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2. Neuropilin1 regulates glomerular function and basement membrane composition through pericytes in the mouse kidney

Author

Manuel Anderegg, Regula Buergy, Valentin Djonov, Monika Wnuk, Daniel Guido Fuster, and Werner Graber

Subjects
Collagen Type IV, Male, 0301 basic medicine, Afferent arterioles, Genotype, Kidney Glomerulus, 030232 urology & nephrology, Biology, urologic and male genital diseases, Autoantigens, Podocyte, 03 medical and health sciences, 0302 clinical medicine, Glomerular Basement Membrane, medicine, Albuminuria, Animals, RNA, Messenger, Hematuria, Mice, Knockout, Basement membrane, Kidney, Membrane Glycoproteins, Glomerular basement membrane, Antibodies, Neutralizing, Neuropilin-1, Capillaries, 3. Good health, Cell biology, Mice, Inbred C57BL, Vasodilation, Arterioles, Phenotype, 030104 developmental biology, medicine.anatomical_structure, Gene Expression Regulation, Nephrology, Immunology, Pericyte, medicine.symptom, Pericytes, Glomerular hyperfiltration, Glomerular Filtration Rate, Signal Transduction
Abstract

Neuropilin1 (Nrp1) is a co-receptor best known to regulate the development of endothelial cells and is a target of anticancer therapies. However, its role in other vascular cells including pericytes is emergent. The kidney is an organ with high pericyte density and cancer patients develop severe proteinuria following administration of NRP1B-neutralizing antibody combined with bevacizumab. Therefore, we investigated whether Nrp1 regulates glomerular capillary integrity after completion of renal development using two mouse models; tamoxifen-inducible NG2Cre to delete Nrp1 specifically in pericytes and administration of Nrp1-neutralizing antibodies. Specific Nrp1 deletion in pericytes did not affect pericyte number but mutant mice developed hematuria with glomerular basement membrane defects. Despite foot process effacement, albuminuria was absent and expression of podocyte proteins remained unchanged upon Nrp1 deletion. Additionally, these mice displayed dilation of the afferent arteriole and glomerular capillaries leading to glomerular hyperfiltration. Nidogen-1 mRNA was downregulated and collagen4α3 mRNA was upregulated with no significant effect on the expression of other basement membrane genes in the mutant mice. These features were phenocopied by treating wild-type mice with Nrp1-neutralizing antibodies. Thus, our results reveal a postdevelopmental role of Nrp1 in renal pericytes as an important regulator of glomerular basement membrane integrity. Furthermore, our study offers novel mechanistic insights into renal side effects of Nrp1 targeting cancer therapies.

Published
2017
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3. Fine structure of hippocampal mossy fiber synapses following rapid high-pressure freezing

Author

Michael Frotscher, Daniel Studer, Sigrun Nestel, Werner Graber, and Shanting Zhao

Subjects
Hippocampus, Long-term potentiation, Hippocampal formation, Biology, Granule cell, Synapse, Synaptic fatigue, medicine.anatomical_structure, Neurology, Synaptic plasticity, medicine, Neurology (clinical), Neuroscience, Hippocampal mossy fiber
Abstract

Synapses of hippocampal neurons play important roles in learning and memory processes and are involved in aberrant hippocampal function in temporal lobe epilepsy. Major neuronal types in the hippocampus as well as their input and output synapses are well known, but it has remained an open question to what extent conventional electron microscopy (EM) has provided us with the real appearance of synaptic fine structure under in vivo conditions. There is reason to assume that conventional aldehyde fixation and dehydration lead to protein denaturation and tissue shrinkage, likely associated with the occurrence of artifacts. However, realistic fine-structural data of synapses are required for our understanding of the transmission process and for its simulation. Here, we used high-pressure freezing and cryosubstitution of hippocampal tissue that was not subjected to aldehyde fixation and dehydration in ethanol to monitor the fine structure of an identified synapse in the hippocampal CA3 region, that is, the synapse between granule cell axons, the mossy fibers, and the proximal dendrites of CA3 pyramidal neurons. Our results showed that high-pressure freezing nicely preserved ultrastructural detail of this particular synapse and allowed us to study rapid structural changes associated with synaptic plasticity.

Published
2012
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4. Lamellar body ultrastructure revisited: high-pressure freezing and cryo-electron microscopy of vitreous sections

Author

Werner Graber, Christian Mühlfeld, Dimitri Vanhecke, Therese Hillmann-Marti, Matthias Ochs, Daniel Studer, and Gudrun Herrmann

Subjects
Tissue Fixation, Histology, Materials science, Freeze Substitution, Cryo-electron microscopy, Lamellar granule, Cryofixation, Mice, Pulmonary surfactant, Freezing, Image Processing, Computer-Assisted, Pressure, Animals, Lamellar structure, Molecular Biology, Cryopreservation, Fluorocarbons, Mice, Inbred BALB C, Staining and Labeling, Cryoultramicrotomy, Secretory Vesicles, Cryoelectron Microscopy, Ice, Pulmonary Surfactants, Cell Biology, Vitrification, Pulmonary Alveoli, Medical Laboratory Technology, Crystallography, Freeze substitution, Ultrastructure, Biophysics, Artifacts
Abstract

Lamellar bodies are the storage sites for lung surfactant within type II alveolar epithelial cells. The structure-function models of lamellar bodies are based on microscopic analyses of chemically fixed tissue. Despite available alternative fixation methods that are less prone to artifacts, such as cryofixation by high-pressure freezing, the nature of the lung, being mostly air filled, makes it difficult to take advantage of these improved methods. In this paper, we propose a new approach and show for the first time the ultrastructure of intracellular lamellar bodies based on cryo-electron microscopy of vitreous sections in the range of nanometer resolution. Thus, unspoiled by chemical fixation, dehydration and contrasting agents, a close to native structure is revealed. Our approach uses perfluorocarbon to substitute the air in the alveoli. Lung tissue was subsequently high-pressure frozen, cryosectioned and observed in a cryo-electron microscope. The lamellar bodies clearly show a tight lamellar morphology. The periodicity of these lamellae was 7.3 nm. Lamellar bifurcations were observed in our cryosections. The technical approach described in this paper allows the examination of the native cellular ultrastructure of the surfactant system under near in vivo conditions, and therefore opens up prospectives for scrutinizing various theories of lamellar body biogenesis, exocytosis and recycling.

Published
2010
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5. Pseudovacuoles - immobilized by high-pressure freezing - are associated with blebbing in walker carcinosarcoma cells

Author

Dimitri Vanhecke, R. Bellmann, Peter Eggli, Daniel Studer, Werner Graber, H U Keller, and Oliver Baum

Subjects
Histology, medicine.diagnostic_test, Chemistry, Hydrostatic pressure, Colocalization, Immunofluorescence, Pathology and Forensic Medicine, Cell biology, Freeze substitution, Cytoplasm, Live cell imaging, Heat shock protein, medicine, Intracellular
Abstract

By applying high pressure freezing and freeze-substitution, we observed large inclusions of homogeneous appearance in the front of locomoting Walker carcinosarcoma cells that have not been described earlier. Live cell imaging revealed that these inclusions were poor in lipids and nucleic acids but had a high lysine (and hence protein) content. Usually one such structure 2-5 mum in size was present at the front of motile Walker cells, predominantly in the immediate vicinity of newly forming blebs. By correlating the lysine-rich areas in fixed and embedded cells with electron microscopic pictures, inclusions could be assigned to confined, faintly stained cytoplasmic areas that lacked a surrounding membrane; they were therefore called pseudovacuoles. After high-pressure freezing and freeze substitution, pseudovacuoles appeared to be filled with 20 nm large electron-transparent patches surrounded by 12 and 15 nm large particles. The heat shock protein Hsp90 was identified by peptide sequencing as a major fluorescent band on SDS-PAGE of lysine-labelled Walker cell extracts. By immunofluorescence, Hsp90 was found to be enriched in pseudovacuoles. Colocalization of the lysine with a potassium-specific dye in living cells revealed that pseudovacuoles act as K+ stores in the vicinity of forming blebs. We propose that pseudovacuoles might support blebbing by locally regulating the intracellular hydrostatic pressure.

Published
2008
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6. Synchrotron microbeam irradiation induces neutrophil infiltration, thrombocyte attachment and selective vascular damage in vivo

Author

Raphaël Serduc, Elke Bräuer-Krisch, Jean A. Laissue, Valentin Djonov, Audrey Bouchet, Stephan von Gunten, Daniel Brönnimann, Christoph Schneider, Marine Potez, Werner Graber, Institute of Anatomy, University of Bern, Institute of Pharmacology, EA RSRM, Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), and European Synchrotron Radiation Facility (ESRF)

Subjects
Blood Platelets, Pathology, medicine.medical_specialty, Connective tissue, Inflammation, 610 Medicine & health, [SDV.IB.MN]Life Sciences [q-bio]/Bioengineering/Nuclear medicine, Article, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Platelet Adhesiveness, 0302 clinical medicine, In vivo, medicine, Animals, Platelet, Irradiation, Zebrafish, Hemostasis, Multidisciplinary, Chemistry, Microbeam, medicine.disease, equipment and supplies, Perfusion, medicine.anatomical_structure, Neutrophil Infiltration, Connective Tissue, 030220 oncology & carcinogenesis, Animal Fins, [PHYS.PHYS.PHYS-MED-PH]Physics [physics]/Physics [physics]/Medical Physics [physics.med-ph], Blood Vessels, medicine.symptom, Infiltration (medical), Synchrotrons
Abstract

Our goal was the visualizing the vascular damage and acute inflammatory response to micro- and minibeam irradiation in vivo. Microbeam (MRT) and minibeam radiation therapies (MBRT) are tumor treatment approaches of potential clinical relevance, both consisting of parallel X-ray beams and allowing the delivery of thousands of Grays within tumors. We compared the effects of microbeams (25–100 μm wide) and minibeams (200–800 μm wide) on vasculature, inflammation and surrounding tissue changes during zebrafish caudal fin regeneration in vivo. Microbeam irradiation triggered an acute inflammatory response restricted to the regenerating tissue. Six hours post irradiation (6 hpi), it was infiltrated by neutrophils and fli1a+ thrombocytes adhered to the cell wall locally in the beam path. The mature tissue was not affected by microbeam irradiation. In contrast, minibeam irradiation efficiently damaged the immature tissue at 6 hpi and damaged both the mature and immature tissue at 48 hpi. We demonstrate that vascular damage, inflammatory processes and cellular toxicity depend on the beam width and the stage of tissue maturation. Minibeam irradiation did not differentiate between mature and immature tissue. In contrast, all irradiation-induced effects of the microbeams were restricted to the rapidly growing immature tissue, indicating that microbeam irradiation could be a promising tumor treatment tool.

Published
2016
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7. Fine structure of synapses on dendritic spines

Author

Michael Frotscher, Sigrun Nestel, Shanting Zhao, Werner Graber, Daniel Studer, and Xuejun Chai

Subjects
Dendritic spine, Neuroscience (miscellaneous), 610 Medicine & health, high-pressure freezing, Review Article, macromolecular substances, cofilin, Biology, lcsh:RC321-571, lcsh:QM1-695, Cellular and Molecular Neuroscience, Actin remodeling of neurons, Immunogold Labeling, Electron microscopy, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Actin, Hippocampal mossy fiber, dendritic spine, Long-term potentiation, lcsh:Human anatomy, Cofilin, Actin cytoskeleton, Dendritic filopodia, Actin Cytoskeleton, Biophysics, Anatomy, Neuroscience
Abstract

Camillo Golgi's "Reazione Nera" led to the discovery of dendritic spines, small appendages originating from dendritic shafts. With the advent of electron microscopy (EM) they were identified as sites of synaptic contact. Later it was found that changes in synaptic strength were associated with changes in the shape of dendritic spines. While live-cell imaging was advantageous in monitoring the time course of such changes in spine structure, EM is still the best method for the simultaneous visualization of all cellular components, including actual synaptic contacts, at high resolution. Immunogold labeling for EM reveals the precise localization of molecules in relation to synaptic structures. Previous EM studies of spines and synapses were performed in tissue subjected to aldehyde fixation and dehydration in ethanol, which is associated with protein denaturation and tissue shrinkage. It has remained an issue to what extent fine structural details are preserved when subjecting the tissue to these procedures. In the present review, we report recent studies on the fine structure of spines and synapses using high-pressure freezing (HPF), which avoids protein denaturation by aldehydes and results in an excellent preservation of ultrastructural detail. In these studies, HPF was used to monitor subtle fine-structural changes in spine shape associated with chemically induced long-term potentiation (cLTP) at identified hippocampal mossy fiber synapses. Changes in spine shape result from reorganization of the actin cytoskeleton. We report that cLTP was associated with decreased immunogold labeling for phosphorylated cofilin (p-cofilin), an actin-depolymerizing protein. Phosphorylation of cofilin renders it unable to depolymerize F-actin, which stabilizes the actin cytoskeleton. Decreased levels of p-cofilin, in turn, suggest increased actin turnover, possibly underlying the changes in spine shape associated with cLTP. The findings reviewed here establish HPF as an appropriate method for studying the fine structure and molecular composition of synapses on dendritic spines.

Published
2014
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8. Capture of activity-induced ultrastructural changes at synapses by high-pressure freezing of brain tissue

Author

Xuejun Chai, Michael Frotscher, Werner Graber, Sigrun Nestel, Peter Jonas, Shanting Zhao, and Daniel Studer

Subjects
Neurons, Cryoelectron Microscopy, Brain, Brain tissue, Biology, medicine.disease, General Biochemistry, Genetics and Molecular Biology, law.invention, Biochemistry, law, High pressure, Organelle, Synapses, Biophysics, medicine, Ultrastructure, Pressure, High pressure freezing, Dehydration, Electron microscope, Fixation (histology)
Abstract

Electron microscopy (EM) allows for the simultaneous visualization of all tissue components at high resolution. However, the extent to which conventional aldehyde fixation and ethanol dehydration of the tissue alter the fine structure of cells and organelles, thereby preventing detection of subtle structural changes induced by an experiment, has remained an issue. Attempts have been made to rapidly freeze tissue to preserve native ultrastructure. Shock-freezing of living tissue under high pressure (high-pressure freezing, HPF) followed by cryosubstitution of the tissue water avoids aldehyde fixation and dehydration in ethanol; the tissue water is immobilized in ∼50 ms, and a close-to-native fine structure of cells, organelles and molecules is preserved. Here we describe a protocol for HPF that is useful to monitor ultrastructural changes associated with functional changes at synapses in the brain but can be applied to many other tissues as well. The procedure requires a high-pressure freezer and takes a minimum of 7 d but can be paused at several points.

Published
2014

9. The new Southeast Asian goblin spider genus Aposphragisma (Araneae, Oonopidae): diversity and phylogeny

Author

Marco, Thoma, Yvonne, Kranz-Baltensperger, Christian, Kropf, Werner, Graber, Wolfgang, Nentwig, and Holger, Frick

Subjects
Male, Species Specificity, Animals, Female, Spiders, Biodiversity, Animal Distribution, Asia, Southeastern, Phylogeny
Abstract

The new genus Aposphragisma (Araneae, Oonopidae, Oonopinae) comprising the new species A. baltenspergerae, A. borgulai, A. brunomanseri, A. confluens, A. dayak, A. dentatum, A. draconigenum, A. hausammannae, A. helvetiorum, A. kolleri, A. menzi, A. monoceros, A. nocturnum, A. retifer, A. rimba, A. salewskii, A. scimitar, A. sepilok and A. stannum is described. It is characterised by very hard bodied, strongly sclerotized species with completely armoured prosoma and strongly sclerotized ventral and dorsal abdominal scuta. Aposphragisma gen. nov. is placed within the Gamasomorpha-group sensu Saaristo (2001). Descriptions and illustrations are given for all new species. A phylogenetic analysis based on 40 characters using Prethopalpus fosuma, Gamasomorpha asterobothros, G. cataphracta, G. seximpressa, Xestaspis biflocci, X. kandy and X. paulina as outgroup-taxa and Cortestina thaleri (Oonopidae, Sulsulinae) as the root is presented and discussed. Furthermore it is shown that females of Aposphragisma gen. nov. possess complex internal genitalia. The members of the new genus are ground-dwelling litter inhabitants restricted to Southeast Asian lowland and montane forests, with more than 60% of the species only known from single localities. They are presumed to be negatively affected by the massive destruction of pristine forest habitats within their range. This work has been conducted within the framework of the Planetary Biodiversity Inventory (PBI) of Oonopidae (see http://research.amnh.org/oonopidae).

Published
2014

10. The goblin spider genus Ischnothyreus (Araneae, Oonopidae) in Java and Sumatra

Author

Werner Graber, Christian Kropf, and Miguel Richard

Subjects
Male, 0106 biological sciences, Oonopidae, Arthropoda, 010607 zoology, Zoology, 010603 evolutionary biology, 01 natural sciences, Genus, Arachnida, Animalia, Animals, Ecology, Evolution, Behavior and Systematics, Taxonomy, Spider, biology, Ecology, Animal Structures, Spiders, Biodiversity, biology.organism_classification, Ischnothyreus, Indonesia, Araneae, Female, Animal Science and Zoology, Pedipalp, Animal Distribution
Abstract

The genus Ischnothyreus Simon, 1893 from Java and Sumatra is revised with the description of seven new species from Java (I. baltenspergerae sp. nov., I. bauri sp. nov., I. gigeri sp. nov., I. ligulatus sp. nov., I. nentwigorum sp. nov., I. sigridae sp. nov., I. ujungkulon sp. nov) and eight from Sumatra (I. ascifer sp. nov., I. concavus sp. nov., I. habeggeri sp. nov., I. haymozi sp. nov., I. lucidus sp. nov., I. marggii sp. nov., I. microphthalmus sp. nov., I. obscurus sp. nov.). Furthermore the male of I. serpentinum Saaristo, 2001 is described for the first time and the female redescribed in detail. Special morphological features of Ischnothyreus males and females are described and discussed, such as peculiar trochanter projections, partially fused pedipalp segments, processes on the cheliceral fang base in males and external and internal genitalic structures in females. This work is part of the Planetary Biodiversity Inventory (PBI) of goblin spiders (ha href="http://research.amnh.org/oonopidae/"ttp://research.amnh.org/oonopidae/)./a.

Published
2016
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11. Structural plasticity of spines at giant mossy fiber synapses

Author

Sigrun Nestel, Werner Graber, Daniel Studer, Nils Brose, E. Patricia Rodriguez, Xuejun Chai, Michael Frotscher, Kurt Saetzler, Christina Young, and Shanting Zhao

Subjects
Dendritic spine, Cognitive Neuroscience, Neuroscience (miscellaneous), high-pressure freezing, Review Article, Synaptic ultrastructure, Biology, Synaptic vesicle, lcsh:RC321-571, 03 medical and health sciences, chemistry.chemical_compound, Cellular and Molecular Neuroscience, 0302 clinical medicine, Postsynaptic potential, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, 030304 developmental biology, 0303 health sciences, Tetraethylammonium, dendritic spine, Dentate gyrus, Vesicle, Long-term potentiation, mossy fiber LTP, Actin cytoskeleton, Sensory Systems, Actin Cytoskeleton, chemistry, nervous system, Dentate Gyrus, Neuroscience, 030217 neurology & neurosurgery, granule cells
Abstract

The granule cells of the dentate gyrus give rise to thin unmyelinated axons, the mossy fibers. They form giant presynaptic boutons impinging on large complex spines on the proximal dendritic portions of hilar mossy cells and CA3 pyramidal neurons. While these anatomical characteristics have been known for some time, it remained unclear whether functional changes at mossy fiber synapses such as long-term potentiation (LTP) are associated with structural changes. Since subtle structural changes may escape a fine structural analysis when the tissue is fixed by using aldehydes and is dehydrated in ethanol, rapid high-pressure freezing (HPF) of the tissue was applied. Slice cultures of hippocampus were prepared and incubated in vitro for two weeks. Then, chemical LTP (cLTP) was induced by the application of 25 mM tetraethylammonium (TEA) for 10 min. Whole-cell patch clamp recordings from CA3 pyramidal neurons revealed a highly significant potentiation of mossy fiber synapses when compared to control conditions before the application of TEA. Next, the slice cultures were subjected to HPF, cryosubstitution, and embedding in Epon for a fine-structural analysis. When compared to control tissue, we noticed a significant decrease of synaptic vesicles in mossy fiber boutons and a concomitant increase in the length of the presynaptic membrane. On the postsynaptic side, we observed the formation of small, finger-like protrusions, emanating from the large complex spines. These short protrusions gave rise to active zones that were shorter than those normally found on the thorny excrescences. However, the total number of active zones was significantly increased. Of note, none of these cLTP-induced structural changes was observed in slice cultures from Munc13-1 deficient mouse mutants showing severely impaired vesicle priming and docking. In conclusion, application of HPF allowed us to monitor cLTP-induced structural reorganization of mossy fiber synapses.

Published
2012
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12. Fine structure of hippocampal mossy fiber synapses following rapid high-pressure freezing

Author

Shanting, Zhao, Daniel, Studer, Werner, Graber, Sigrun, Nestel, and Michael, Frotscher

Subjects
Aldehydes, Protein Denaturation, Tissue Fixation, Ethanol, Long-Term Potentiation, Receptors, Presynaptic, CA3 Region, Hippocampal, Synaptic Transmission, Perfusion, Tissue Culture Techniques, Mice, Nerve Fibers, Body Water, Epilepsy, Temporal Lobe, Freezing, Synapses, Animals, Indicators and Reagents, Desiccation, Artifacts
Abstract

Synapses of hippocampal neurons play important roles in learning and memory processes and are involved in aberrant hippocampal function in temporal lobe epilepsy. Major neuronal types in the hippocampus as well as their input and output synapses are well known, but it has remained an open question to what extent conventional electron microscopy (EM) has provided us with the real appearance of synaptic fine structure under in vivo conditions. There is reason to assume that conventional aldehyde fixation and dehydration lead to protein denaturation and tissue shrinkage, likely associated with the occurrence of artifacts. However, realistic fine-structural data of synapses are required for our understanding of the transmission process and for its simulation. Here, we used high-pressure freezing and cryosubstitution of hippocampal tissue that was not subjected to aldehyde fixation and dehydration in ethanol to monitor the fine structure of an identified synapse in the hippocampal CA3 region, that is, the synapse between granule cell axons, the mossy fibers, and the proximal dendrites of CA3 pyramidal neurons. Our results showed that high-pressure freezing nicely preserved ultrastructural detail of this particular synapse and allowed us to study rapid structural changes associated with synaptic plasticity.

Published
2012

13. Structural plasticity of hippocampal mossy fiber synapses as revealed by high-pressure freezing

Author

Christina Young, Nils Brose, E. Patricia Rodriguez, Kurt Saetzler, Shanting Zhao, Daniel Studer, Sigrun Nestel, Michael Frotscher, Werner Graber, and Xuejun Chai

Subjects
Patch-Clamp Techniques, Long-Term Potentiation, Nerve Tissue Proteins, Hippocampal formation, Biology, In Vitro Techniques, law.invention, Mice, Nerve Fibers, law, Postsynaptic potential, Fluorescence microscope, Animals, Hippocampal mossy fiber, Mice, Knockout, General Neuroscience, Pyramidal Cells, Excitatory Postsynaptic Potentials, Long-term potentiation, Actin cytoskeleton, CA3 Region, Hippocampal, Synaptic plasticity, Mossy Fibers, Hippocampal, Synapses, Biophysics, Synaptic Vesicles, Electron microscope, Neuroscience
Abstract

Despite recent progress in fluorescence microscopy techniques, electron microscopy (EM) is still superior in the simultaneous analysis of all tissue components at high resolution. However, it is unclear to what extent conventional fixation for EM using aldehydes results in tissue alteration. Here we made an attempt to minimize tissue alteration by using rapid high-pressure freezing (HPF) of hippocampal slice cultures. We used this approach to monitor fine-structural changes at hippocampal mossy fiber synapses associated with chemically induced long-term potentiation (LTP). Synaptic plasticity in LTP has been known to involve structural changes at synapses including reorganization of the actin cytoskeleton and de novo formation of spines. While LTP-induced formation and growth of postsynaptic spines have been reported, little is known about associated structural changes in presynaptic boutons. Mossy fiber synapses are assumed to exhibit presynaptic LTP expression and are easily identified by EM. In slice cultures from wildtype mice, we found that chemical LTP increased the length of the presynaptic membrane of mossy fiber boutons, associated with a de novo formation of small spines and an increase in the number of active zones. Of note, these changes were not observed in slice cultures from Munc13-1 knockout mutants exhibiting defective vesicle priming. These findings show that activation of hippocampal mossy fibers induces pre- and postsynaptic structural changes at mossy fiber synapses that can be monitored by EM.

Published
2012

14. Improved ultrastructural preservation of rat ciliary body after high pressure freezing and freeze substitution: A perspective view based upon comparison with tissue processed according to a conventional protocol or by osmium tetroxide/microwave fixation

Author

Peter Eggli and Werner Graber

Subjects
Pathology, medicine.medical_specialty, Tissue Fixation, Histology, Osmium Tetroxide, Freeze Substitution, Iris, Biology, Epithelium, law.invention, Cryofixation, chemistry.chemical_compound, Nerve Fibers, Ciliary body, law, medicine, Animals, Rats, Wistar, Microwaves, Instrumentation, Fixation (histology), Cryopreservation, Ciliary Body, Extracellular Matrix, Rats, Medical Laboratory Technology, medicine.anatomical_structure, Freeze substitution, Osmium tetroxide, chemistry, Ultrastructure, Biophysics, Tissue Preservation, Anatomy, Electron microscope
Abstract

Conventional fixation of the delicate, highly folded rat ciliary body and its iridial extension, as well as of vitreal structures, is associated with the induction of a number of artifacts, thus limiting the reliability of morphological interpretations. Improved ultrastructural preservation may be achieved by microwave heating in combination with osmium tetroxide fixation. This protocol, although simple and cheap, yields results, particularly with respect to the extracellular matrix compartment between inner and outer ciliary epithelial cells, which are not greatly inferior to those obtained by implementing the sophisticated high pressure freezing and freeze substitution technique. The latter affords good to very good ultrastructural preservation of epithelium and stromal components, such as blood vessels, neural elements, smooth muscle cells, fibrocytes, and free cells, up to a depth of 50-100 microns from the tissue surface. Its superiority over osmium tetroxide/microwave fixation is revealed in the cytoplasmic, intraorganellar, and vitreal matrix compartments, which incur no obvious losses.

Published
1994
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15. Capsule type of Streptococcus pneumoniae determines growth phenotype

Author

Christoph Hauser, Werner Graber, Suzanna Gore, Brigitte Morand, Jeannine U. Rotzetter, Lucy J. Hathaway, Mathieu Bangert, Silvio D. Brugger, Kathrin Mühlemann, and Aras Kadioglu

Subjects
Serotype, Bacterial capsule, Bacterial Diseases, medicine.disease_cause, Mice, Nasopharynx, Biology (General), wc_210, 0303 health sciences, 3. Good health, Pneumococcal infections, qw_51, Phenotype, Streptococcus pneumoniae, Infectious Diseases, qw_160, Medicine, Female, Research Article, QH301-705.5, Immunology, Biology, Microbiology, Pneumococcal Infections, 03 medical and health sciences, Bacterial Proteins, In vivo, Virology, Genetics, medicine, Animals, Outbred Strains, Animals, Serotyping, Molecular Biology, Bacterial Capsules, 030304 developmental biology, 030306 microbiology, Wild type, Capsule, Gene Expression Regulation, Bacterial, RC581-607, medicine.disease, Disease Models, Animal, Carriage, Mutation, Parasitology, Immunologic diseases. Allergy
Abstract

The polysaccharide capsule of Streptococcus pneumoniae defines over ninety serotypes, which differ in their carriage prevalence and invasiveness for poorly understood reasons. Recently, an inverse correlation between carriage prevalence and oligosaccharide structure of a given capsule has been described. Our previous work suggested a link between serotype and growth in vitro. Here we investigate whether capsule production interferes with growth in vitro and whether this predicts carriage prevalence in vivo. Eighty-one capsule switch mutants were constructed representing nine different serotypes, five of low (4, 7F, 14, 15, 18C) and four of high carriage prevalence (6B, 9V, 19F, 23F). Growth (length of lag phase, maximum optical density) of wildtype strains, nontypeable mutants and capsule switch mutants was studied in nutrient-restricted Lacks medium (MLM) and in rich undefined brain heart infusion broth supplemented with 5% foetal calf serum (BHI+FCS). In MLM growth phenotype depended on, and was transferred with, capsule operon type. Colonization efficiency of mouse nasopharynx also depended on, and was transferred with, capsule operon type. Capsule production interfered with growth, which correlated inversely with serotype-specific carriage prevalence. Serotypes with better growth and higher carriage prevalence produced thicker capsules (by electron microscopy, FITC-dextran exclusion assays and HPLC) than serotypes with delayed growth and low carriage prevalence. However, expression of cpsA, the first capsule gene, (by quantitative RT-PCR) correlated inversely with capsule thickness. Energy spent for capsule production (incorporation of H3-glucose) relative to amount of capsule produced was higher for serotypes with low carriage prevalence. Experiments in BHI+FCS showed overall better bacterial growth and more capsule production than growth in MLM and differences between serotypes were no longer apparent. Production of polysaccharide capsule in S. pneumoniae interferes with growth in nutrient-limiting conditions probably by competition for energy against the central metabolism. Serotype-specific nasopharyngeal carriage prevalence in vivo is predicted by the growth phenotype., Author Summary Streptococcus pneumoniae bacteria are responsible for serious human infections including meningitis, pneumonia and bacteraemia and are a common cause of otitis media (ear infection) in children. However, they most often reside harmlessly in the infant nasopharynx. An association has long been observed between the type of polysaccharide capsule surrounding the bacteria and harmless colonization versus invasive disease. Here we suggest that capsule types that are costly for the bacteria to make are produced in lower quantities and their production limits the growth of the bacteria in nutrient-restricted conditions. In contrast, bacteria with capsules that require less energy can produce more capsule and grow more successfully. This may be an explanation for why S. pneumoniae with certain capsule types can be effective long-term colonizers of the nasopharynx while others need a richer nutritional environment to flourish and so are most often associated with invasive disease. This information may be of use when considering which capsules types to target in future vaccines.

Published
2011
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16. Cytochemical Localization of Hyaluronan in Rat and Human Skin Mast Cell Granules

Author

Peter Eggli and Werner Graber

Subjects
Male, Human skin, Dermatology, Biology, Cytoplasmic Granules, Biochemistry, Glycosaminoglycan, chemistry.chemical_compound, Hyaluronidase, Hyaluronic acid, medicine, Animals, Humans, Mast Cells, Hyaluronic Acid, Rats, Wistar, Molecular Biology, Skin, integumentary system, Histocytochemistry, Cell Biology, Mast cell, Rats, medicine.anatomical_structure, chemistry, Osmium tetroxide, Cytochemistry, Glutaraldehyde, medicine.drug
Abstract

Rat and human skin were processed either by osmium tetroxide/microwave fixation followed by embedding in epoxy resin or by glutaraldehyde/microwave fixation and low-temperature embedding in Lowicryl K4M. Hyaluronan-binding proteins and link proteins (LP) were isolated from bovine nasal cartilage, coupled to 15-20-nm gold particles and employed as markers in a one-step post-embedding procedure for identifying hyaluronan (hyaluronic acid) at the ultrastructural level. Mast cell granules of both species were labeled. The specificity of the hyaluronan-binding probes was demonstrated by treatment of sections with testicular hyaluronidase, Streptomyces hyaluronidase, and chondroitinase ABC, and pre-incubation of probes with hyaluronan oligosaccharides. The results suggest that mast cell granules are a rich source of hyaluronan; this finding may account for the striking concurrence of hyaluronan accumulation with a mastocytotic condition in many tissues undergoing pathologic changes.

Published
1993
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17. Rapidly excised and cryofixed rat tissue

Author

Dimitri, Vanhecke, Werner, Graber, and Daniel, Studer

Subjects
Cryopreservation, Microscopy, Electron, Histocytological Preparation Techniques, Liver, Freeze Substitution, Biopsy, Muscles, Pressure, Animals, Brain, Rats, Wistar, Rats
Abstract

All preparation efforts of biological samples in electron microscopy are focused to preserve structures as close as possible to the native state. To achieve this goal with tissues, it is of advantage to have a very short time between excision and fixation. The most common approach is chemical fixation: cross-linking of the tissue samples with aldehydes followed by postfixation with osmium tetroxide. Here, the fastest approach for tissue samples is perfusion. However, the diffusion of the fixation solution from blood vessels into the depth of the tissue is still slow and does not allow an overall instant fixation of a single cell. As a result, osmotic effects become evident (swelling or shrinkage of cell organelles). Another possibility is to take a tissue sample from the experimental animal. Excision of tissue can last quite some time, which results in even more pronounced autolytic induced osmotic effects. Furthermore, the animal does not survive the procedure in most cases. Alternatively, microbiopsies are an elegant technique to rapidly excise small quantities of tissue. Some tissues, such as liver and muscle, may be obtained using a non-lethal approach. To avoid the artifacts introduced by chemical fixation, high-pressure freezing of microbiopsies (brain, liver, kidney, and muscle) is a powerful alternative to chemical fixation. Here, we describe the microbiopsy method, and high-pressure freezing/freeze-substitution (HPF/FS) as a follow-up procedure. Cryosectioning of high-pressure frozen samples is optimally preserving the ultrastructure; however, it is not considered to be a routine approach yet.

Published
2010

18. Microbeam radiation-induced tissue damage depends on the stage of vascular maturation

Author

Werner Graber, Alberto Bravin, Elke Bräuer-Krisch, Sara Sabatasso, Stéphanie Corde, Ruslan Hlushchuk, Hans Blattmann, Jean A. Laissue, Guenther Gruber, Valentin Djonov, Sabatasso, S, Laissue Jean, A, Hlushchuk, R, Graber, W, Bravin, A, Braeuer-Krisch, E, Corde, S, Blattmann, H, Gruber, G, and Djonov, V

Subjects
Cancer Research, Pathology, medicine.medical_specialty, Time Factors, Lumen (anatomy), FIS/07 - FISICA APPLICATA (A BENI CULTURALI, AMBIENTALI, BIOLOGIA E MEDICINA), Chick Embryo, Radiation Dosage, Radiation Tolerance, Chorioallantoic Membrane, Chick chorioallantoic membrane, Venules, In vivo, Synchrotron-generated X-ray, Edema, Medicine, Animals, Radiology, Nuclear Medicine and imaging, Vascular maturation, Irradiation, Cell Proliferation, Radiation, business.industry, Cell growth, Mesenchymal stem cell, Endothelial Cells, Microbeam, Capillaries, Arterioles, Radiation Injuries, Experimental, Seamless irradiation, Intercellular Junctions, Oncology, Endothelium, Vascular, medicine.symptom, business, Microbeam radiation therapy, Synchrotrons
Abstract

Purpose To explore the effects of microbeam radiation (MR) on vascular biology, we used the chick chorioallantoic membrane (CAM) model of an almost pure vascular system with immature vessels (lacking periendothelial coverage) at Day 8 and mature vessels (with coverage) at Day 12 of development. Methods and Materials CAMs were irradiated with microplanar beams (width, ∼25 μm; interbeam spacing, ∼200 μm) at entrance doses of 200 or 300 Gy and, for comparison, with a broad beam (seamless radiation [SLR]), with entrance doses of 5 to 40 Gy. Results In vivo monitoring of Day-8 CAM vasculature 6 h after 200 Gy MR revealed a near total destruction of the immature capillary plexus. Conversely, 200 Gy MR barely affected Day-12 CAM mature microvasculature. Morphological evaluation of Day-12 CAMs after the dose was increased to 300 Gy revealed opened interendothelial junctions, which could explain the transient mesenchymal edema immediately after irradiation. Electron micrographs revealed cytoplasmic vacuolization of endothelial cells in the beam path, with disrupted luminal surfaces; often the lumen was engorged with erythrocytes and leukocytes. After 30 min, the capillary plexus adopted a striated metronomic pattern, with alternating destroyed and intact zones, corresponding to the beam and the interbeam paths within the array. SLR at a dose of 10 Gy caused growth retardation, resulting in a remarkable reduction in the vascular endpoint density 24 h postirradiation. A dose of 40 Gy damaged the entire CAM vasculature. Conclusions The effects of MR are mediated by capillary damage, with tissue injury caused by insufficient blood supply. Vascular toxicity and physiological effects of MR depend on the stage of capillary maturation and appear in the first 15 to 60 min after irradiation. Conversely, the effects of SLR, due to the arrest of cell proliferation, persist for a longer time.

Published
2010

19. A double role of sperm in scorpions: The mating plug ofEuscorpius italicus(Scorpiones: Euscorpiidae) consists of sperm

Author

Alain Jacob, Deborah Hofer, Christian Kropf, Wolfgang Nentwig, Sarah Althaus, and Werner Graber

Subjects
Male, Euscorpius italicus, Time Factors, media_common.quotation_subject, Zoology, Insect, Biology, Insemination, Scorpions, Sexual conflict, Sexual Behavior, Animal, Animals, Gonopore, Mating plug, Sperm competition, reproductive and urinary physiology, media_common, urogenital system, Anatomy, Spermatozoa, Sperm, Spermatophore, behavior and behavior mechanisms, Female, Animal Science and Zoology, Developmental Biology
Abstract

Mating plugs occluding the female gonopore after mating are a widespread phenomenon. In scorpions, two main types of mating plugs are found: sclerotized mating plugs being parts of the spermatophore that break off during mating, and gel-like mating plugs being gelatinous fluids that harden in the female genital tract. In this study, the gel-like mating plug of Euscorpius italicus was investigated with respect to its composition, fine structure, and changes over time. Sperm forms the major component of the mating plug, a phenomenon previously unknown in arachnids. Three parts of the mating plug can be distinguished. The part facing the outside of the female (outer part) contains sperm packages containing inactive spermatozoa. In this state, sperm is transferred. In the median part, the sperm packages get uncoiled to single spermatozoa. In the inner part, free sperm is embedded in a large amount of secretions. Fresh mating plugs are soft gelatinous, later they harden from outside toward inside. This process is completed after 3-5 days. Sperm from artificially triggered spermatophores could be activated by immersion in insect Ringer's solution indicating that the fluid condition in the females' genital tract or females' secretions causes sperm activation. Because of the male origin of the mating plug, it has likely evolved under sperm competition or sexual conflict. As females refused to remate irrespective of the presence or absence of a mating plug, females may have changed their mating behavior in the course of evolution from polyandry to monandry.

Published
2010
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20. Rapidly Excised and Cryofixed Rat Tissue

Author

Werner Graber, Daniel Studer, and Dimitri Vanhecke

Subjects
Tissue sample, Anatomy, Biology, law.invention, chemistry.chemical_compound, Experimental animal, Osmium tetroxide, chemistry, law, Ultrastructure, medicine, Electron microscope, Swelling, medicine.symptom, Perfusion, Biomedical engineering, Fixation (histology)
Abstract

All preparation efforts of biological samples in electron microscopy are focused to preserve structures as close as possible to the native state. To achieve this goal with tissues, it is of advantage to have a very short time between excision and fixation. The most common approach is chemical fixation: cross-linking of the tissue samples with aldehydes followed by postfixation with osmium tetroxide. Here, the fastest approach for tissue samples is perfusion. However, the diffusion of the fixation solution from blood vessels into the depth of the tissue is still slow and does not allow an overall instant fixation of a single cell. As a result, osmotic effects become evident (swelling or shrinkage of cell organelles). Another possibility is to take a tissue sample from the experimental animal. Excision of tissue can last quite some time, which results in even more pronounced autolytic induced osmotic effects. Furthermore, the animal does not survive the procedure in most cases. Alternatively, microbiopsies are an elegant technique to rapidly excise small quantities of tissue. Some tissues, such as liver and muscle, may be obtained using a non-lethal approach. To avoid the artifacts introduced by chemical fixation, high-pressure freezing of microbiopsies (brain, liver, kidney, and muscle) is a powerful alternative to chemical fixation. Here, we describe the microbiopsy method, and high-pressure freezing/freeze-substitution (HPF/FS) as a follow-up procedure. Cryosectioning of high-pressure frozen samples is optimally preserving the ultrastructure; however, it is not considered to be a routine approach yet.

Published
2010
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21. Formation and release of vesicles from the basal surfaces of rat eye non-pigmented ciliary epithelial cells: A novel secretory mechanism?

Author

Peter Eggli, Eugen van der Zypen, and Werner Graber

Subjects
Male, Biology, Epithelium, chemistry.chemical_compound, Ciliary processes, Ciliary body, medicine, Animals, Cytoskeleton, Cryopreservation, Vesicle, Cell Membrane, Ciliary Body, Epithelial Cells, Rats, Inbred Strains, Intracellular Membranes, Anatomy, Agricultural and Biological Sciences (miscellaneous), Rats, Basal plasma membrane, Microscopy, Electron, medicine.anatomical_structure, Osmium tetroxide, chemistry, Freeze substitution, Biophysics, Female, Basal lamina, Rabbits
Abstract

When rat ciliary body is processed by high pressure freezing and freeze substitution, numerous membrane-bound vesicle profiles are seen in the vitreous associated with the pars plana and in the valleys between the ciliary processes. They consist of a homogeneously distributed fine granular matrix and varying numbers of ribosome-like structures. The mechanism by which these vesicles are secreted appears to follow an apocrine-type pattern, albeit at the basal cell surface. Matrix material accumulates between the basal plasma membrane of non-pigmented ciliary epithelial cells and a cortical layer of cytoskeletal components; the blebs thus formed protrude through a discontinuity in the basal lamina and, by a progressive narrowing of the neck region, are eventually pinched off, giving rise to free vesicles. Under conventional aqueous chemical fixation conditions, most of these vesicles are washed away or their contents solubilized and extracted, which accounts for their not having been identified hitherto as genuine morphological structures. They are nonetheless apparent, albeit in reduced numbers and mostly empty. Such vesicles are also observed in tissue processed according to several other chemical fixation techniques, namely, conventional fixation in the presence of the cationic dye ruthenium hexamine trichloride, simultaneous glutaraldehyde/osmium tetroxide fixation, and microwave fixation. In the latter instance, comparable vesicle preservation to that obtained by high pressure freezing/freeze substitution may be achieved if fixation is followed by cryoprotection, plunge freezing, and freeze substitution instead of conventional post-fixation and dehydration procedures.

Published
1991
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22. Close-to-native ultrastructural preservation by high pressure freezing

Author

Dimitri, Vanhecke, Werner, Graber, and Daniel, Studer

Subjects
Cryopreservation, Atmospheric Pressure, Cryoprotective Agents, Microscopy, Electron, Transmission, Tissue Embedding, Cells, Animals, Humans, Artifacts
Abstract

The objective of modern transmission electron microscopy (TEM) in life science is to observe biological structures in a state as close as possible to the living organism. TEM samples have to be thin and to be examined in vacuum; therefore only solid samples can be investigated. The most common and popular way to prepare samples for TEM is to subject them to chemical fixation, staining, dehydration, and embedding in a resin (all of these steps introduce considerable artifacts) before investigation. An alternative is to immobilize samples by cooling. High pressure freezing is so far the only approach to vitrify (water solidification without ice crystal formation) bulk biological samples of about 200 micrometer thick. This method leads to an improved ultrastructural preservation. After high pressure freezing, samples have to be subjected to follow-up procedure, such as freeze-substitution and embedding. The samples can also be sectioned into frozen hydrated sections and analyzed in a cryo-TEM. Also for immunocytochemistry, high pressure freezing is a good and practicable way.

Published
2008

23. Chapter 9 Close-to-Native Ultrastructural Preservation by High Pressure Freezing

Author

Werner Graber, Dimitri Vanhecke, and Daniel Studer

Subjects
Frozen hydrated, Micrometre, Ice crystals, Atmospheric pressure, Transmission electron microscopy, Microscopy, Ultrastructure, High pressure freezing, Biology, Composite material
Abstract

The objective of modern transmission electron microscopy (TEM) in life science is to observe biological structures in a state as close as possible to the living organism. TEM samples have to be thin and to be examined in vacuum; therefore only solid samples can be investigated. The most common and popular way to prepare samples for TEM is to subject them to chemical fixation, staining, dehydration, and embedding in a resin (all of these steps introduce considerable artifacts) before investigation. An alternative is to immobilize samples by cooling. High pressure freezing is so far the only approach to vitrify (water solidification without ice crystal formation) bulk biological samples of about 200 micrometer thick. This method leads to an improved ultrastructural preservation. After high pressure freezing, samples have to be subjected to follow-up procedure, such as freeze-substitution and embedding. The samples can also be sectioned into frozen hydrated sections and analyzed in a cryo-TEM. Also for immunocytochemistry, high pressure freezing is a good and practicable way.

Published
2008
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24. New ways of looking at synapses

Author

Werner Graber, Michael Frotscher, Shanting Zhao, Daniel Studer, and Alexander Drakew

Subjects
Histology, Dendritic spine, Synaptic pharmacology, Nanotechnology, Cell Biology, Biology, Hippocampus, law.invention, Synapse, Medical Laboratory Technology, law, Postsynaptic potential, Synaptic plasticity, Mossy Fibers, Hippocampal, Synapses, Fluorescence microscope, Ultrastructure, Animals, Humans, Electron microscope, Molecular Biology, Neuroscience, Cryoultramicrotomy
Abstract

Current concepts of synaptic fine-structure are derived from electron microscopic studies of tissue fixed by chemical fixation using aldehydes. However, chemical fixation with glutaraldehyde and paraformaldehyde and subsequent dehydration in ethanol result in uncontrolled tissue shrinkage. While electron microscopy allows for the unequivocal identification of synaptic contacts, it cannot be used for real-time analysis of structural changes at synapses. For the latter purpose advanced fluorescence microscopy techniques are to be applied which, however, do not allow for the identification of synaptic contacts. Here, two approaches are described that may overcome, at least in part, some of these drawbacks in the study of synapses. By focusing on a characteristic, easily identifiable synapse, the mossy fiber synapse in the hippocampus, we first describe high-pressure freezing of fresh tissue as a method that may be applied to study subtle changes in synaptic ultrastructure associated with functional synaptic plasticity. Next, we propose to label presynaptic mossy fiber terminals and postsynaptic complex spines on CA3 pyramidal neurons by different fluorescent dyes to allow for the real-time monitoring of these synapses in living tissue over extended periods of time. We expect these approaches to lead to new insights into the structure and function of central synapses.

Published
2007
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25. A new microbiopsy system enables rapid preparation of tissue for high-pressure freezing

Author

Dimitri, Vanhecke, Peter, Eggli, Werner, Graber, and Daniel, Studer

Subjects
Mice, Liver, Freeze Substitution, Biopsy, Freezing, Pressure, Animals, Brain, Kidney, Muscle, Skeletal, Rats
Abstract

A microbiopsy system was developed to overcome long sampling times for tissues before they are cryo-fixed by high-pressure freezing. A commercially available biopsy gun was adapted to the needs of small-organ excisions, and biopsy needles were modified to allow small samples (0.6 mm x 1.2 mm x 0.3 mm) to be taken. Specimen platelets with a central slot of the same dimensions as the biopsy are used. A self-made transfer device (in the meantime optimized by Leica-Microsystems [Vienna, Austria]) coordinates the transfer of the excised sample from the biopsy needle into the platelet slot and the subsequent loading in a specimen holder, which is then introduced into a high-pressure freezer (Leica EM PACT; Leica Microsystems, Vienna, Austria). Thirty seconds preparation time is needed from excision until high-pressure freezing. Brain, liver, kidney and muscle excisions of anesthetised rats are shown to be well frozen.

Published
2006

26. Silhouettella loricatula (Arachnida, Araneae, Oonopidae): a Haplogyne spider with complex female genitalia

Author

Christian Kropf, Werner Graber, Peter Michalik, and Matthias Burger

Subjects
Male, Haplogynae, Opisthosoma, Muscles, Uterus, Oonopidae, Spiders, Anatomy, Genitalia, Female, Biology, biology.organism_classification, Sperm, Models, Biological, Spermatozoa, medicine.anatomical_structure, medicine, Animals, Animal Science and Zoology, Female, Pedipalp, Process (anatomy), Sperm competition, Developmental Biology
Abstract

The female genital system of the oonopid Silhouettella loricatula is astonishingly complex. The gen- ital opening is situated medially and leads into an oval receptaculum that is heavily sclerotized except for the ventral half of the posterior wall that appears chitinized only. A large striking sclerite lying in the posterior wall of the uterus externus is attached anteriorly to the receptac- ulum and continues dorsally into a globular appendix that bears a furrow. The uterus externus shows a peculiar modification in its anterior wall: a paddle-like sclerite with a nail-like posterior process. This sclerite lies oppo- site to the furrow proceeding in the globular appendix and may serve females to lock the uterus externus by muscle contractions. Massive muscles connect the sclerite with the anterior scutum of the opisthosoma and with two other sclerites that are attached to the receptaculum and serve as attachments for further muscles. Gland cells ex- tend around a pore field of the receptaculum. They pro- duce secretion that encloses spermatozoa in a discrete package (secretory sac) inside the receptaculum. In this way, the mixing of sperm from different males and thus sperm competition may be severely limited or completely prevented. During a copulation in the laboratory the ejec- tion of a secretory sac that most probably contained sper- matozoa was observed, indicating sperm dumping in S. loricatula. The ejection of the secretory sac may be caused by female muscle contractions or by male pedipalp move- ments. The majority of the investigated females have mi- croorganisms in the receptacula that could represent sym- bionts or infectious agents. The microorganisms can be identified partly as bacteria. They are enclosed in secre- tion and are always found in the same position inside the receptaculum. J. Morphol. 267:663- 677, 2006. © 2006 Wiley-Liss, Inc.

Published
2006

27. A New Microbiopsy System Enables Rapid Preparation of Tissue for High-Pressure Freezing

Author

Peter Eggli, Daniel Studer, Dimitri Vanhecke, and Werner Graber

Subjects
Materials science, medicine.diagnostic_test, Biopsy, medicine, Biopsy needles, High pressure freezing, Sampling (medicine), Biomedical engineering
Abstract

A microbiopsy system was developed to overcome long sampling times for tissues before they are cryo-fixed by high-pressure freezing. A commercially available biopsy gun was adapted to the needs of small-organ excisions, and biopsy needles were modified to allow small samples (0.6 mm x 1.2 mm x 0.3 mm) to be taken. Specimen platelets with a central slot of the same dimensions as the biopsy are used. A self-made transfer device (in the meantime optimized by Leica-Microsystems [Vienna, Austria]) coordinates the transfer of the excised sample from the biopsy needle into the platelet slot and the subsequent loading in a specimen holder, which is then introduced into a high-pressure freezer (Leica EM PACT; Leica Microsystems, Vienna, Austria). Thirty seconds preparation time is needed from excision until high-pressure freezing. Brain, liver, kidney and muscle excisions of anesthetised rats are shown to be well frozen.

Published
2006
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28. Complex genital system of a haplogyne spider (Arachnida, Araneae, Tetrablemmidae) indicates internal fertilization and full female control over transferred sperm

Author

Alain Jacob, Peter Michalik, Matthias Burger, Christian Kropf, Werner Graber, and Wolfgang Nentwig

Subjects
Male, Uterus, Models, Biological, Internal fertilization, Andrology, Human fertilization, Animals, Copulation, Cross-Sectional Studies, Female, Fertilization, Genitalia/physiology, Genitalia/ultrastructure, Microscopy, Electron, Scanning, Spermatozoa/physiology, Spermatozoa/ultrastructure, Spiders/anatomy & histology, Spiders/physiology, medicine, Sex organ, Genitalia, Sperm competition, biology, urogenital system, Spiders, Anatomy, biology.organism_classification, Spermatozoa, Sperm, Tetrablemmidae, Palpal bulb, medicine.anatomical_structure, Animal Science and Zoology, Developmental Biology
Abstract

The female genital organs of the tetrablemmid Indicoblemma lannaianum are astonishingly complex. The copulatory orifice lies anterior to the opening of the uterus externus and leads into a narrow insertion duct that ends in a genital cavity. The genital cavity continues laterally in paired tube-like copulatory ducts, which lead into paired, large, sac-like receptacula. Each receptaculum has a sclerotized pore plate with associated gland cells. Paired small fertilization ducts originate in the receptacula and take their curved course inside the copulatory ducts. The fertilization ducts end in slit-like openings in the sclerotized posterior walls of the copulatory ducts. Huge masses of secretions forming large balls are detectable in the female receptacula. An important function of these secretory balls seems to be the encapsulation of spermatozoa in discrete packages in order to avoid the mixing of sperm from different males. In this way, sperm competition may be completely prevented or at least severely limited. Females seem to have full control over transferred sperm and be able to express preference for spermatozoa of certain males. The lumen of the sperm containing secretory balls is connected with the fertilization duct. Activated spermatozoa are only found in the uterus internus of females, which is an indication of internal fertilization. The sperm cells in the uterus internus are characterized by an extensive cytoplasm and an elongated, cone-shaped nucleus. The male genital system of I. lannaianum consists of thick testes and thin convoluted vasa deferentia that open into the wide ductus ejaculatorius. The voluminous globular palpal bulb is filled with seminal fluid consisting of a globular secretion in which only a few spermatozoa are embedded. The spermatozoa are encapsulated by a sheath produced in the genital system. The secretions in females may at least partly consist of male secretions that could be involved in the building of the secretory balls or play a role in sperm activation. The male secretions could also afford nutriments to the spermatozoa.

Published
2006

29. High pressure freezing of brain tissue slices

Author

Shanting Zhao, Werner Graber, Peter Eggli, Michael Frotscher, and Daniel Studer

Subjects
Chemistry, High pressure freezing, Brain tissue, Instrumentation, Biomedical engineering
Abstract

Extended abstract of a paper presented at Microscopy and Microanalysis 2006 in Chicago, Illinois, USA, July 30 – August 3, 2006

Published
2006
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31. A rapid microbiopsy system to improve the preservation of biological samples prior to high-pressure freezing

Author

Gudrun Herrmann, Werner Graber, Ashraf Al-Amoudi, Peter Eggli, Dimitri Vanhecke, and Daniel Studer

Subjects
Histology, Materials science, Time Factors, Freeze Substitution, Biopsy, Kidney, Cryopreservation, Pathology and Forensic Medicine, Cryofixation, Specimen Handling, Biological specimen, Freezing, Pressure, Animals, Cryoultramicrotomy, Muscles, Brain, Anatomy, Rats, Plant Leaves, Microscopy, Electron, Freeze substitution, Liver, High pressure freezing, Biomedical engineering
Abstract

A microbiopsy system for fast excision and transfer of biological specimens from donor to high-pressure freezer was developed. With a modified, commercially available, Promag 1.2 biopsy gun, tissue samples can be excised with a size small enough (0.6 mm x 1.2 mm x 0.3 mm) to be easily transferred into a newly designed specimen platelet. A self-made transfer unit allows fast transfer of the specimen from the needle into the specimen platelet. The platelet is then fixed in a commercially available specimen holder of a high-pressure freezing machine (EM PACT, Leica Microsystems, Vienna, Austria) and frozen therein. The time required by a well-instructed (but not experienced) person to execute all steps is in the range of half a minute. This period is considered short enough to maintain the excised tissue pieces close to their native state. We show that a range of animal tissues (liver, brain, kidney and muscle) are well preserved. To prove the quality of freezing achieved with the system, we show vitrified ivy leaves high-pressure frozen in the new specimen platelet.

Published
2003

32. Collagen fibrillogenesis by chondrocytes in alginate

Author

Véronique Gaschen, Yongdoo Park, Werner Graber, Daniel Studer, Marcy Wong, and Mark Siegrist

Subjects
Alginates, Connective tissue, Lysyl oxidase, Extracellular matrix, Hydroxyproline, chemistry.chemical_compound, Chondrocytes, Glucuronic Acid, medicine, Animals, Aggrecan, Glycosaminoglycans, Cartilage, Hexuronic Acids, General Engineering, Fibrillogenesis, Anatomy, Molecular biology, Extracellular Matrix, Collagen, type I, alpha 1, medicine.anatomical_structure, chemistry, Aminopropionitrile, Cattle, Collagen
Abstract

Collagen is the primary structural component in connective tissue. The poor mechanical properties of most cell-seeded cartilage grafts used for cartilage repair can be attributed to the low level of collagen synthesized compared with native cartilage. In this study, the synthesis and assembly of collagen by chondrocytes in hydrogels were investigated, with particular attention paid to the role of cross-link formation in this process. Primary bovine chondrocytes were seeded in alginate and collagen synthesis was assessed in the presence and absence of beta-aminopropronitrile (BAPN), a potent inhibitor of the enzyme lysyl oxidase and collagen cross-link formation. Cultures on days 21, 35, and 49 were evaluated by stereology, biochemistry, and real-time reverse transcriptase-polymerase chain reaction. All measures of collagen synthesis (except hydroxyproline) significantly increased in the presence of 0.25 mM BAPN. By 35 days of culture, the average collagen fibril diameter was 62 +/- 10 nm in control cultures and 109 +/- 20 nm with BAPN supplementation. The collagen volume density increased from 5 +/- 3% in control cultures to 17 +/- 1% in the presence of BAPN. Likewise, the expression of cartilage-specific collagens (type II and XI) and aggrecan increased significantly as a result of BAPN culture. These findings demonstrate the prominent role of collagen cross-linking in collagen fibrillogenesis and suggest approaches by which collagen synthesis and assembly could be controlled in tissue-engineered constructs.

Published
2003

33. The new Southeast Asian goblin spider genus Aposphragisma (Araneae, Oonopidae): diversity and phylogeny

Author

Werner Graber, Marco Thoma, Yvonne Kranz-Baltensperger, Wolfgang Nentwig, Holger Frick, and Christian Kropf

Subjects
Spider, Range (biology), Ecology, Biodiversity, Zoology, Oonopidae, Biology, Southeast asian, biology.organism_classification, Sensu, Phylogenetics, Genus, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics
Abstract

The new genus Aposphragisma (Araneae, Oonopidae, Oonopinae) comprising the new species A. baltenspergerae, A. borgulai, A. brunomanseri, A. confluens, A. dayak, A. dentatum, A. draconigenum, A. hausammannae, A. helvetiorum, A. kolleri, A. menzi, A. monoceros, A. nocturnum, A. retifer, A. rimba, A. salewskii, A. scimitar, A. sepilok and A. stannum is described. It is characterised by very hard bodied, strongly sclerotized species with completely armoured prosoma and strongly sclerotized ventral and dorsal abdominal scuta. Aposphragisma gen. nov. is placed within the Gamasomorpha-group sensu Saaristo (2001). Descriptions and illustrations are given for all new species. A phylogenetic analysis based on 40 characters using Prethopalpus fosuma, Gamasomorpha asterobothros, G. cataphracta, G. seximpressa, Xestaspis biflocci, X. kandy and X. paulina as outgroup-taxa and Cortestina thaleri (Oonopidae, Sulsulinae) as the root is presented and discussed. Furthermore it is shown that females of Aposphragisma gen. nov. possess complex internal genitalia. The members of the new genus are ground-dwelling litter inhabitants restricted to Southeast Asian lowland and montane forests, with more than 60% of the species only known from single localities. They are presumed to be negatively affected by the massive destruction of pristine forest habitats within their range. This work has been conducted within the framework of the Planetary Biodiversity Inventory (PBI) of Oonopidae (see http://research.amnh.org/oonopidae).

Published
2014
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34. A new approach for cryofixation by high-pressure freezing

Author

Peter Eggli, Daniel Studer, Werner Graber, and Ashraf Al-Amoudi

Subjects
Histology, Tissue Fixation, Freeze Substitution, Nuclear engineering, Sample (material), Analytical chemistry, Pathology and Forensic Medicine, Cryofixation, chemistry.chemical_compound, Yeasts, Freezing, Animals, Peripheral Nerves, Jet (fluid), Temperature, Microtomy, Liquid nitrogen, Rats, Plant Leaves, Microscopy, Electron, Atmospheric Pressure, chemistry, Freeze substitution, Liver, Hydraulic fluid, Methylcyclohexane, Bar (unit)
Abstract

A newly designed high-pressure freezing machine for cryofixation was established and tested (Leica EMPACT), based on ideas originally proposed by Moor & Riehle in 1968. The new machine, essentially an improved version of our prototype, pressurizes the sample to 2000 bar in a small container (using methylcyclohexane as hydraulic fluid) and at the same time cools the outer surface of the container with a jet of liquid nitrogen. The advantage of this approach is that the machine uses little liquid nitrogen and can be built small and light. The machine is able to vitrify and freeze well a variety of specimens, for example, plant leaves, yeast cells, liver or nerve tissue (more samples are shown at: http://www.ana.unibe.ch/empact). Cooling efficiency is the same as in the traditional machines that use liquid nitrogen to pressurize and simultaneously cool the sample.

Published
2001

35. Ultrastructural association of hyaluronan with rat unmyelinated nerve fibres

Author

Werner Graber and Peters S. Eggli

Subjects
Central Nervous System, Pathology, medicine.medical_specialty, Histology, Nerve fibre, Cell, Skin Pigmentation, Biology, chemistry.chemical_compound, Nerve Fibers, Unmyelinated nerve, Peripheral Nervous System, medicine, Animals, Iris (anatomy), Hyaluronic Acid, Rats, Wistar, Neurons, integumentary system, General Neuroscience, Retinal, Cell Biology, Cell biology, Rats, carbohydrates (lipids), Microscopy, Electron, Membrane, medicine.anatomical_structure, nervous system, chemistry, Ultrastructure, Anatomy
Abstract

A potential association between hyaluronan and unmyelinated nerve fibres in the PNS (rat skin and iris) and CNS (rat retinal inner plexiform and nerve fibre layers) was investigated at the ultrastructural level using two different hyaluronan-binding probes (link protein-gold and aggrecan-gold). Neuronal and glial cell plasma membranes, as well as the periaxonal space in between, were specifically labelled, suggesting that hyaluronan is secreted by these cells and utilized locally. Intracelluarly, weak labelling of mitochondrial profiles was observed.

Published
1996

36. Morphology of new Indian/Indonesian Gamasomorpha and Xestaspis species (Araneae: Oonopidae)

Author

Beata Eichenberger, Wolfgang Nentwig, Yvonne Kranz-Baltensperger, Ricardo Ott, Christian Kropf, and Werner Graber

Subjects
Indonesian, biology, Phylogenetic tree, language, Species identification, Zoology, Animal Science and Zoology, Oonopidae, Morphology (biology), biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Intraspecific competition, language.human_language
Abstract

The oonopid genera Gamasomorpha and Xestaspis are very diverse and differ only by the shape of the booklung covers.New Indian/Indonesian Gamasomorpha and Xestaspis species, characterized by sternal furrows consisting of large, drop-like pits are described. Fourteen species are newly described (G. asterobothros n. sp., G. keri n. sp., G. petoteca n. sp., G. insomnia n. sp., G. ophiria n. sp., G. squalens n. sp., G. coniacris n. sp., G. raya n. sp., G. fricki n. sp., G. schmilingi n. sp., X. kandy n. sp., X. paulina n. sp., X. semengoh n. sp., X. biflocci n. sp.); two species are redescribed (G. seximpressa and G. taprobanica). The high significance of somatic features for species identification, the degree of intraspecific variationand the complexity of the female genitalia are remarkable. The current work suggests that a phylogenetic revision of thegenera Gamasomorpha and Xestaspis and an examination of the validity of the shape of the booklung covers of these two genera are needed.

Published
2012
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37. Ultrastructural distribution of hyaluronan in rat cornea

Author

Peter Eggli and Werner Graber

Subjects
Corneal endothelium, Tissue Fixation, Corneal Stroma, Biology, Epithelium, Cornea, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Hyaluronic acid, medicine, Extracellular, Animals, Hyaluronic Acid, Rats, Wistar, Corneal epithelium, Tissue Embedding, Histocytochemistry, Cell Membrane, Endothelium, Corneal, Sensory Systems, Rats, Ophthalmology, medicine.anatomical_structure, Membrane, Hyaluronan Receptors, chemistry, Biochemistry, Osmium tetroxide, Biophysics, Glutaraldehyde
Abstract

The ultrastructural distribution of hyaluronan (hyaluronic acid) in rat cornea was investigated using tissue processed by osmium tetroxide/microwave fixation and epoxy resin embedding or by glutaraldehyde/microwave fixation and Lowicryl K4M embedding. Hyaluronan-binding proteins (HABP) and link proteins (LP) coupled to 15-20 nm gold particles were used as novel ultrastructural markers in a one-step post-embedding procedure. These probes labelled the intra- and extracellular aspects of corneal epithelial and endothelial plasma membranes, as well as those of stromal keratocytes. In the corneal epithelium, wing and superficial cell plasma membranes were intensely stained, whereas basal cells exhibited a weak reaction on their stromal-facing surfaces and an intermediate one on their lateroapical aspects. In the corneal endothelium labelling was associated primarily with the apical and lateral plasma membranes. The labelling intensity associated with keratocyte plasma membranes was weak.

Published
1993

38. Ultrastructural localization of hyaluronan in myelin sheaths of the rat central and rat and human peripheral nervous systems using hyaluronan-binding protein-gold and link protein-gold

Author

E. van der Zypen, Peter Eggli, Werner Graber, J. Lucocq, and P. Ott

Subjects
Central Nervous System, Central nervous system, Hyaluronoglucosaminidase, Biology, Myelin, chemistry.chemical_compound, Hyaluronidase, Hyaluronic acid, medicine, Animals, Humans, Peripheral Nerves, Hyaluronic Acid, Myelin Sheath, Extracellular Matrix Proteins, integumentary system, Staining and Labeling, Histocytochemistry, General Neuroscience, Proteins, Rats, Inbred Strains, Anatomy, Cell biology, Rats, medicine.anatomical_structure, Hyaluronan Receptors, Osmium tetroxide, chemistry, Peripheral nervous system, Ultrastructure, Proteoglycans, Sciatic nerve, Gold, Carrier Proteins, medicine.drug, Protein Binding
Abstract

Neural tissue of central (rat spinal cord) and peripheral origin (rat sciatic nerve, nerve fascicles of rat skin and iris and of human conjunctiva) was processed by osmium tetroxide/microwave fixation and embedded in epoxy resin. Hyaluronan-binding proteins and link proteins coupled to 15–20-nm gold particles were used as markers in a one-step post-embedding procedure for identifying hyaluronan (hyaluronic acid) at the ultrastructural level. All myelin sheaths in both rat and human material were found to be intensely labelled. The specificity of the hyaluronan-binding probes was demonstrated by the total loss of labelling following treatment of sections with hyaluronidase or by preincubating either the probes with hyaluronan oligosaccharides or the sections with unlabelled hyaluronan-binding protein. The identified hyaluronan appears to be located extracellularly, but its precise role here remains to be elucidated.

Published
1992

41. Differential extraction of proteoglycans from cartilage tissue matrix compartments in isotonic buffer salt solutions and commercial tissue-culture media

Author

Ernst B. Hunziker and Werner Graber

Subjects
In situ, Histology, Buffers, Tissue culture, Culture Techniques, medicine, Animals, Growth Plate, Incubation, Fixation (histology), Chromatography, Staining and Labeling, biology, Cartilage, Rats, Inbred Strains, Culture Media, Extracellular Matrix, Rats, Staining, medicine.anatomical_structure, Proteoglycan, Biochemistry, biology.protein, Female, Proteoglycans, Isotonic Solutions, Anatomy, Differential extraction
Abstract

Small tissue blocks of native rat growth plate cartilage were incubated for short periods in one of several generally used isotonic buffer salt solutions or commercial tissue-culture media. The total percentage (approximately 12) of [35S]-labeled proteoglycans (PG) extracted from cartilage matrix under these conditions was not significantly influenced by either the chemical composition of the medium or the presence of a protease inhibitor. Morphological examination of incubated tissue after fixation in the presence of ruthenium hexamine trichloride (RHT) (included to preserve PG in situ) revealed, however, that the PG staining profiles across cartilage matrix varied with the composition of the incubation medium used. The various susceptibilities exhibited by PG within the different matrix compartments to selective extraction was estimated semi-quantitatively. The observed effects may prove useful in extracting these molecules differentially from cartilage matrix compartments.

Published
1986
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42. FOXC2 and fluid shear stress stabilize postnatal lymphatic vasculature

Author

Ines Martinez-Corral, Mauro Delorenzi, Amélie Sabine, Elgin Gulpinar, Tatiana V. Petrova, Brenda R. Kwak, Joshua P. Scallan, Taija Makinen, Sagrario Ortega, Nadine Zangger, Yan Agalarov, Muriel Jaquet, Naoyuki Miura, Werner Graber, Michael Davis, Friedemann Kiefer, Esther Bovay, Cansaran Saygili Demir, Wataru Kimura, and Valentin Djonov

Subjects
Transcription, Genetic, government.form_of_government, 610 Medicine & health, Apoptosis, ddc:616.07, Biology, Transfection, Cell junction, Lymphatic System, Mice, Stress Fibers, Animals, Humans, Mechanotransduction, RNA, Small Interfering, Cells, Cultured, Cytoskeleton, Adaptor Proteins, Signal Transducing, Lymphatic Vessels, ddc:616, Mice, Knockout, Hippo signaling pathway, Cell Cycle, Klinisk medicin, Endothelial Cells, Forkhead Transcription Factors, YAP-Signaling Proteins, General Medicine, Cell cycle, Phosphoproteins, 3. Good health, Cell biology, Endothelial stem cell, Mice, Inbred C57BL, Lymphatic Endothelium, Lymphatic system, Intercellular Junctions, Vascular endothelial growth factor C, government, RNA Interference, Stress, Mechanical, Clinical Medicine, Rheology, Acyltransferases, Cell Division, Research Article, Transcription Factors
Abstract

Biomechanical forces, such as fluid shear stress, govern multiple aspects of endothelial cell biology. In blood vessels, disturbed flow is associated with vascular diseases, such as atherosclerosis, and promotes endothelial cell proliferation and apoptosis. Here, we identified an important role for disturbed flow in lymphatic vessels, in which it cooperates with the transcription factor FOXC2 to ensure lifelong stability of the lymphatic vasculature. In cultured lymphatic endothelial cells, FOXC2 inactivation conferred abnormal shear stress sensing, promoting junction disassembly and entry into the cell cycle. Loss of FOXC2-dependent quiescence was mediated by the Hippo pathway transcriptional coactivator TAZ and, ultimately, led to cell death. In murine models, inducible deletion of Foxc2 within the lymphatic vasculature led to cell-cell junction defects, regression of valves, and focal vascular lumen collapse, which triggered generalized lymphatic vascular dysfunction and lethality. Together, our work describes a fundamental mechanism by which FOXC2 and oscillatory shear stress maintain lymphatic endothelial cell quiescence through intercellular junction and cytoskeleton stabilization and provides an essential link between biomechanical forces and endothelial cell identity that is necessary for postnatal vessel homeostasis. As FOXC2 is mutated in lymphedema-distichiasis syndrome, our data also underscore the role of impaired mechanotransduction in the pathology of this hereditary human disease.

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