TY - GEN A1 - Seefried, Lothar T1 - Supplement: Impaired Physical Performance in X-linked Hypophosphatemia is not caused by depleted muscular phosphate stores T2 - Journal of Clinical Endocrinology & Metabolism N2 - Supplemental Data to "Impaired Physical Performance in X-linked Hypophosphatemia is not caused by depleted muscular phosphate stores" KW - XLH KW - Hypophosphatemia KW - Muscle Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-303647 ER - TY - JOUR A1 - Kaltdorf, Martin A1 - Breitenbach, Tim A1 - Karl, Stefan A1 - Fuchs, Maximilian A1 - Kessie, David Komla A1 - Psota, Eric A1 - Prelog, Martina A1 - Sarukhanyan, Edita A1 - Ebert, Regina A1 - Jakob, Franz A1 - Dandekar, Gudrun A1 - Naseem, Muhammad A1 - Liang, Chunguang A1 - Dandekar, Thomas T1 - Software JimenaE allows efficient dynamic simulations of Boolean networks, centrality and system state analysis JF - Scientific Reports N2 - The signal modelling framework JimenaE simulates dynamically Boolean networks. In contrast to SQUAD, there is systematic and not just heuristic calculation of all system states. These specific features are not present in CellNetAnalyzer and BoolNet. JimenaE is an expert extension of Jimena, with new optimized code, network conversion into different formats, rapid convergence both for system state calculation as well as for all three network centralities. It allows higher accuracy in determining network states and allows to dissect networks and identification of network control type and amount for each protein with high accuracy. Biological examples demonstrate this: (i) High plasticity of mesenchymal stromal cells for differentiation into chondrocytes, osteoblasts and adipocytes and differentiation-specific network control focusses on wnt-, TGF-beta and PPAR-gamma signaling. JimenaE allows to study individual proteins, removal or adding interactions (or autocrine loops) and accurately quantifies effects as well as number of system states. (ii) Dynamical modelling of cell–cell interactions of plant Arapidopsis thaliana against Pseudomonas syringae DC3000: We analyze for the first time the pathogen perspective and its interaction with the host. We next provide a detailed analysis on how plant hormonal regulation stimulates specific proteins and who and which protein has which type and amount of network control including a detailed heatmap of the A.thaliana response distinguishing between two states of the immune response. (iii) In an immune response network of dendritic cells confronted with Aspergillus fumigatus, JimenaE calculates now accurately the specific values for centralities and protein-specific network control including chemokine and pattern recognition receptors. KW - cellular signalling networks KW - computer modelling Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-313303 VL - 13 ER - TY - THES A1 - Altmann, Stephan T1 - Characterization of Metabolic Glycoengineering in Mesenchymal Stromal Cells for its Application in thermoresponsive Bioinks T1 - Charakterisierung von Metabolic Glycoengineering in mesenchymalen Stromazellen für die Anwendung in thermoresponsiven Biotinten N2 - This work developed during the first funding period of the subproject B05 in the framework of the interdisciplinary research consortium TRR 225 ‘From the Fundamentals of Biofabrication toward functional Tissue Models’ and was part of a cooperation between the Orthopedic Department represented by Prof. Dr. Regina Ebert and the Institute of Organic Chemistry represented by Prof. Dr. Jürgen Seibel. This project dealed with cellular behavior during the bioprinting process and how to influence it by modifying the cell glycocalyx with functional target molecules. The focus was on the impact of potential shear stress, that cells experience when they get processed in thermoresponsive bioinks, and a way to increase the cell stiffness via metabolic glycoengineering to attenuate shear forces. For the characterization of the metabolic glycoengineering, four different peracetylated and four non-acetylated modified monosaccharides (two mannose and two sialic acid sugars) were tested in primary human mesenchymal stromal cells (hMSC) and telomerase-immortalized hMSC (hMSC-TERT). Viability results demonstrated a dose-dependent correlation for all sugars, at which hMSC-TERT seemed to be more susceptible leading to lower viability rates. The assessment of the incorporation efficiencies was performed by click chemistry using fluorescent dyes and revealed also a dose-dependent correlation for all mannose and sialic acid sugars, while glucose and galactose variants were not detected in the glycocalyx. However, incorporation efficiencies were highest when using mannose sugars in the primary hMSC. A subsequent analysis of the temporal retention of the incorporated monosaccharides showed a constant declining fluorescence signal up to 6 d for azido mannose in hMSC-TERT, whereas no signal could be detected for alkyne mannose after 2 d. Investigation of the differentiation potential and expression of different target genes revealed no impairment after incubation with mannose sugars, indicating a normal phenotype for hMSC-TERT. Following the successful establishment of the method, either a coumarin derivative or an artificial galectin 1 ligand were incorporated into the cell glycocalyx of hMSC-TERT as functional target molecule. The biophysical analysis via shear flow deformation cytometry revealed a slightly increased cell stiffness and lowered fluidity for both molecules. A further part of this project aimed to control lectin-mediated cell adhesion by artificial galectin 1 ligands. As that hypothesis was settled in the work group of Prof. Dr. Jürgen Seibel, this work supported with an initial characterization of galectin 1 as part of the hMSC biology. A stable galectin 1 expression at gene and protein level in both hMSC and hMSC-TERT could be confirmed, at which immunocytochemical stainings could detect the protein only in the glycocalyx. The treatment of hMSC-TERT with a galectin 1 ligand in different concentrations did not show an altered gene expression of galectin 1. However, these first data in addition to the investigation of stiffness confirmed the applicability of specific and artificial IV galectin 1 ligands in biofabrication approaches to alter cell properties of hMSC. To conclude, metabolic glycoengineering has been successfully implemented in hMSC and hMSC-TERT to introduce glycocalyx modifications which reside there for several days. A proof of concept was carried out by the increase of cell stiffness and fluidity by the incorporation of a coumarin derivative or an artificial galectin 1 ligand. For the characterization of shear stress impact on cells after printing in thermoresponsive bioinks, the processing of hMSC-TERT (mixing or additionally printing) with Pluronic F127 or Polyoxazoline-Polyoxazine (POx-POzi) polymer solution was investigated. While there were no changes in viability when using POx-POzi bioink, processing with Pluronic F127 indicated slightly lower viability and increased apoptosis activity. Assessment of cellular responses to potential shear stress showed no reorganization of the cytoskeleton independent of the bioink, but highly increased expression of the mechanoresponsive proto-oncogene c Fos which was more pronounced when using Pluronic F127 and just mixed with the bioinks. Interestingly, processing of the mechanoresponsive reporter cell line hMSC-TERT-AP1 revealed slightly elevated mechanotransduction activity when using POx-POzi polymer and just mixed with the bioinks as well. In conclusion, hMSC-TERT embedded in thermoresponsive bioinks might shortly experience shear stress during the printing process, but that did not lead to remarkable cell damage likely due to the rheological properties of the bioinks. Furthermore, the printing experiments also suggested that cells do not sense more shear stress when additionally printed. N2 - Diese Arbeit entstand aus dem Projekt B05 während der ersten Förderperiode im Rahmen des interdisziplinären Sonderforschungsbereiches TRR 225 „Von den Grundlagen der Biofabrikation zu funktionalen Gewebemodellen“ und beinhaltete eine Kooperation zwischen dem Lehrstuhl für Orthopädie repräsentiert durch Prof. Dr. Regina Ebert und dem Institut für Organische Chemie repräsentiert durch Prof. Dr. Jürgen Seibel. Das Projekt beschäftigte sich mit den Auswirkungen des 3D Drucks auf Zellen während und nach dem Druck mit thermoresponsiven Biotinten. Hierbei lag der Fokus auf Scherkräften, die Zellen während des Drucks erfahren, und der Möglichkeit, deren nachteilige Auswirkungen durch gezielte Erhöhung der Zellsteifigkeit via Metabolic Glycoengineering zu minimieren. Zur Etablierung dieser Methode wurden vier azetylierte sowie vier nicht-azetylierte modifizierte Einfachzucker (zwei Mannosen und zwei Sialinsäuren) hinsichtlich ihrer Zellkompatibilität und Einbaurate in primären humanen mesenchymalen Stromazellen (hMSC) und Telomerase-immortalisierten hMSC (hMSC-TERT) charakterisiert. Bei der Viabilität zeigte sich für alle untersuchten Zucker ein konzentrationsabhängiges Verhalten, wobei die hMSC-TERT generell empfindlicher reagierten. Eine Untersuchung von verschiedenen Zielgenen nach Zuckerinkubation gab keine Hinweise auf biologisch veränderte Expressionsmuster und auch das phänotypische Differenzierungspotenzial (adipogen und osteogen) blieb erhalten. Der Einbau der modifizierten Zucker in Proteoglykane sowie Glykoproteine der Glykokalyx wurde mikroskopisch mittels Fluoreszenzfarbstoffen charakterisiert. Dabei zeigte sich ebenfalls ein konzentrationsabhängiges Verhalten für alle Mannosen und Sialinsäuren, wohingegen die Glukose- und Galaktosevarianten nicht nachgewiesen werden konnten. Die Mannosezucker zeigten die höchsten Einbauraten, welche in primären hMSC noch stärker ausfielen als in hMSC-TERT. Ein Langzeitversuch zur Beurteilung der zeitlichen Stabilität der Glykokalyxmodifikation konnte für die azetylierte Azidomannose ein abnehmendes Fluoreszenzsignal bis zum sechsten Tag nach der Klickreaktion ermitteln. Im Gegensatz dazu konnte die azetylierte Alkinmannose bereits ab dem zweiten Tag nicht mehr nachgewiesen werden. Nach der erfolgreichen Optimierung der Methodik wurde der Effekt eines Kumarinderivates oder eines künstlichen Galektin 1 Liganden auf die Zellsteifigkeit sowie die -fluidität mit Hilfe der Deformationszytometrie untersucht. Die Modifikation der Glykokalyx mit beiden untersuchten Molekülen führte zu einer leichten Erhöhung der Steifigkeit in Kombination mit einer leicht erniedrigten Fluidität. In einem weiteren Teil des Projekts sollte die Lektin-vermittelte Adhäsion von Zellen an Polymerstränge initiiert werden, indem sie mit künstlichen Galektin 1 Liganden modifiziert werden. Da diese Hypothese in der Forschungsgruppe von Prof. Dr. Jürgen Seibel bearbeitet wurde, unterstützte diese Arbeit mit einer anfänglichen Charakterisierung von Galektin 1 als Teil der hMSC Zellbiologie. In hMSC und hMSC-TERT konnte eine VI stabile Expression auf Gen- und Proteinebene nachwiesen werden, wobei das Lektin in der Glykokalyx lokalisiert war. Ein Inkubationsversuch mit einem spezifischen Liganden zeigte in hMSC-TERT unabhängig von der Konzentration keine veränderte Galektin 1 Genexpression. In Verbindung mit den Steifigkeitsuntersuchungen bestätigt diese anfängliche Charakterisierung die Anwendbarkeit von künstlichen Galektin 1 Liganden in der Biofabrikation um hMSC zu modifizieren. Somit konnte gezeigt werden, dass Metabolic Glycoengineering sich für die gezielte Einbringung von Molekülen in die Zellglykokalyx von primären hMSC sowie der entsprechenden TERT-Zelllinie zur mittelfristigen Modifikation eignet. Dies wurde durch einen funktionellen Ansatz bestätigt, indem die Zellsteifigkeit und -fluidität durch den Einsatz zwei verschiedener Moleküle erwartungsgemäß beeinflusst wurden. Für die Charakterisierung der Scherstressauswirkungen auf Zellen nach 3D Druck in thermoresponsiven Biotinten wurden hMSC und hMSC-TERT in Pluronic F127 oder Polyoxazolin-Polyoxazin (POx-POzi) Polymerlösung prozessiert (gemischt oder zusätzlich verdruckt) und direkt danach analysiert. Während letztere die Viabilität nicht verschlechterte, zeigten hMSC-TERT nach Verarbeitung in Pluronic F127 eine leicht erniedrigte Viabilität sowie leicht erhöhte Apoptoseraten. Im Zuge von Analysen der Mechanotransduktion und deren Auswirkungen konnte unabhängig von der Biotinte sowie der Behandlung kein Umbau des Zytoskeletts immunzytochemisch nachgewiesen werden. Im Gegensatz dazu zeigten Genexpressionsanalysen eine starke Hochregulierung des mechanoresponsiven Proto-Onkogens c Fos unter allen Bedingungen, wobei diese stärker ausfiel bei Verwendung der Pluronic F127 Biotinte und nur nach Mischen (gilt für beide Biotinten). Um den Scherstress quantitativ zu beurteilen, wurde die Reporterzelllinie hMSC-TERT-AP1 verwendet, welche das Auslesen der Mechanotransduktion durch eine gekoppelte Luziferase-Proteinexpression ermöglicht. Interessanterweise zeigte sich eine leicht erhöhte Luziferaseaktivität nur nach Verarbeitung mit der POx-POzi Polymerlösung, welche stärker ausfiel wenn die Zellen mit der Biotinte lediglich gemischt wurden. Zusammengenommen bestätigten die Ergebnisse die zelluläre Wahrnehmung von Scherstress in thermoresponsiven Biotinten, allerdings scheint dieser nur schwache Auswirkungen auf die Zellen zu haben, was auf die rheologischen Eigenschaften beider untersuchten Biotinten zurückgeführt werden kann. Die Druckergebnisse legten außerdem nahe, dass die Zellen nicht mehr Scherstress erfahren, wenn sie zusätzlich verdruckt wurden. KW - Glykobiologie KW - Glykokalyx KW - Tissue Engineering KW - Galectine KW - Metabolic Glycoengineering KW - Biofabrication KW - Galectin 1 KW - Glycocalyx KW - Shear Stress KW - Scherstress Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-291003 ER - TY - JOUR A1 - Stratos, Ioannis A1 - Rinas, Ingmar A1 - Schröpfer, Konrad A1 - Hink, Katharina A1 - Herlyn, Philipp A1 - Bäumler, Mario A1 - Histing, Tina A1 - Bruhn, Sven A1 - Müller-Hilke, Brigitte A1 - Menger, Michael D. A1 - Vollmar, Brigitte A1 - Mittlmeier, Thomas T1 - Effects on bone and muscle upon treadmill interval training in hypogonadal male rats JF - Biomedicines N2 - Testosterone deficiency in males is linked to various pathological conditions, including muscle and bone loss. This study evaluated the potential of different training modalities to counteract these losses in hypogonadal male rats. A total of 54 male Wistar rats underwent either castration (ORX, n = 18) or sham castration (n = 18), with 18 castrated rats engaging in uphill, level, or downhill interval treadmill training. Analyses were conducted at 4, 8, and 12 weeks postsurgery. Muscle force of the soleus muscle, muscle tissue samples, and bone characteristics were analyzed. No significant differences were observed in cortical bone characteristics. Castrated rats experienced decreased trabecular bone mineral density compared to sham-operated rats. However, 12 weeks of training increased trabecular bone mineral density, with no significant differences among groups. Muscle force measurements revealed decreased tetanic force in castrated rats at week 12, while uphill and downhill interval training restored force to sham group levels and led to muscle hypertrophy compared to ORX animals. Linear regression analyses showed a positive correlation between bone biomechanical characteristics and muscle force. The findings suggest that running exercise can prevent bone loss in osteoporosis, with similar bone restoration effects observed across different training modalities. KW - osteoporosis KW - muscle KW - force KW - bone KW - micro-CT KW - training Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-319266 SN - 2227-9059 VL - 11 IS - 5 ER - TY - JOUR A1 - Rak, Dominik A1 - Klann, Lukas A1 - Heinz, Tizian A1 - Anderson, Philip A1 - Stratos, Ioannis A1 - Nedopil, Alexander J. A1 - Rudert, Maximilian T1 - Influence of mechanical alignment on functional knee phenotypes and clinical outcomes in primary TKA: a 1-year prospective analysis JF - Journal of Personalized Medicine N2 - In total knee arthroplasty (TKA), functional knee phenotypes are of interest regarding surgical alignment strategies. Functional knee phenotypes were introduced in 2019 and consist of limb, femoral, and tibial phenotypes. The hypothesis of this study was that mechanically aligned (MA) TKA changes preoperative functional phenotypes, which decreases the 1-year Forgotten Joint (FJS) and Oxford Knee Score (OKS) and increases the 1-year WOMAC. All patients included in this study had end-stage osteoarthritis and were treated with a primary MA TKA, which was supervised by four academic knee arthroplasty specialists. To determine the limb, femoral, and tibial phenotype, a long-leg radiograph (LLR) was imaged preoperatively and two to three days after TKA. FJS, OKS, and WOMAC were obtained 1 year after TKA. Patients were categorized using the change in functional limb, femoral, and tibial phenotype measured on LLR, and the scores were compared between the different categories. A complete dataset of preoperative and postoperative scores and radiographic images could be obtained for 59 patients. 42% of these patients had a change of limb phenotype, 41% a change of femoral phenotype, and 24% a change of tibial phenotype of more than ±1 relative to the preoperative phenotype. Patients with more than ±1 change of limb phenotype had significantly lower median FJS (27 points) and OKS (31 points) and higher WOMAC scores (30 points) relative to the 59-, 41-, and 4-point scores of those with a 0 ± 1 change (p < 0.0001 to 0.0048). Patients with a more than ±1 change of femoral phenotype had significantly lower median FJS (28 points) and OKS (32 points) and higher WOMAC scores (24 points) relative to the 69-, 40-, and 8-point scores of those with a 0 ± 1 change (p < 0.0001). A change in tibial phenotype had no effect on the FJS, OKS, and WOMAC scores. Surgeons performing MA TKA could consider limiting coronal alignment corrections of the limb and femoral joint line to within one phenotype to reduce the risk of low patient-reported satisfaction and function at 1-year. KW - knee arthroplasty KW - mechanical alignment KW - clinical outcome KW - phenotype KW - level of evidence III KW - prospective study Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-313646 SN - 2075-4426 VL - 13 IS - 5 ER - TY - JOUR A1 - Weber, Patrick A1 - Beck, Melina A1 - Klug, Michael A1 - Klug, Andreas A1 - Klug, Alexander A1 - Glowalla, Claudio A1 - Gollwitzer, Hans T1 - Survival of patient-specific unicondylar knee replacement JF - Journal of Personalized Medicine N2 - Unicompartmental knee arthroplasty (UKA) in isolated medial or lateral osteoarthritis leads to good clinical results. However, revision rates are higher in comparison to total knee arthroplasty (TKA). One reason is suboptimal fitting of conventional off-the-shelf prostheses, and major overhang of the tibial component over the bone has been reported in up to 20% of cases. In this retrospective study, a total of 537 patient-specific UKAs (507 medial prostheses and 30 lateral prostheses) that had been implanted in 3 centers over a period of 10 years were analyzed for survival, with a minimal follow-up of 1 year (range 12 to 129 months). Furthermore, fitting of the UKAs was analyzed on postoperative X-rays, and tibial overhang was quantified. A total of 512 prostheses were available for follow-up (95.3%). Overall survival rate (medial and lateral) of the prostheses after 5 years was 96%. The 30 lateral UKAs showed a survival rate of 100% at 5 years. The tibial overhang of the prosthesis was smaller than 1 mm in 99% of cases. In comparison to the reported results in the literature, our data suggest that the patient-specific implant design used in this study is associated with an excellent midterm survival rate, particularly in the lateral knee compartment, and confirms excellent fitting. KW - unicompartmental knee arthroplasty KW - osteoarthritis KW - patient-specific implant KW - partial knee arthroplasty KW - patient-specific instruments Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-313650 SN - 2075-4426 VL - 13 IS - 4 ER - TY - JOUR A1 - Trivanovic, Drenka A1 - Volkmann, Noah A1 - Stoeckl, Magdalena A1 - Tertel, Tobias A1 - Rudert, Maximilian A1 - Giebel, Bernd A1 - Herrmann, Marietta T1 - Enhancement of immunosuppressive activity of mesenchymal stromal cells by platelet-derived factors is accompanied by apoptotic priming JF - Stem Cell Reviews and Reports N2 - The pro-inflammatory phase of bone healing, initiated by platelet activation and eventually hematoma formation, impacts bone marrow mesenchymal stromal cells (MSCs) in unknown ways. Here, we created platelet-rich plasma (PRP) hydrogels to study how platelet-derived factors modulate functional properties of encapsulated MSCs in comparison to a non-inflammatory fibrin (FBR) hydrogel environment. MSCs were isolated from human bone marrow, while PRP was collected from pooled apheresis thrombocyte concentrates and used for hydrogel preparation. After their encapsulation in hydrogels for 72 h, retrieved MSCs were analyzed for immunomodulatory activities, apoptosis, stem cell properties, senescence, CD9\(^+\), CD63\(^+\) and CD81\(^+\) extracellular vesicle (EV) release, and metabolism-related changes. PRP-hydrogels stimulated immunosuppressive functions of MSCs, along with their upregulated susceptibility to cell death in communication with PBMCs and augmented caspase 3/7 activity. We found impaired clonal growth and cell cycle progression, and more pronounced β-galactosidase activity as well as accumulation of LC3-II-positive vacuoles in PRP-MSCs. Stimuli derived from PRP-hydrogels upregulated AKT and reduced mTOR phosphorylation in MSCs, which suggests an initiation of survival-related processes. Our results showed that PRP-hydrogels might represent a metabolically stressful environment, inducing acidification of MSCs, reducing polarization of the mitochondrial membrane and increasing lipid accumulation. These features were not detected in FBR-MSCs, which showed reduced CD63\(^+\) and CD81\(^+\) EV production and maintained clonogenicity. Our data revealed that PRP-derived hematoma components cause metabolic adaptation of MSCs followed by increased immune regulatory functions. For the first time, we showed that PRP stimuli represent a survival challenge and “apoptotic priming” that are detrimental for stem cell-like growth of MSCs and important for their therapeutic consideration. KW - hematoma KW - platelet-rich plasma KW - fibrin KW - mesenchymal stromal cells KW - immunomodulation KW - apoptosis KW - autophagy KW - senescence KW - extracellular vesicles KW - metabolism Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-324669 VL - 19 IS - 3 ER - TY - JOUR A1 - Reppenhagen, Stephan A1 - Becker, Roland A1 - Kugler, Andreas A1 - John, Dominik A1 - Kopf, Sebastian A1 - Anetzberger, Hermann T1 - Hand dominance is not of significance in performing fundamental arthroscopic skills simulation training tasks JF - Arthroscopy, Sports Medicine, and Rehabilitation N2 - Purpose To compare the performance of the dominant and nondominant hand during fundamental arthroscopic simulator training. Methods Surgical trainees who participated in a 2-day simulator training course between 2021 and 2023 were classified, according to their arthroscopic experience in beginners and competents. Only right-handed individuals with complete data sets were included in the study. Ambidexterity was trained using a box trainer (Fundamentals of Arthroscopic Surgery Training, Virtamed AG, Schlieren, Switzerland).Two tasks, periscoping for learning camera guidance and triangulation for additional instrument handling, were performed 4 times with the camera in the dominant hand and then in the nondominant hand. For each task, exercise time, camera path length, and instrument path length were recorded and analyzed. Results Out of 94 participants 74 right-handed individuals (22 females, 52 males) were classified to novices (n = 43, less than 10 independently performed arthroscopies) and competents (n = 31, more than 10 independently performed arthroscopies). Competents performed significantly better than novices. No significant difference was found after changing the guiding hand for the camera from the dominant to the nondominant hand regarding the camera path length and the instrument path length. Notably, tasks were performed even faster when using the camera in the nondominant hand. Conclusions Our data demonstrate that the learned manual skills during basic arthroscopic training are quickly transferred to the contralateral side. In consequence, additional fundamental skills training for camera guidance and instrument handling of the nondominant hand are not necessary. Clinical Relevance For skillful arthroscopy, camera guidance and instrument handing must be equally mastered with both hands. It is important to understand how hand dominance may affect learning during arthroscopic simulator training. KW - hand dominance KW - physical therapy KW - arthroscopic simulator training KW - rehabilitation KW - sports therapy KW - sports medicine KW - orthopedics Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-350432 SN - 2666-061X VL - 5 IS - 5 ER - TY - JOUR A1 - Kroner-Weigl, Niklas A1 - Chu, Jin A1 - Rudert, Maximilian A1 - Alt, Volker A1 - Shukunami, Chisa A1 - Docheva, Denitsa T1 - Dexamethasone is not sufficient to facilitate tenogenic differentiation of dermal fibroblasts in a 3D organoid model JF - Biomedicines N2 - Self-assembling three-dimensional organoids that do not rely on an exogenous scaffold but maintain their native cell-to-cell and cell-to-matrix interactions represent a promising model in the field of tendon tissue engineering. We have identified dermal fibroblasts (DFs) as a potential cell type for generating functional tendon-like tissue. The glucocorticoid dexamethasone (DEX) has been shown to regulate cell proliferation and facilitate differentiation towards other mesenchymal lineages. Therefore, we hypothesized that the administration of DEX could reduce excessive DF proliferation and thus, facilitate the tenogenic differentiation of DFs using a previously established 3D organoid model combined with dose-dependent application of DEX. Interestingly, the results demonstrated that DEX, in all tested concentrations, was not sufficient to notably induce the tenogenic differentiation of human DFs and DEX-treated organoids did not have clear advantages over untreated control organoids. Moreover, high concentrations of DEX exerted a negative impact on the organoid phenotype. Nevertheless, the expression profile of tendon-related genes of untreated and 10 nM DEX-treated DF organoids was largely comparable to organoids formed by tendon-derived cells, which is encouraging for further investigations on utilizing DFs for tendon tissue engineering. KW - 3D organoids KW - dermal fibroblasts KW - dexamethasone KW - scaffold-free KW - tenogenic differentiation KW - tendon tissue engineering Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-311234 SN - 2227-9059 VL - 11 IS - 3 ER - TY - JOUR A1 - Maichl, Daniela Simone A1 - Kirner, Julius Arthur A1 - Beck, Susanne A1 - Cheng, Wen-Hui A1 - Krug, Melanie A1 - Kuric, Martin A1 - Ade, Carsten Patrick A1 - Bischler, Thorsten A1 - Jakob, Franz A1 - Hose, Dirk A1 - Seckinger, Anja A1 - Ebert, Regina A1 - Jundt, Franziska T1 - Identification of NOTCH-driven matrisome-associated genes as prognostic indicators of multiple myeloma patient survival JF - Blood Cancer Journal N2 - No abstract available. KW - cancer microenvironment KW - myeloma Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-357598 VL - 13 ER -