Methods Mice (six per group) were ventilated for up to 7 h (positive end-expiratory pressure 2 cm H2O) and received 300 μl/h fluid support. Series_1: initial plateau pressures of 10, 24, 27, or 30 cm H2O. Series_2: ventilation with pressure release at 34 cm H2O and initial plateau pressure of 10, 24, 27, or 30 cm H2O. To study the significance of inflammation, the latter groups were also pretreated with the steroid dexamethasone. Results Within 7 h, 20 of 24 mice ventilated with plateau pressure of 27 cm H2O or more died of a catastrophic lung failure characterized by strongly increased proinflammatory markers and a precipitous decrease in pulmonary compliance, blood pressure, and oxygenation. Pretreatment with dexamethasone reduced inflammation, but prolonged median survival time by 30 min. Conclusions Our findings demonstrate a sharp distinction between ventilation with 24 cm H2O that was well tolerated and ventilation with 27 cm H2O that was lethal for most animals due to catastrophic lung failure. In the former case, inflammation was benign and in the latter, a by-product that only accelerated lung failure. The authors suggest that biotrauma—when defined as a ventilation-induced and inflammation-dependent hypoxemia—is difficult to study in murine one-hit models of ventilation, at least not within 7 h. (Anesthesiology 2017; 126:909-22)

Published

2017

43. Vessel markers like ephrinB2 and ephB4 could be suitable markers for perfusion direction and acute lung injury

Author

Julia Krabbe, Stephanie Kanzler, Christian Martin, Stefan Uhlig, Nadine Ruske, Lucy Kathleen Reiss, and Andreas Ludwig

Subjects

Pathology, medicine.medical_specialty, Lung, medicine.diagnostic_test, business.industry, respiratory system, Lung injury, respiratory tract diseases, medicine.anatomical_structure, Bronchoalveolar lavage, In vivo, medicine, Breathing, Retrograde perfusion, business, Perfusion, Ex vivo

Abstract

Rationale: Retrograde lung vascular perfusion can appear in high risk surgeries. This study is the first to study long term retrograde perfusion of isolated perfused mouse lungs (IPL) and to investigate the tyrosine kinase ephB4 and its ligand ephrinB2 as a potential markers for acute lung injury. Methods: Mouse lungs were subjected to anterograde or retrograde perfusion with normal pressure ventilation (NV) or high pressure ventilation (=overventilation, OV) for 4h. Outcome parameters were cytokine, ephrinB2 and ephB4 levels in perfusate samples and bronchoalveolar lavage (BAL), and the wet-to-dry ratio. BAL levels of ephrinB2 and ephB4 were also determined in vivo, including mice ventilated for 7h with normal volume (NVV) or high volume (HVV). Results: Retrograde perfusion resulted in an increased wet-to-dry ratio when combined with OV; other physiological parameters were not affected. Cytokine levels in BAL and perfusate, as well as levels of soluble ephB4 in BAL were increased in OV, while soluble ephrinB2 BAL levels were increased in retrograde perfusion. BAL levels of ephB4 were also increased in vivo in mice ventilated for 7h with HVV. Conclusions: Retrograde perfusion has an influence on pulmonary oedema formation when combined with ventilation-induced barotrauma. EphrinB2 seems to be upregulated by flow reversal. EphB4 could be a promising marker in BAL for acute lung injury ex vivo and in vivo.

Published

2019

44. Acid sphingomyelinase regulates T

Author

Svenja, Böll, Sebastian, Ziemann, Kim, Ohl, Patricia, Klemm, Annette D, Rieg, Erich, Gulbins, Katrin Anne, Becker, Markus, Kamler, Norbert, Wagner, Stefan, Uhlig, Christian, Martin, Klaus, Tenbrock, and Eva, Verjans

Subjects

Disease Models, Animal, Mice, Mice, Inbred BALB C, Sphingomyelin Phosphodiesterase, Th2 Cells, Ovalbumin, Animals, Cytokines, Bronchial Hyperreactivity, Bronchoalveolar Lavage Fluid, Lung, Asthma

Abstract

Allergic diseases and especially allergic asthma are widespread diseases with high prevalence in childhood, but also in adults. Acid sphingomyelinase (ASM) is a key regulator of the sphingolipid pathway. Previous studies defined the association of ASM with the pathogenesis of TTo determine the role of Asm under baseline conditions, wild-type (WT) and AsmAt baseline, AsmAsm deficiency could induce higher numbers of T

Published

2019

45. Argon reduces the pulmonary vascular tone in rats and humans by GABA-receptor activation

Author

Said Suleiman, Stefan Uhlig, Annette D. Rieg, Manfred Moeller, Julia Krabbe, Sergej Klassen, Galina Balakirski, Saskia von Stillfried, Svetlana Kintsler, Mark Coburn, Jan Spillner, Sebastian Kalverkamp, Till Braunschweig, Aaron Babendreyer, Ira Katz, Christian Martin, and Thomas Schröder

Subjects

0301 basic medicine, Baclofen, medicine.medical_specialty, Contraction (grammar), lcsh:Medicine, Blood Pressure, Respiratory physiology, Pulmonary Artery, Neuroprotection, Article, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, GABA receptor, Internal medicine, medicine, Animals, Edema, Humans, Argon, Rats, Wistar, lcsh:Science, Lung, Multidisciplinary, Endothelin-1, business.industry, lcsh:R, Hemodynamics, medicine.disease, Pulmonary hypertension, Rats, 030104 developmental biology, medicine.anatomical_structure, Receptors, GABA-B, chemistry, GABA-B Receptor Agonists, Cardiology, lcsh:Q, Female, sense organs, business, Perfusion, 030217 neurology & neurosurgery, Muscle Contraction

Abstract

Argon exerts neuroprotection. Thus, it might improve patients’ neurological outcome after cerebral disorders or cardiopulmonary resuscitation. However, limited data are available concerning its effect on pulmonary vessel and airways. We used rat isolated perfused lungs (IPL) and precision-cut lung slices (PCLS) of rats and humans to assess this topic. IPL: Airway and perfusion parameters, oedema formation and the pulmonary capillary pressure (Pcap) were measured and the precapillary and postcapillary resistance (Rpost) was calculated. In IPLs and PCLS, the pulmonary vessel tone was enhanced with ET-1 or remained unchanged. IPLs were ventilated and PCLS were gassed with argon-mixture or room-air. IPL: Argon reduced the ET-1-induced increase of Pcap, Rpost and oedema formation (p B-receptors abolished argon-induced relaxation (p A-receptors only affected ET-1-pre-contracted PAs (p A/B-receptor agonists attenuated ET-1-induced contraction in PAs and baclofen (GABAB-agonist) even in pulmonary veins (p

Published

2019

46. Thrombin stimulates albumin transcytosis in lung microvascular endothelial cells via activation of acid sphingomyelinase

Author

Heike Dombrowsky, Warren L. Lee, Karsten Lindner, Wolfgang M. Kuebler, Neil M. Goldenberg, Stefan Uhlig, Matthias Ochs, Eike Reppien, Supandi Winoto-Morbach, Christian Mühlfeld, Yizhuo Gao, Stefan Schütze, Claudia Wittenberg, and Marek Drab

Subjects

Male, 0301 basic medicine, Pulmonary and Respiratory Medicine, Physiology, Caveolin 1, 030204 cardiovascular system & hematology, Biology, Lung injury, Rats, Sprague-Dawley, 03 medical and health sciences, Membrane Microdomains, 0302 clinical medicine, Thrombin, Albumins, Physiology (medical), medicine, Animals, Humans, Transcellular, Lung, Cells, Cultured, Albumin, Endothelial Cells, Cell Biology, respiratory system, Cell biology, Transport protein, Enzyme Activation, Endothelial stem cell, Protein Transport, Sphingomyelin Phosphodiesterase, 030104 developmental biology, Biochemistry, Transcytosis, Microvessels, Cattle, Endothelium, Vascular, Acid sphingomyelinase, medicine.drug

Abstract

Transcellular albumin transport occurs via caveolae that are abundant in lung microvascular endothelial cells. Stimulation of albumin transcytosis by proinflammatory mediators may contribute to alveolar protein leak in lung injury, yet the regulation of albumin transport and its underlying molecular mechanisms are so far incompletely understood. Here we tested the hypothesis that thrombin may stimulate transcellular albumin transport across lung microvascular endothelial cells in an acid-sphingomyelinase dependent manner. Thrombin increased the transport of fluorescently labeled albumin across confluent human lung microvascular endothelial cell (HMVEC-L) monolayers to an extent that markedly exceeds the rate of passive diffusion. Thrombin activated acid sphingomyelinase (ASM) and increased ceramide production in HMVEC-L, but not in bovine pulmonary artery cells, which showed little albumin transport in response to thrombin. Thrombin increased total caveolin-1 (cav-1) content in both whole cell lysates and lipid rafts from HMVEC-L, and this effect was blocked by inhibition of ASM or de novo protein biosynthesis. Thrombin-induced uptake of albumin into lung microvascular endothelial cells was confirmed in isolated-perfused lungs by real-time fluorescence imaging and electron microscopy of gold-labeled albumin. Inhibition of ASM attenuated thrombin-induced albumin transport both in confluent HMVEC-L and in intact lungs, whereas HMVEC-L treatment with exogenous ASM increased albumin transport and enriched lipid rafts in cav-1. Our findings indicate that thrombin stimulates transcellular albumin transport in an acid sphingomyelinase-dependent manner by inducing de novo synthesis of cav-1 and its recruitment to membrane lipid rafts.

Published

2016

47. Reliability of short-term measurements of heart rate variability: Findings from a longitudinal study

Author

Annett Meylan, Stefan Uhlig, and Udo Rudolph

Subjects

Male, Longitudinal study, Supine position, Intraclass correlation, Posture, Sitting, 050105 experimental psychology, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Heart Rate, Statistics, Humans, Medicine, Heart rate variability, 0501 psychology and cognitive sciences, Longitudinal Studies, Reliability (statistics), Reproducibility, business.industry, General Neuroscience, 05 social sciences, Reproducibility of Results, Neuropsychology and Physiological Psychology, Standard error, Female, business, 030217 neurology & neurosurgery

Abstract

Research on heart rate variability (HRV) received increasing attention. This study analysed the reliability of the most common HRV parameters for baseline measurements. 103 healthy students (83 women, M = 21.72 ± 3.31 years) participated in five short-term HRV sessions, each including supine, sitting, and standing positions, respectively, spanning a time interval of eleven months. Relative reliability was evaluated by intraclass correlation coefficients, and absolute reliability by standard errors of measurement, smallest real differences, and 95 % limits of random variation. No systematic mean differences between measurements emerged. Intraclass correlation coefficients were quite low (supine: .49-.64, sitting: .40-.57, standing: .35-.56). Absolute reliability indicators revealed pronounced variations between test and retest. Influences of posture and time between measurements on reliability were small and unsystematic. We conclude that such high levels of within-subjects variability in HRV measurements (a) hamper the detection of changes over time, and (b) should be considered carefully in future analyses.

Published

2020

48. Tyrosine kinase inhibitors relax pulmonary arteries in human and murine precision-cut lung slices

Author

Stefan Uhlig, Heike Schnöring, Gereon Schälte, Paul W. Manley, Saskia von Stillfried, Jan Spillner, Annette D. Rieg, Till Braunschweig, Christian Cranen, Said Suleiman, Rolf Rossaint, Nina Andrea Bünting, Thomas Schröder, and Christian Martin

Subjects

0301 basic medicine, Contraction (grammar), Pharmacology, Pulmonary Artery, Pulmonary arterial hypertension, Calcium in biology, 03 medical and health sciences, Mice, 0302 clinical medicine, Species Specificity, Pulmonary arteries, medicine, Animals, Humans, Amlodipine, Lung, Protein Kinase Inhibitors, lcsh:RC705-779, Tyrosine kinase inhibitors, Mice, Inbred BALB C, biology, Dose-Response Relationship, Drug, Chemistry, Research, Imatinib, lcsh:Diseases of the respiratory system, Nilotinib, Vasodilation, 030104 developmental biology, medicine.anatomical_structure, 030228 respiratory system, biology.protein, cardiovascular system, Female, Tyrosine kinase, Platelet-derived growth factor receptor, medicine.drug

Abstract

Background Tyrosine kinase inhibitors (TKIs) inhibit the platelet derived growth factor receptor (PDGFR) and gain increasing significance in the therapy of proliferative diseases, e.g. pulmonary arterial hypertension (PAH). Moreover, TKIs relax pulmonary vessels of rats and guinea pigs. So far, it is unknown, whether TKIs exert relaxation in human and murine pulmonary vessels. Thus, we studied the effects of TKIs and the PDGFR-agonist PDGF-BB in precision-cut lung slices (PCLS) from both species. Methods The vascular effects of imatinib (mice/human) or nilotinib (human) were studied in Endothelin-1 (ET-1) pre-constricted pulmonary arteries (PAs) or veins (PVs) by videomicroscopy. Baseline initial vessel area (IVA) was defined as 100%. With regard to TKI-induced relaxation, K+-channel activation was studied in human PAs (PCLS) and imatinib/nilotinib-related changes of cAMP and cGMP were analysed in human PAs/PVs (ELISA). Finally, the contractile potency of PDGF-BB was explored in PCLS (mice/human). Results Murine PCLS: Imatinib (10 μM) relaxed ET-1-pre-constricted PAs to 167% of IVA. Vice versa, 100 nM PDGF-BB contracted PAs to 60% of IVA and pre-treatment with imatinib or amlodipine prevented PDGF-BB-induced contraction. Murine PVs reacted only slightly to imatinib or PDGF-BB. Human PCLS: 100 μM imatinib or nilotinib relaxed ET-1-pre-constricted PAs to 166% or 145% of IVA, respectively, due to the activation of KATP-, BKCa 2+- or Kv-channels. In PVs, imatinib exerted only slight relaxation and nilotinib had no effect. Imatinib and nilotinib increased cAMP in human PAs, but not in PVs. In addition, PDGF-BB contracted human PAs/PVs, which was prevented by imatinib. Conclusions TKIs relax pre-constricted PAs/PVs from both, mice and humans. In human PAs, the activation of K+-channels and the generation of cAMP are relevant for TKI-induced relaxation. Vice versa, PDGF-BB contracts PAs/PVs (human/mice) due to PDGFR. In murine PAs, PDGF-BB-induced contraction depends on intracellular calcium. So, PDGFR regulates the tone of PAs/PVs. Since TKIs combine relaxant and antiproliferative effects, they may be promising in therapy of PAH.

Published

2018

49. Retrograde perfusion in isolated perfused mouse lungs-Feasibility and effects on cytokine levels and pulmonary oedema formation

Author

Lucy Kathleen Reiss, Andreas Ludwig, Nadine Ruske, Stephanie Kanzler, Christian Martin, Julia Krabbe, and Stefan Uhlig

Subjects

Pathology, medicine.medical_specialty, Time Factors, medicine.medical_treatment, Acute Lung Injury, Receptor, EphB4, Ephrin-B2, Lung injury, In Vitro Techniques, Toxicology, 030226 pharmacology & pharmacy, 03 medical and health sciences, Mice, 0302 clinical medicine, In vivo, Retrograde perfusion, medicine, Animals, Edema, Humans, Lung, Pharmacology, medicine.diagnostic_test, business.industry, General Medicine, respiratory system, Respiration, Artificial, respiratory tract diseases, Up-Regulation, Perfusion, Disease Models, Animal, Bronchoalveolar lavage, medicine.anatomical_structure, Cytokine, Breathing, Cytokines, Feasibility Studies, Female, business, Bronchoalveolar Lavage Fluid, 030217 neurology & neurosurgery, Biomarkers

Abstract

Retrograde lung vascular perfusion can appear in high-risk surgeries. The present report is the first to study long-term retrograde perfusion of isolated perfused mouse lungs (IPLs) and to use the tyrosine kinase ephB4 and its ligand ephrinB2 as potential markers for acute lung injury. Mouse lungs were subjected to anterograde or retrograde perfusion with normal-pressure ventilation (NV) or high-pressure ventilation (=overventilation, OV) for 4 hours. Outcome parameters were cytokine, ephrinB2 and ephB4 levels in perfusate samples and bronchoalveolar lavage (BAL), and the wet-to-dry ratio. Anterograde perfusion was feasible for 4 hours, while lungs receiving retrograde perfusion presented considerable collapse rates. Retrograde perfusion resulted in an increased wet-to-dry ratio when combined with high-pressure ventilation; other physiological parameters were not affected. Cytokine levels in BAL and perfusate, as well as levels of soluble ephB4 in BAL were increased in OV, while soluble ephrinB2 BAL levels were increased in retrograde perfusion. BAL levels of ephrinB2 and ephB4 were also determined in vivo, including mice ventilated for 7 hours with normal-volume ventilation (NVV) or high-volume ventilation (HVV) with increased levels of ephB4 in HVV BAL compared to NVV. Retrograde perfusion in IPL is limited as a routine method to investigate effects due to collapse for yet unclear reasons. If successful, retrograde perfusion has an influence on pulmonary oedema formation. In BAL, ephrinB2 seems to be up-regulated by flow reversal, while ephB4 is a marker for acute lung injury.

Published

2018

50. Constituent-specific material behavior of soft biological tissue: experimental quantification and numerical identification for lung parenchyma

Author

Wolfgang A. Wall, Christian Martin, Sophie M. K. Hobrack, Stefan Uhlig, and Anna M. Birzle

Subjects

0206 medical engineering, Constitutive equation, 02 engineering and technology, Fibrosis, Parenchyma, medicine, Animals, Fiber, Collagenases, Rats, Wistar, Lung, Parenchymal Tissue, Continuum mechanics, biology, Pancreatic Elastase, Chemistry, Mechanical Engineering, Elastase, Ground substance, Numerical Analysis, Computer-Assisted, medicine.disease, 020601 biomedical engineering, Biomechanical Phenomena, Elastin, Modeling and Simulation, biology.protein, Biophysics, Female, Collagen, Stress, Mechanical, Biotechnology

Abstract

In this study, we present a method to experimentally quantify and numerically identify the constituent-specific material behavior of soft biological tissues. This allows the clear identification of the individual contributions of major load-bearing constituents and their interactions in the constitutive law. While the overall approach is applicable for many tissues, here it will be presented for the identification of a sophisticated constituent-specific material model of viable lung parenchyma. This material model will help to better model the effects of various lung diseases that feature altered fiber content in the lungs, such as emphysema or fibrosis. To experimentally quantify the mechanical properties of collagen, elastin, collagen–elastin–fiber interactions, and ground substance, we examined 18 collagenase and elastase treated rat lung parenchymal slices. The mechanical contributions of the collagen and elastin fibers in the living tissue were inferred from uniaxial tension tests comparing the behavior before and after the selective digestion of the respective fibers. In order to also obtain the mechanical influence of the ground substance, we consecutively treated the samples with both proteases. Collagen and elastin fibers are morphologically interconnected. Thus, a mechanical interaction between these fibers appears likely, but has not yet been experimentally verified. In this paper, we propose an experimental method to quantitatively assess the mechanical behavior of these collagen–elastin–fiber interactions. Based on our experiments, we have identified individual material models within a nonlinear continuum mechanics framework for each load-bearing component via an inverse analysis. The proposed constituent-specific material law can be incorporated into computational models of the respiratory system to simulate and even predict the behavior and alteration of the individual constituents and their effect on the whole respiratory system during normal and artificial breathing, in particular in the case of diseases that alter the fibers in the tissue.

Published

2018