11 results on '"Susanne Kretschmar"'
Search Results
2. Impact of weathered multi-walled carbon nanotubes on the epithelial cells of the intestinal tract in the freshwater grazers Lymnaea stagnalis and Rhithrogena semicolorata
- Author
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Katrin Weise, Thomas Kurth, Anna Schmidt, Carola Winkelmann, Jochen Becker, Susanne Kretschmar, Thomas Ulrich Berendonk, and Dirk Jungmann
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Health, Toxicology and Mutagenesis ,Environmental Chemistry ,General Medicine ,Pollution - Abstract
Freshwater grazers are suitable organisms to investigate the fate of environmental pollutants, such as weathered multi-walled carbon nanotubes (wMWCNTs). One key process is the uptake of ingested materials into digestive or absorptive cells. To address this, we investigated the localization of wMWCNTs in the intestinal tracts of the mud snail Lymnaea stagnalis (L. stagnalis) and the mayfly Rhithrogena semicolorata (R. semicolorata). In L. stagnalis, bundles of wMWCNTs could be detected in the midgut lumen, whereas only single wMWCNTs could be detected in the lumina of the digestive gland. Intracellular uptake of wMWCNTs was detected by transmission electron microscopy (TEM) but was restricted to the cells of the digestive gland. In larvae of R. semicolorata, irritations of the microvilli and damages in the apical parts of the epithelial gut cells were detected after feeding with 1 to 10 mg/L wMWCNTs. In both models, we detected fibrillar structures in close association with the epithelial cells that formed peritrophic membranes (PMs). The PM may cause a reduced transmission of wMWCNT bundles into the epithelium by forming a filter barrier and potentially protecting the cells from the wMWCNTs. As a result, the uptake of wMWCNTs into cells is rare in mud snails and may not occur at all in mayfly larvae. In addition, we monitor physiological markers such as levels of glycogen or triglycerides and the RNA/DNA ratio. This ratio was significantly affected in L. stagnalis after 24 days with 10 mg/L wMWCNTs, but not in R. semicolorata after 28 days and 10 mg/L wMWCNTs. However, significant effects on the energy status of R. semicolorata were analysed after 28 days of exposure to 1 mg/L wMWCNTs. Furthermore, we observed a significant reduction of phagosomes per enterocyte cell in mayfly larvae at a concentration of 10 mg/L wMWCNTs (p
- Published
- 2022
3. A workflow to investigate the impacts of weathered multi-walled carbon nanotubes to the mud snail Lymnaea stagnalis
- Author
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Susanne Kretschmar, Thomas Kurth, Thomas U. Berendonk, Katrin Weise, Dirk Jungmann, Carola Winkelmann, Andreas Schäffer, and Irina Politowski
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Health, Toxicology and Mutagenesis ,Snails ,Bioconcentration ,Lymnaea stagnalis ,Workflow ,chemistry.chemical_compound ,ddc:690 ,Dry weight ,Environmental Chemistry ,Ecotoxicology ,Animals ,Triglycerides ,Lymnaea ,biology ,Glycogen ,Chemistry ,Nanotubes, Carbon ,Biofilm ,General Medicine ,biology.organism_classification ,Pollution ,Food web ,Benthic zone ,Environmental chemistry ,RNA ,Water Pollutants, Chemical - Abstract
Environmental science and pollution research : ESPR (2021). doi:10.1007/s11356-021-17691-0, Published by Springer, Berlin ; Heidelberg
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- 2021
- Full Text
- View/download PDF
4. 3D FIB-SEM reconstruction of microtubule-organelle interaction in whole primary mouse beta cells
- Author
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Michele Solimena, C. Shan Xu, Harald F. Hess, Song Pang, Joyson Verner D'Costa, Carla Münster, Andreas Müller, Susanne Kretschmar, Martin Weigert, Thomas Kurth, Florian Jug, and Deborah Schmidt
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0303 health sciences ,Centriole ,Vesicle ,Cell Biology ,Biology ,Golgi apparatus ,Cell biology ,Cell membrane ,03 medical and health sciences ,symbols.namesake ,0302 clinical medicine ,medicine.anatomical_structure ,Microtubule ,Organelle ,symbols ,medicine ,Secretion ,030217 neurology & neurosurgery ,Intracellular ,030304 developmental biology - Abstract
Microtubules play a major role in intracellular trafficking of vesicles in endocrine cells. Detailed knowledge of microtubule organization and their relation to other cell constituents is crucial for understanding cell function. However, their role in insulin transport and secretion is under debate. Here, we use FIB-SEM to image islet β cells in their entirety with unprecedented resolution. We reconstruct mitochondria, Golgi apparati, centrioles, insulin secretory granules, and microtubules of seven β cells, and generate a comprehensive spatial map of microtubule–organelle interactions. We find that microtubules form nonradial networks that are predominantly not connected to either centrioles or endomembranes. Microtubule number and length, but not microtubule polymer density, vary with glucose stimulation. Furthermore, insulin secretory granules are enriched near the plasma membrane, where they associate with microtubules. In summary, we provide the first 3D reconstructions of complete microtubule networks in primary mammalian cells together with evidence regarding their importance for insulin secretory granule positioning and thus their supportive role in insulin secretion.
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- 2021
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- View/download PDF
5. 3D FIB-SEM reconstruction of microtubule-organelle interaction in whole primary mouse beta cells
- Author
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Joyson Verner D'Costa, Deborah Schmidt, Florian Jug, C. Shan Xu, Andreas Mueller, Harald F. Hess, Carla Muenster, Susanne Kretschmar, Thomas Kurth, Martin Weigert, Michele Solimena, and Song Pang
- Subjects
Centriole ,Chemistry ,Vesicle ,Granule (cell biology) ,granule dynamics ,organization ,Golgi apparatus ,in-vivo ,kinesin ,Cell biology ,symbols.namesake ,Microtubule ,Organelle ,symbols ,Secretion ,protein ,exocytosis ,electron-microscopy ,high-throughput ,visualization ,Intracellular ,insulin-secretion - Abstract
Microtubules play a major role in intracellular trafficking of vesicles in endocrine cells. Detailed knowledge of microtubule organization and their relation to other cell constituents is crucial for understanding cell function. However, their role in insulin transport and secretion is currently under debate. Here, we use Fib-Semto image islet beta cells in their entirety with unprecedented resolution. We reconstruct mitochondria, Golgi apparati, centrioles, insulin secretory granules and micro-tubules of seven beta cells, and generate a comprehensive spatial map of microtubule-organelle interactions. We find that micro-tubules form non-radial networks that are predominantly not connected to either centrioles or endomembranes. Microtubule number and length, but not microtubule polymer density, vary with glucose stimulation. Furthermore, insulin secretory granules are enriched near the plasma membrane where they associate with microtubules. In summary, we provide the first 3D reconstructions of complete microtubule networks in primary mammalian cells together with evidence regarding their importance for insulin secretory granule positioning and thus supportive role in insulin secretion.
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- 2020
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6. Royal jelly in focus
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Susanne Kretschmar, Thomas Kurth, and Anja Buttstedt
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0106 biological sciences ,food.ingredient ,fungi ,education ,Zoology ,Honey bee ,Biology ,010603 evolutionary biology ,01 natural sciences ,010602 entomology ,food ,Insect Science ,Royal jelly ,Glandular secretion ,Ecology, Evolution, Behavior and Systematics - Abstract
Honey bee (Apis spp.) royal jelly, a glandular secretion used to raise young larvae to future queens, has long been considered merely as food. Since queen larvae are raised upside down in their vertically oriented queen cells, royal jelly also needs to adhere the larvae to the cell ceiling to prevent the prospective queen from dropping out. This is exactly where the native acidic pH of royal jelly comes into play: only at a pH of 4.0 is royal jelly viscous enough to hold the larvae in their cells. We here show with the help of electron microscopy that royal jelly possesses a complex tissue-like organization at pH 4.0 which is similar to the dense extracellular matrix of animals providing structural support. The main structural elements at pH 4.0 are proteinaceous fibril bundles, embedded in a fibrillary net, that seem to be bunched in electron-dense structures, potential sites of fibril overlap and cross-linking. At an exogenously induced increased royal jelly pH of 7.0, these fibrillary structures are largely destroyed. This is when royal jelly viscosity decreases and holding the queen larvae in place is no longer guaranteed.
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- 2018
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7. Evidence-Based Use of Antibiotics in Veal Calves with Diarrhea
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Michael Hässig, Susanne Kretschmar, and University of Zurich
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medicine.medical_specialty ,630 Agriculture ,040301 veterinary sciences ,medicine.drug_class ,Antibiotics ,0402 animal and dairy science ,Prevalence ,04 agricultural and veterinary sciences ,Disease ,Biology ,medicine.disease_cause ,biology.organism_classification ,040201 dairy & animal science ,10187 Department of Farm Animals ,0403 veterinary science ,Diarrhea ,Cryptosporidium parvum ,Rotavirus ,Immunology ,medicine ,Etiology ,570 Life sciences ,biology ,medicine.symptom ,Intensive care medicine ,Dairy cattle - Abstract
Diarrhea is the leading cause of mortality in beef and dairy calves during the first week of life and results in substantial financial loss [1]. Diarrhea is a multifactorial disease and can be infectious or non-infectious. However, in the majority of calves, infectious organisms, especially Cryptosporidium parvum, rotavirus, coronavirus, and E. coli, are the primary cause [2]. The aim of this study was to generate a decision tree, based on prevalence, diagnostic testing and treatment and to estimate associated costs or risk. For each of the four main pathogens, two principal approaches are outlined and compared. The first approach relies on a detailed diagnostic workup and allows for specific etiological treatment. The second approach relies on the trial-and-error method, which involves the use of a first-choice antibiotic, followed by a second- and third-choice antibiotic if the previous ones failed to resolve the disease. In Switzerland, the prevalence of diarrheic calves infected with E. coli is approximately 1% suggesting that the use of antimicrobials for the treatment of scouring calves, in the absence of a diagnostic workup, is not always justified. However, for all four major pathogens, the trial-and-error method affords cheaper treatment compared with treatment based on an etiological diagnosis. This creates a quandary in view of the current worldwide efforts to reduce the use of antibiotics in animal agriculture.
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- 2016
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8. Labeling of ultrathin resin sections for correlative light and electron microscopy
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Gunar, Fabig, Susanne, Kretschmar, Susanne, Weiche, Dominic, Eberle, Marius, Ader, and Thomas, Kurth
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Male ,Rhodopsin ,Plastic Embedding ,Tissue Fixation ,Staining and Labeling ,Recombinant Fusion Proteins ,Green Fluorescent Proteins ,Microtomy ,Spermatids ,Retina ,Mice ,Microscopy, Electron, Transmission ,Microscopy, Fluorescence ,Testis ,Animals ,Fluorescent Antibody Technique, Indirect - Abstract
Correlative microscopy combines the versatility of the light microscope with the excellent spatial resolution of the electron microscope. Here, we describe fast and simple methods for correlative immunofluorescence and immunogold labeling on the very same ultrathin section. The protocols are demonstrated on sections of tissue samples embedded in the methacrylate Lowicryl K4M. Ultrathin sections are mounted on electron microscopy (EM) grids and stained simultaneously with fluorescent and gold markers. For the detection of primary antibodies, we applied either protein A gold or immunoglobulin G (IgG) gold in combination with secondary antibodies coupled to Alexa488 or Alexa555. Alternatively, the correlative marker FluoroNanogold was used, followed by silver enhancement. The samples have to be analyzed first at the light microscope and then in the transmission electron microscope (TEM), because the fluorescence is bleached by the electron beam. Labeled structures selected at the fluorescence microscope can be identified in the TEM and analyzed at high resolution. This way, fluorescent signals can be directly correlated to the corresponding subcellular structures in the area of interest.
- Published
- 2012
9. Labeling of Ultrathin Resin Sections for Correlative Light and Electron Microscopy
- Author
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Susanne Kretschmar, Gunar Fabig, Thomas Kurth, Dominic Eberle, Susanne Weiche, and Marius Ader
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medicine.diagnostic_test ,Analytical chemistry ,Immunogold labelling ,Biology ,Immunofluorescence ,law.invention ,Optical microscope ,law ,Transmission electron microscopy ,Microscopy ,Fluorescence microscope ,medicine ,Microtome ,Electron microscope - Abstract
Correlative microscopy combines the versatility of the light microscope with the excellent spatial resolution of the electron microscope. Here, we describe fast and simple methods for correlative immunofluorescence and immunogold labeling on the very same ultrathin section. The protocols are demonstrated on sections of tissue samples embedded in the methacrylate Lowicryl K4M. Ultrathin sections are mounted on electron microscopy (EM) grids and stained simultaneously with fluorescent and gold markers. For the detection of primary antibodies, we applied either protein A gold or immunoglobulin G (IgG) gold in combination with secondary antibodies coupled to Alexa488 or Alexa555. Alternatively, the correlative marker FluoroNanogold was used, followed by silver enhancement. The samples have to be analyzed first at the light microscope and then in the transmission electron microscope (TEM), because the fluorescence is bleached by the electron beam. Labeled structures selected at the fluorescence microscope can be identified in the TEM and analyzed at high resolution. This way, fluorescent signals can be directly correlated to the corresponding subcellular structures in the area of interest.
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- 2012
- Full Text
- View/download PDF
10. Electron microscopy of the amphibian model systems Xenopus laevis and Ambystoma mexicanum
- Author
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Thomas, Kurth, Jürgen, Berger, Michaela, Wilsch-Bräuninger, Susanne, Kretschmar, Robert, Cerny, Heinz, Schwarz, Jan, Löfberg, Thomas, Piendl, and Hans H, Epperlein
- Subjects
Ambystoma mexicanum ,Microscopy, Electron ,Xenopus laevis ,Embryo, Nonmammalian ,Tissue Fixation ,Staining and Labeling ,Freeze Substitution ,Animals ,Immunohistochemistry - Abstract
In this chapter we provide a set of different protocols for the ultrastructural analysis of amphibian (Xenopus, axolotl) tissues, mostly of embryonic origin. For Xenopus these methods include: (1) embedding gastrulae and tailbud embryos into Spurr's resin for TEM, (2) post-embedding labeling of methacrylate (K4M) and cryosections through adult and embryonic epithelia for correlative LM and TEM, and (3) pre-embedding labeling of embryonic tissues with silver-enhanced nanogold. For the axolotl (Ambystoma mexicanum) we present the following methods: (1) SEM of migrating neural crest (NC) cells; (2) SEM and TEM of extracellular matrix (ECM) material; (3) Cryo-SEM of extracellular matrix (ECM) material after cryoimmobilization; and (4) TEM analysis of hyaluronan using high-pressure freezing and HABP labeling. These methods provide exemplary approaches for a variety of questions in the field of amphibian development and regeneration, and focus on cell biological issues that can only be answered with fine structural imaging methods, such as electron microscopy.
- Published
- 2010
11. Electron Microscopy of the Amphibian Model Systems Xenopus laevis and Ambystoma mexicanum
- Author
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Michaela Wilsch-Bräuninger, Jürgen Berger, Thomas Piendl, Jan Löfberg, Heinz Schwarz, Robert Cerny, Susanne Kretschmar, Thomas Kurth, and Hans-Henning Epperlein
- Subjects
Extracellular matrix ,biology ,Axolotl ,Regeneration (biology) ,Ultrastructure ,Xenopus ,Neural crest ,Anatomy ,biology.organism_classification ,Ambystoma mexicanum ,Embryonic stem cell ,Cell biology - Abstract
In this chapter we provide a set of different protocols for the ultrastructural analysis of amphibian (Xenopus, axolotl) tissues, mostly of embryonic origin. For Xenopus these methods include: (1) embedding gastrulae and tailbud embryos into Spurr's resin for TEM, (2) post-embedding labeling of methacrylate (K4M) and cryosections through adult and embryonic epithelia for correlative LM and TEM, and (3) pre-embedding labeling of embryonic tissues with silver-enhanced nanogold. For the axolotl (Ambystoma mexicanum) we present the following methods: (1) SEM of migrating neural crest (NC) cells; (2) SEM and TEM of extracellular matrix (ECM) material; (3) Cryo-SEM of extracellular matrix (ECM) material after cryoimmobilization; and (4) TEM analysis of hyaluronan using high-pressure freezing and HABP labeling. These methods provide exemplary approaches for a variety of questions in the field of amphibian development and regeneration, and focus on cell biological issues that can only be answered with fine structural imaging methods, such as electron microscopy.
- Published
- 2010
- Full Text
- View/download PDF
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