Your search keyword '"Lars Bräuer"' showing total 13 results

1. Correction: Expression and Localization of Lung Surfactant Proteins in Human Testis.

Author

Stephanie Beileke, Horst Claassen, Walter Wagner, Cord Matthies, Christian Ruf, Arndt Hartmann, Fabian Garreis, Friedrich Paulsen, Martin Schicht, and Lars Bräuer

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0143058.].

Published

2025

2. Evaluation of surfactant proteins A, B, C, and D in articular cartilage, synovial membrane and synovial fluid of healthy as well as patients with osteoarthritis and rheumatoid arthritis.

Author

Nadine Hartjen, Lars Bräuer, Beate Reiß, Horst Claassen, Stephanie Beileke, Fabian Garreis, Sebastian Hoogeboom, Michael Tsokos, Saskia Etzold, Brigitte Müller-Hilke, Kolja Gelse, Thomas Müller, Mary B Goldring, Friedrich Paulsen, and Martin Schicht

Subjects

Medicine, Science

Abstract

OBJECTIVE:Surfactant Proteins (SPs) are well known from lung and form, along with phospholipids, a surface-active-layer at the liquid-air-interface of the alveolar lining. They play a major protective role by lowering surface tension, activating innate and adaptive immune defense at the lung mucosal interface, especially during infection. We analyzed the regulation of SPs in human and mouse articular chondrocytes, synoviocytes, and synovial fluid under healthy and inflammatory conditions, as well as in tissues of patients suffering from osteoarthritis and rheumatoid arthritis. METHODS:Immunohistochemistry, RT-PCR, qRT-PCR, ELISA, Western blotting were performed in cell cultures and tissue samples to determine localization, regulation, and concentration of SPs. RESULTS:All four SPs, were expressed by healthy human and mouse articular chondrocytes and synoviocytes and were also present in synovial fluid. Treatment with inflammatory mediators like IL-1β and TNF-α led to short-term upregulation of individual SPs in vitro. In tissues from patients with osteoarthritis and rheumatoid arthritis, protein levels of all four SPs increased significantly compared to the controls used. CONCLUSION:These results show the distribution and amount of SPs in tissues of articular joints. They are produced by chondrocytes and synoviocytes and occur in measurable amounts in synovial fluid. All four SPs seem to be differently regulated under pathologic conditions. Their physiological functions in lowering surface tension and immune defense need further elucidation and make them potential candidates for therapeutic intervention.

Published

2018

3. Examining the role of the surfactant family member SFTA3 in interneuron specification.

Author

Christopher Y Chen, Nickesha C Anderson, Sandy Becker, Martin Schicht, Christopher Stoddard, Lars Bräuer, Friedrich Paulsen, and Laura Grabel

Subjects

Medicine, Science

Abstract

The transcription factor NKX2.1, expressed at high levels in the medial ganglionic eminence (MGE), is a master regulator of cortical interneuron progenitor development. To identify gene candidates with expression profiles similar to NKX2.1, previous transcriptome analysis of human embryonic stem cell (hESC)-derived MGE-like progenitors revealed SFTA3 as the strongest candidate. Quantitative real-time PCR analysis of hESC-derived NKX2.1-positive progenitors and transcriptome data available from the Allen Institute for Brain Science revealed comparable expression patterns for NKX2.1 and SFTA3 during interneuron differentiation in vitro and demonstrated high SFTA3 expression in the human MGE. Although SFTA3 has been well studied in the lung, the possible role of this surfactant protein in the MGE during embryonic development remains unexamined. To determine if SFTA3 plays a role in MGE specification, SFTA3-/- and NKX2.1 -/- hESC lines were generated using custom designed CRISPRs. We show that NKX2.1 KOs have a significantly diminished capacity to differentiate into MGE interneuron subtypes. SFTA3 KOs also demonstrated a somewhat reduced ability to differentiate down the MGE-like lineage, although not as severe relative to NKX2.1 deficiency. These results suggest NKX2.1 and SFTA3 are co-regulated genes, and that deletion of SFTA3 does not lead to a major change in the specification of MGE derivatives.

Published

2018

4. The Cerebral Surfactant System and Its Alteration in Hydrocephalic Conditions.

Author

Stefan Schob, Donald Lobsien, Benjamin Friedrich, Matthias K Bernhard, Corinna Gebauer, Julia Dieckow, Matthias Gawlitza, Mandy Pirlich, Dorothee Saur, Lars Bräuer, Ingo Bechmann, Karl-Titus Hoffmann, Cynthia V Mahr, Ulf Nestler, and Matthias Preuß

Subjects

Medicine, Science

Abstract

INTRODUCTION:Pulmonary Surfactant reduces surface tension in the terminal airways thus facilitating breathing and contributes to host's innate immunity. Surfactant Proteins (SP) A, B, C and D were recently identified as inherent proteins of the CNS. Aim of the study was to investigate cerebrospinal fluid (CSF) SP levels in hydrocephalus patients compared to normal subjects. PATIENTS AND METHODS:CSF SP A-D levels were quantified using commercially available ELISA kits in 126 patients (0-84 years, mean 39 years). 60 patients without CNS pathologies served as a control group. Hydrocephalus patients were separated in aqueductal stenosis (AQS, n = 24), acute hydrocephalus without aqueductal stenosis (acute HC w/o AQS, n = 16) and idiopathic normal pressure hydrocephalus (NPH, n = 20). Furthermore, six patients with pseudotumor cerebri were investigated. RESULTS:SP A-D are present under physiological conditions in human CSF. SP-A is elevated in diseases accompanied by ventricular enlargement (AQS, acute HC w/o AQS) in a significant manner (0.67, 1.21 vs 0.38 ng/ml in control, p

Published

2016

5. Expression and Localization of Lung Surfactant Proteins in Human Testis.

Author

Stephanie Beileke, Horst Claassen, Walter Wagner, Cord Matthies, Christian Ruf, Arndt Hartmann, Fabian Garreis, Friedrich Paulsen, Martin Schicht, and Lars Bräuer

Subjects

Medicine, Science

Abstract

Surfactant proteins (SPs) have been described in various tissues and fluids including tissues of the nasolacrimal apparatus, airways and digestive tract. Human testis have a glandular function as a part of the reproductive and the endocrine system, but no data are available on SPs in human testis and prostate under healthy and pathologic conditions.The aim of the study was the detection and characterization of the surfactant proteins A, B, C and D (SP-A, SP-B, SP-C, SP-D) in human testis. Additionally tissue samples affected by testicular cancer were investigated.Surfactant proteins A, B, C and D were detected using RT-PCR in healthy testis. By means of Western blot analysis, these SPs were detected at the protein level in normal testis, seminoma and seminal fluid, but not in spermatozoa. Expression of SPs was weaker in seminoma compared to normal testicular tissue. SPs were localized in combination with vimentin immunohistochemically in cells of Sertoli and Leydig.Surfactant proteins seem to be inherent part of the human testis. By means of physicochemical properties the proteins appear to play a role during immunological and rheological process of the testicular tissue. The presence of SP-B and SP-C in cells of Sertoli correlates with their function of fluid secretion and may support transportation of spermatozoa. In seminoma the expression of all SP's was generally weaker compared to normal germ cells. This could lead to a reduction of immunomodulatory and rheology processes in the germ cell tumor.

Published

2015

6. Strategies against burnout and anxiety in medical education--implementation and evaluation of a new course on relaxation techniques (Relacs) for medical students.

Author

Katharina Wild, Michael Scholz, Axel Ropohl, Lars Bräuer, Friedrich Paulsen, and Pascal H M Burger

Subjects

Medicine, Science

Abstract

Burnout and stress-related mental disorders (depression, anxiety) occur in medical students and physicians with a significantly higher prevalence than in the general population. At the same time, the learning of coping mechanisms against stress is still not an integral part of medical education. In this pilot study we developed an elective course for learning relaxation techniques and examined the condition of the students before and after the course. 42 students participated in the semester courses in 2012 and 2013 as well as in a survey at the start and end of each course. The students were instructed in autogenic training (AT) and progressive muscle relaxation according to Jacobsen (PMR) with the goal of independent and regular exercising. At the beginning and the end of the semester/course the students were interviewed using standardized, validated questionnaires on burnout (BOSS-II) and anxiety (STAI-G), depression (BDI), quality of life (SF-12) and sense of coherence (SOC-L9). We compared the results of our students participating in Relacs with results from eight semester medical students (n = 88), assessed with the same questionnaires at similar points of time within their semester. Participating students showed a significant decline in cognitive and emotional burnout stress and in trait anxiety. Furthermore, they showed a reduction in state anxiety and a conspicuous decrease in mean depression. The sense of coherence increased at the same time. A comparative cohort of medical students of 8th semester students, showed lower values for the specified measurement parameters at the beginning, but showed no progressive changes. Our course introducing AT and PMR led to a significant reduction of burnout and anxiety within the participating group of medical students. Even the course attendance for just one semester resulted in significant improvements in the evaluated parameters in contrast to those students who did not attend the course.

Published

2014

7. Correction: The Detection of Surfactant Proteins A, B, C and D in the Human Brain and Their Regulation in Cerebral Infarction, Autoimmune Conditions and Infections of the CNS.

Author

Stefan Schob, Martin Schicht, Saadettin Sel, Dankwart Stiller, Alexander S. Kekulé, Friedrich Paulsen, Erik Maronde, and Lars Bräuer

Subjects

Medicine, Science

Published

2013

8. The detection of surfactant proteins A, B, C and D in the human brain and their regulation in cerebral infarction, autoimmune conditions and infections of the CNS.

Author

Stefan Schob, Martin Schicht, Saadettin Sel, Dankwart Stiller, Alexander S Kekulé, Friedrich Paulsen, Erik Maronde, and Lars Bräuer

Subjects

Medicine, Science

Abstract

Surfactant proteins (SP) have been studied intensively in the respiratory system. Surfactant protein A and surfactant protein D are proteins belonging to the family of collectins each playing a major role in the innate immune system. The ability of surfactant protein A and surfactant protein D to bind various pathogens and facilitate their elimination has been described in a vast number of studies. Surfactant proteins are very important in modulating the host's inflammatory response and participate in the clearance of apoptotic cells. Surfactant protein B and surfactant protein C are proteins responsible for lowering the surface tension in the lungs. The aim of this study was an investigation of expression of surfactant proteins in the central nervous system to assess their specific distribution patterns. The second aim was to quantify surfactant proteins in cerebrospinal fluid of healthy subjects compared to patients suffering from different neuropathologies. The expression of mRNA for the surfactant proteins was analyzed with RT-PCR done with samples from different parts of the human brain. The production of the surfactant proteins in the brain was verified using immunohistochemistry and Western blot. The concentrations of the surfactant proteins in cerebrospinal fluid from healthy subjects and patients suffering from neuropathologic conditions were quantified using ELISA. Our results revealed that surfactant proteins are present in the central nervous system and that the concentrations of one or more surfactant proteins in healthy subjects differed significantly from those of patients affected by central autoimmune processes, CNS infections or cerebral infarction. Based on the localization of the surfactant proteins in the brain, their different levels in normal versus pathologic samples of cerebrospinal fluid and their well-known functions in the lungs, it appears that the surfactant proteins may play roles in host defense of the brain, facilitation of cerebrospinal fluid secretion and maintenance of the latter's rheological properties.

Published

2013

9. Staphylococcus aureus and Pseudomonas aeruginosa express and secrete human surfactant proteins.

Author

Lars Bräuer, Martin Schicht, Dieter Worlitzsch, Tobias Bensel, R Gary Sawers, and Friedrich Paulsen

Subjects

Medicine, Science

Abstract

Surfactant proteins (SP), originally known from human lung surfactant, are essential to proper respiratory function in that they lower the surface tension of the alveoli. They are also important components of the innate immune system. The functional significance of these proteins is currently reflected by a very large and growing number of publications. The objective goal of this study was to elucidate whether Staphylococcus aureus and Pseudomonas aeruginosa is able to express surfactant proteins. 10 different strains of S. aureus and P. aeruginosa were analyzed by means of RT-PCR, Western blot analysis, ELISA, immunofluorescence microscopy and immunoelectron microscopy. The unexpected and surprising finding revealed in this study is that different strains of S. aureus and P. aeruginosa express and secrete proteins that react with currently commercially available antibodies to known human surfactant proteins. Our results strongly suggest that the bacteria are either able to express 'human-like' surfactant proteins on their own or that commercially available primers and antibodies to human surfactant proteins detect identical bacterial proteins and genes. The results may reflect the existence of a new group of bacterial surfactant proteins and DNA currently lacking in the relevant sequence and structure databases. At any rate, our knowledge of human surfactant proteins obtained from immunological and molecular biological studies may have been falsified by the presence of bacterial proteins and DNA and therefore requires critical reassessment.

Published

2013

10. 'SP-G', a putative new surfactant protein--tissue localization and 3D structure.

Author

Felix Rausch, Martin Schicht, Friedrich Paulsen, Ivan Ngueya, Lars Bräuer, and Wolfgang Brandt

Subjects

Medicine, Science

Abstract

Surfactant proteins (SP) are well known from human lung. These proteins assist the formation of a monolayer of surface-active phospholipids at the liquid-air interface of the alveolar lining, play a major role in lowering the surface tension of interfaces, and have functions in innate and adaptive immune defense. During recent years it became obvious that SPs are also part of other tissues and fluids such as tear fluid, gingiva, saliva, the nasolacrimal system, and kidney. Recently, a putative new surfactant protein (SFTA2 or SP-G) was identified, which has no sequence or structural identity to the already know surfactant proteins. In this work, computational chemistry and molecular-biological methods were combined to localize and characterize SP-G. With the help of a protein structure model, specific antibodies were obtained which allowed the detection of SP-G not only on mRNA but also on protein level. The localization of this protein in different human tissues, sequence based prediction tools for posttranslational modifications and molecular dynamic simulations reveal that SP-G has physicochemical properties similar to the already known surfactant proteins B and C. This includes also the possibility of interactions with lipid systems and with that, a potential surface-regulatory feature of SP-G. In conclusion, the results indicate SP-G as a new surfactant protein which represents an until now unknown surfactant protein class.

Published

2012

11. Strategies against burnout and anxiety in medical education--implementation and evaluation of a new course on relaxation techniques (Relacs) for medical students

Author

Lars Bräuer, Pascal H.M. Burger, Axel Ropohl, Katharina Wild, Friedrich Paulsen, and Michael Scholz

Subjects

Adult, Male, Students, Medical, Science Policy, Muscle Relaxation, Autogenic training, medicine.medical_treatment, Population, education, lcsh:Medicine, Anxiety, Relaxation Therapy, Burnout, Young Adult, Medizinische Fakultät, Surveys and Questionnaires, Mental Health and Psychiatry, Medicine and Health Sciences, medicine, Psychology, Humans, ddc:610, lcsh:Science, Burnout, Professional, Progressive muscle relaxation, Medical education, education.field_of_study, Multidisciplinary, Education, Medical, Relaxation (psychology), business.industry, lcsh:R, Attendance, Biology and Life Sciences, Muscle relaxation, Science Education, Female, lcsh:Q, medicine.symptom, business, Research Article

Abstract

Burnout and stress-related mental disorders (depression, anxiety) occur in medical students and physicians with a significantly higher prevalence than in the general population. At the same time, the learning of coping mechanisms against stress is still not an integral part of medical education. In this pilot study we developed an elective course for learning relaxation techniques and examined the condition of the students before and after the course. 42 students participated in the semester courses in 2012 and 2013 as well as in a survey at the start and end of each course. The students were instructed in autogenic training (AT) and progressive muscle relaxation according to Jacobsen (PMR) with the goal of independent and regular exercising. At the beginning and the end of the semester/course the students were interviewed using standardized, validated questionnaires on burnout (BOSS-II) and anxiety (STAI-G), depression (BDI), quality of life (SF-12) and sense of coherence (SOC-L9). We compared the results of our students participating in Relacs with results from eight semester medical students (n = 88), assessed with the same questionnaires at similar points of time within their semester. Participating students showed a significant decline in cognitive and emotional burnout stress and in trait anxiety. Furthermore, they showed a reduction in state anxiety and a conspicuous decrease in mean depression. The sense of coherence increased at the same time. A comparative cohort of medical students of 8th semester students, showed lower values for the specified measurement parameters at the beginning, but showed no progressive changes. Our course introducing AT and PMR led to a significant reduction of burnout and anxiety within the participating group of medical students. Even the course attendance for just one semester resulted in significant improvements in the evaluated parameters in contrast to those students who did not attend the course.

Published

2014

12. Correction: The Detection of Surfactant Proteins A, B, C and D in the Human Brain and Their Regulation in Cerebral Infarction, Autoimmune Conditions and Infections of the CNS

Author

Dankwart Stiller, Alexander S. Kekulé, Martin Schicht, Saadettin Sel, Stefan Schob, Friedrich Paulsen, Lars Bräuer, and Erik Maronde

Subjects

Pulmonary Surfactant-Associated Proteins, Science, Blotting, Western, Collectin, lcsh:Medicine, Enzyme-Linked Immunosorbent Assay, Biology, Statistics, Nonparametric, Cerebrospinal fluid secretion, Autoimmune Diseases of the Nervous System, Central Nervous System Infections, Cerebrospinal fluid, Pulmonary surfactant, Western blot, Medizinische Fakultät, medicine, Humans, RNA, Messenger, ddc:610, lcsh:Science, Choroid plexus, Immunohistochemistry techniques, Enzyme-linked immunoassays, Central nervous system, Polymerase chain reaction, Surfactants, Infarction, Multidisciplinary, medicine.diagnostic_test, Reverse Transcriptase Polymerase Chain Reaction, lcsh:R, Correction, Brain, Surfactant protein D, Surfactant protein C, Cerebral Infarction, Immunohistochemistry, Surfactant protein A, Biochemistry, Immunology, Medicine, lcsh:Q, Research Article

Abstract

Surfactant proteins (SP) have been studied intensively in the respiratory system. Surfactant protein A and surfactant protein D are proteins belonging to the family of collectins each playing a major role in the innate immune system. The ability of surfactant protein A and surfactant protein D to bind various pathogens and facilitate their elimination has been described in a vast number of studies. Surfactant proteins are very important in modulating the host's inflammatory response and participate in the clearance of apoptotic cells. Surfactant protein B and surfactant protein C are proteins responsible for lowering the surface tension in the lungs. The aim of this study was an investigation of expression of surfactant proteins in the central nervous system to assess their specific distribution patterns. The second aim was to quantify surfactant proteins in cerebrospinal fluid of healthy subjects compared to patients suffering from different neuropathologies. The expression of mRNA for the surfactant proteins was analyzed with RT-PCR done with samples from different parts of the human brain. The production of the surfactant proteins in the brain was verified using immunohistochemistry and Western blot. The concentrations of the surfactant proteins in cerebrospinal fluid from healthy subjects and patients suffering from neuropathologic conditions were quantified using ELISA. Our results revealed that surfactant proteins are present in the central nervous system and that the concentrations of one or more surfactant proteins in healthy subjects differed significantly from those of patients affected by central autoimmune processes, CNS infections or cerebral infarction. Based on the localization of the surfactant proteins in the brain, their different levels in normal versus pathologic samples of cerebrospinal fluid and their well-known functions in the lungs, it appears that the surfactant proteins may play roles in host defense of the brain, facilitation of cerebrospinal fluid secretion and maintenance of the latter's rheological properties.

Published

2013

13. 'SP-G', a putative new surfactant protein--tissue localization and 3D structure

Author

Lars Bräuer, Wolfgang Brandt, Ivan Ngueya, Friedrich Paulsen, Felix Rausch, and Martin Schicht

Subjects

Proteomics, Male, Anatomy and Physiology, Gene Expression, lcsh:Medicine, Kidney, Biochemistry, law.invention, Computational Chemistry, Protein structure, Pulmonary surfactant, law, Molecular Cell Biology, Testis, Gene expression, lcsh:Science, Lung, Peptide sequence, Phospholipids, Pulmonary Surfactant-Associated Protein A, Multidisciplinary, Middle Aged, Recombinant Proteins, Chemistry, Organ Specificity, Recombinant DNA, Medicine, Female, Public Health, Autopsy, Rabbits, Research Article, Adult, Drugs and Devices, Medizinische Fakultät -ohne weitere Spezifikation, Immunology, Molecular Sequence Data, Molecular Dynamics Simulation, Biology, Antibodies, Protein–protein interaction, Chemical Biology, Escherichia coli, Animals, Humans, Surface Tension, Amino Acid Sequence, ddc:610, Theoretical Chemistry, Aged, Messenger RNA, lcsh:R, Computational Biology, Eyelids, lcsh:Q, Medicinal Chemistry, Protein Processing, Post-Translational

Abstract

Surfactant proteins (SP) are well known from human lung. These proteins assist the formation of a monolayer of surface-active phospholipids at the liquid-air interface of the alveolar lining, play a major role in lowering the surface tension of interfaces, and have functions in innate and adaptive immune defense. During recent years it became obvious that SPs are also part of other tissues and fluids such as tear fluid, gingiva, saliva, the nasolacrimal system, and kidney. Recently, a putative new surfactant protein (SFTA2 or SP-G) was identified, which has no sequence or structural identity to the already know surfactant proteins. In this work, computational chemistry and molecular-biological methods were combined to localize and characterize SP-G. With the help of a protein structure model, specific antibodies were obtained which allowed the detection of SP-G not only on mRNA but also on protein level. The localization of this protein in different human tissues, sequence based prediction tools for posttranslational modifications and molecular dynamic simulations reveal that SP-G has physicochemical properties similar to the already known surfactant proteins B and C. This includes also the possibility of interactions with lipid systems and with that, a potential surface-regulatory feature of SP-G. In conclusion, the results indicate SP-G as a new surfactant protein which represents an until now unknown surfactant protein class.

Published

2012