27 research outputs found

    Análisis del cnidoma combinado con una evaluación in vitro del potencial lítico, cyto- y neurotóxicos de Cyanea Capillata (Cnidaria: Scyphozoa)

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    The cnidocysts and the lytic, cyto- and neurotoxic potency of a large specimen of Cyanea capillata (L.) with 55 cm umbrella diameter were compared with those of a pooled C. capillata sample (average ø 14 cm) in order to investigate organismal developments at a cellular and biochemical level. Nematocysts of the type A-isorhiza in both fishing tentacles and oral arms and the O-isorhizas of oral arms were enlarged in the 55 cm specimen. Additionally, the number of nematocysts per battery in the fishing tentacles was increased. Increased gill cell toxicity and neurotoxic activity were demonstrated for the fishing tentacle venom of the 55 cm C. capillata in comparison with the smaller medusae. A two-fold higher haemolytic activity was detected for the venom of oral arms obtained from the large C. capillata compared with the oral arm venom prepared from the smaller medusae.Con el fin de estudiar la evolución ontogenética a un nivel celular y bioquímico de los cnidocistos de la potencia lítica, y las características cito- y neurotóxicas de Cyanea capillata (L.), se ha comparado un ejemplar de 55 cm de diámetro de umbrela de la especie con una muestra de varios ejemplares de C. capillata (promedio 14 cm de diámetro). Tanto los nematocistos del tipo A isorhiza de los tentáculos marginales como en los mesentéricos y los nematocistos del tipo O isorhizas de tentáculos orales fueron mayores en el ejemplar de C. capillata de 55 cm. Además, el número de nematocistos por zona de agregación fue mayor en el ejemplar de 55 cm. En cuanto a la actividad tóxica de los cnidocistos, ésta fue superior tanto a nivel de célula como de la actividad de la toxina (veneno) en los tentáculos marginales del ejemplar de 55 cm frente a los ejemplares más pequeños de la especie. También se observó una actividad hemolítica de la toxina (veneno) dos veces superior en los cnidocistos de los tentáculos marginales del ejemplar grande, 55 cm de C. capillata frente a los ejemplares pequeños

    Proteomic Analysis of Mesenchymal Stem Cells and Monocyte Co-Cultures Exposed to a Bioactive Silica-Based Sol–Gel Coating

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    New methodologies capable of extensively analyzing the cell-material interactions are necessary to improve current in vitro characterization methods, and proteomics is a viable alternative. Also, many studies are focused on monocultures, even though co-cultures model better the natural tissue. For instance, human mesenchymal stem cells (MSCs) modulate immune responses and promote bone repair through interaction with other cell types. Here, label-free liquid chromatography tandem mass spectroscopy proteomic methods were applied for the first time to characterize HUCPV (MSC) and CD14+ monocytes co-cultures exposed to a bioactive sol–gel coating (MT). PANTHER, DAVID, and STRING were employed for data integration. Fluorescence microscopy, enzyme-linked immunosorbent assay, and ALP activity were measured for further characterization. Regarding the HUCPV response, MT mainly affected cell adhesion by decreasing integrins, RHOC, and CAD13 expression. In contrast, MT augmented CD14+ cell areas and integrins, Rho family GTPases, actins, myosins, and 14-3-3 expression. Also, anti-inflammatory (APOE, LEG9, LEG3, and LEG1) and antioxidant (peroxiredoxins, GSTO1, GPX1, GSHR, CATA, and SODM) proteins were overexpressed. On co-cultures, collagens (CO5A1, CO3A1, CO6A1, CO6A2, CO1A2, CO1A1, and CO6A3), cell adhesion, and pro-inflammatory proteins were downregulated. Thus, cell adhesion appears to be mainly regulated by the material, while inflammation is impacted by both cellular cross-talk and the material. Altogether, we conclude that applied proteomic approaches show its potential in biomaterial characterization, even in complex systems.This work was supported by MINECO [MAT2017-86043-R; RTC-2017-6147-1], Generalitat Valenciana [GRISOLIAP/2018/091, BEFPI/2021/043, PROMETEO/2020/069], Universitat Jaume I [UJI-B2017-37], and the University of the Basque Country [GIU18/189]. Andreia Cerqueira was supported by the Margarita Salas postdoctoral contract MGS/2022/10 (UP2022-024) financed by the European Union-NextGenerationEU. The University Medical Centre Hamburg-Eppendorf (Hamburg, Germany) and the Clinics for Gynecology AGAPLESION BETHESDA Hospital provided the blood and tissue for cell isolation. The authors would like to thank Raquel Oliver, Jose Ortega, Iraide Escobés, and Anke Borkam-Schuster for their valuable technical assistance and Antonio Coso (GMI-Ilerimplant) for producing the titanium discs

    Proteomic Analysis of Mesenchymal Stem Cells and Monocyte Co-Cultures Exposed to a Bioactive Silica-Based Sol–Gel Coating

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    New methodologies capable of extensively analyzing the cell-material interactions are necessary to improve current in vitro characterization methods, and proteomics is a viable alternative. Also, many studies are focused on monocultures, even though co-cultures model better the natural tissue. For instance, human mesenchymal stem cells (MSCs) modulate immune responses and promote bone repair through interaction with other cell types. Here, label-free liquid chromatography tandem mass spectroscopy proteomic methods were applied for the first time to characterize HUCPV (MSC) and CD14+ monocytes co-cultures exposed to a bioactive sol–gel coating (MT). PANTHER, DAVID, and STRING were employed for data integration. Fluorescence microscopy, enzyme-linked immunosorbent assay, and ALP activity were measured for further characterization. Regarding the HUCPV response, MT mainly affected cell adhesion by decreasing integrins, RHOC, and CAD13 expression. In contrast, MT augmented CD14+ cell areas and integrins, Rho family GTPases, actins, myosins, and 14-3-3 expression. Also, anti-inflammatory (APOE, LEG9, LEG3, and LEG1) and antioxidant (peroxiredoxins, GSTO1, GPX1, GSHR, CATA, and SODM) proteins were overexpressed. On co-cultures, collagens (CO5A1, CO3A1, CO6A1, CO6A2, CO1A2, CO1A1, and CO6A3), cell adhesion, and pro-inflammatory proteins were downregulated. Thus, cell adhesion appears to be mainly regulated by the material, while inflammation is impacted by both cellular cross-talk and the material. Altogether, we conclude that applied proteomic approaches show its potential in biomaterial characterization, even in complex systems

    In Vitro Investigation on Degradable Mg-Based Biomaterial under the Impact of the Serum Glycoprotein Fetuin

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    Biomedical applications of magnesium (Mg) and its alloys are generally dependent on their degradation behavior in vivo. Despite its attractive properties, which make Mg suitable for orthopedic applications, the in vivo material-tissue (bone, blood, and lymph tissues) interaction is not yet fully understood. To investigate the influence of major serum proteins on the degradation, this study focused on fetuin, which is one of the major non-collagenous plasma proteins and which is essential for biomineralization. This study used a physiological setup to investigate the influence of fetuin on the degradation behavior of pure Mg in the presence of calcium (Ca). Extruded pure Mg samples were immersed under cell culture conditions in Hank’s balanced salt solution (HBSS) under defined Ca regimes. The results showed a significant decrease in the degradation rate (DR) when both fetuin and Ca were present in an immersion medium as compared to media where they were not simultaneously present. A possible reason for this behavior was the forming of a dense, protein-degradation products protection barrier at the material surface. Furthermore, the limitation of freely available Ca might be a reason for a decreased degradation. The cultivation of primary osteoblasts (pOB) was possible at the fetuin-coated Mg-surface without additional serum supplementation

    Surgical Classification for Preclinical Rat Femoral Bone Defect Model: Standardization Based on Systematic Review, Anatomical Analysis and Virtual Surgery

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    Though surgical techniques profoundly influence in vivo experiments, significant heterogeneity exists in current surgeries for inducing rat femoral bone defects. Such variations reduce the reproducibility and comparability of preclinical studies, and are detrimental to clinical translation. The purposes of this study were: (1) to conduct a systematic review of rat femoral defect models, summarizing and analyzing the surgical techniques; (2) to analyze surgical design and potential pitfalls via 3D anatomy and virtual surgeries for fostering future precision research; and (3) to establish a surgical classification system, for improving the reproducibility and comparability among studies, avoiding unnecessary repetitive experiments. The online database PubMed was searched to identify studies from January 2000 to June 2022 using keywords, including rat, femur, bone defect. Eligible publications were included for a review of surgical methods. Anatomical analysis and virtual surgeries were conducted based on micro-CT reconstruction of the rat femur for further investigation and establishment of a classification system. A total of 545 publications were included, revealing marked heterogeneity in surgical methods. Four major surgical designs were reported for inducing defects from the proximal to distal femur: bone tunnel, cortical window, segmental defect, and wedge-shaped defect. Anatomical analysis revealed potential pitfalls hindering efficient clinical translation. A classification system was established according to the anatomical region, surgical design, and fixation devices. This systematic review in combination with 3D analysis and virtual surgery provides a general overview of current surgical approaches to inducing femoral defects in rats, and establishes a surgical classification facilitating preclinical research of quality and translational value

    Catch me if you can - Sampling approaches for time integrated monitoring of priority substances and their related effects in marine water bodies using passive and active samplers.

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    International legislation demand the monitoring of both priority and new substances of concern released into the aquatic environment. Monitoring of these compounds in the open ocean by classical grab sampling is costly and difficult to realise, which often results in low resolution data sets. Additionally, pollutant concentrations in seawater are often too low to be detected in grab samples without time-consuming and labour-intensive enrichment techniques. As an alternative mussels, which continuously concentrate waterborne pollutants in their tissues, can be used as natural active samplers. Furthermore, mussels provide information on bio-molecular effects. However, mussels can vary in size, growth and resistance against environmental influences like salinity and temperature, which may lead to variability of the pollutant enrichment processes. In contrast, artificial passive sampling devices made of e.g. silicone or low-density polyethylene mimic the active sampling through diffusion processes without the difficulties of natural variability. Both sampling strategies are cost effective and provide data of time-weighted average concentrations over the deployment period. In a joint research project of the Federal Maritime and Hydrographic Agency of Germany (BSH), the Helmholtz-Zentrum Geesthacht Zentrum für Material und Küstenforschung, Institute of Coastal Research (HZG) and the Center for Scientific Diving of the Alfred Wegener Institute for Polar and Marine Research (AWI) a variety of passive sampler devices as well as blue mussels (Mytilus edulis) are time-synchronously deployed at the COSYNA/MarGate underwater experimental field near Helgoland

    Multicolor Histochemical Staining for Identification of Mineralized and Non-Mineralized Musculoskeletal Tissue: Immunohistochemical and Radiological Validation in Decalcified Bone Samples

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    Histochemical staining of paraffin-embedded decalcified bone samples is commonly used in preclinical research of musculoskeletal diseases, enabling the visualization of multiple tissue components by the application of chromogens. The purpose of this study was to introduce a novel multicolor staining protocol involving optimized chemical reagents and procedure, allowing the identification of high-mineralized bone, low-mineralized fracture callus, cartilage and skeletal muscle fibers simultaneously. Fractured femur and healthy tail vertebra samples from adult male Sprague–Dawley rats were decalcified with EDTA and formic acid, respectively, followed by paraffin embedding, tissue sectioning and multicolor staining. Conventional Movat’s pentachrome and safranin O / fast green staining were conducted in parallel for comparison. Immunohistochemical staining of collagen type-X and micro-CT analysis were included to further validate the efficacy of the staining method. The multicolor staining allowed visualization of major musculoskeletal tissue components in both types of decalcified samples, providing quality outcomes with fewer chemical reagents and simplified procedures. Immunohistochemical staining demonstrated its capacity for identification of the endochondral ossification process during fracture healing. Micro-CT imaging validated the staining outcome for high-mineralized skeletal tissue. The application of the multicolor staining may facilitate future preclinical research involving decalcified paraffin-embedded samples

    Process development in affinity separation of glycoconjugates with lectins as ligands

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    Process development for affinity separation is a crucial prerequisite for a successful biospecific isolation of biological active substances like glycoconjugates or enzymes. The functionalization of polymer and silica based adsorbents and their influence on the adsorption behaviour of the modified adsorbents are presented. Improvement of the immobilization conditions for different lectins lead to a stable binding of more than 90% within 4 h of ligands applied to the immobilization solution. The prepared adsorbents are characterized according to specificity, stability and capacity. The isolation of the glycoprotein fetuin from fetal calf serum with wheat germ agglutinin adsorbents and the purification of horseradish peroxidase with concanavalin A (Con A) adsorbent are described. The Langmuir model, using glucose oxidase as glycoprotein and Con A adsorbents, expresses the sorption behaviour. The fixed bed separation is represented by the dispersion model. The process simulation supports the process development evaluating design parameters and investigating and optimizing process conditions. The influence of the flow as well as the concentration of contaminants competing with the valuable product for the ligands on the separation performance are demonstrated and discussed

    Impact of degradable magnesium implants on osteocytes in single and triple cultures

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    In vitro triple cultures of human primary osteoblasts, osteocytes and osteoclasts can potentially help to analyze the effect of drugs and degradation products of biomaterials as a model for native bone tissue. In the present study, degradation products of Magnesium (Mg), which has been successfully applied in the biomedical field, were studied with respect to their impact on bone cell morphology and differentiation both in osteocyte single cultures and in the triple culture model. Fluorescence microscopic and gene expression analysis, analysis of osteoclast- and osteoblast-specific enzyme activities as well as osteocalcin protein expression were performed separately for the three cell types after cultivation in triple culture in the presence of extracts, containing 5 and 10 mM Mg2+. All three cell species were viable in the presence of the extracts and did not show morphological changes compared to the Mg-free control. Osteoblasts and osteoclasts did not show significant changes in gene expression of ALPL, BSPII, osteocalcin, TRAP, CTSK and CA2. Likewise on protein level, no significant changes in ALP-, TRAP-, CTSK- and CAII activities were detected. Osteocytes showed a significant downregulation of MEPE, which codes for a protein playing an important role in regulation of phosphate homeostasis by osteocytes. This study is the first to analyze the effects of Mg degradation products on primary osteocytes in vitro, both in single and triple culture. Even if promoting effects on the three examined bone cell species were not found in the applied triple culture setup, it was shown, that Mg degradation products do not interfere with the activity of osteoblasts, osteoclasts and osteocytes in vitro
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