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3. Listeria monocytogenes spreads within the brain by actin-based intra-axonal migration

Author

Henke D Rupp S Gaschen V Stoffel MH Frey J Vandevelde M Oevermann A.

Subjects
nervous system
Abstract

Listeria monocytogenes rhombencephalitis is a severe progressive disease despite a swift intrathecal immune response. Based on previous observations we hypothesized that the disease progresses by intra axonal spread within the central nervous system. To test this hypothesis neuroanatomical mapping of lesions immunofluorescence analysis and electron microscopy were performed on brains of ruminants with naturally occurring rhombencephalitis. In addition infection assays were performed in bovine brain cell cultures. Mapping of lesions revealed a consistent pattern with a preferential affection of certain nuclear areas and white matter tracts indicating that Listeria monocytogenes spreads intra axonally within the brain along interneuronal connections. These results were supported by immunofluorescence and ultrastructural data localizing Listeria monocytogenes inside axons and dendrites associated with networks of fibrillary structures consistent with actin tails. In vitro infection assays confirmed that bacteria were moving within axon like processes by employing their actin tail machinery. Remarkably in vivo neutrophils invaded the axonal space and the axon itself apparently by moving between split myelin lamellae of intact myelin sheaths. This intra axonal invasion of neutrophils was associated with various stages of axonal degeneration and bacterial phagocytosis. Paradoxically the ensuing adaxonal microabscesses appeared to provide new bacterial replication sites thus supporting further bacterial spread. In conclusion intra axonal bacterial migration and possibly also the innate immune response play an important role in the intracerebral spread of the agent and hence the progression of listeric rhombencephalitis.

Published
2015

4. Ranid herpesvirus 3 and proliferative dermatitis in free-ranging wild common frogs (Rana temporaria)

Author

Origgi, F C, Schmidt, B R, Lohmann, P, Otten, P, Akdesir, E, Gaschen, V, Aguilar-Bultet, L, Wahli, T, Sattler, U, Stoffel, M H, University of Zurich, and Origgi, F C

Subjects
10127 Institute of Evolutionary Biology and Environmental Studies, skin, amphibians, 3400 General Veterinary, wildlife, frogs, 570 Life sciences, biology, 590 Animals (Zoology), pathology, Alloherpesviruses, Ranid herpesvirus 3
Published
2017
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8. Emergence of Canine Distemper Virus Strains With Modified Molecular Signature and Enhanced Neuronal Tropism Leading to High Mortality in Wild Carnivores

Author

Origgi, F. C., primary, Plattet, P., additional, Sattler, U., additional, Robert, N., additional, Casaubon, J., additional, Mavrot, F., additional, Pewsner, M., additional, Wu, N., additional, Giovannini, S., additional, Oevermann, A., additional, Stoffel, M. H., additional, Gaschen, V., additional, Segner, H., additional, and Ryser-Degiorgis, M.-P., additional

Published
2012
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12. Novel immortalization approach defers senescence of cultured canine adipose-derived mesenchymal stromal cells.

Author

Stojiljković A, Gaschen V, Forterre F, Rytz U, Stoffel MH, and Bluteau J

Subjects
Animals, Cell Differentiation genetics, Cells, Cultured, Cellular Senescence physiology, Dogs, Mesenchymal Stem Cells metabolism
Abstract

In the last decades, the scientific community spared no effort to elucidate the therapeutic potential of mesenchymal stromal cells (MSCs). Unfortunately, in vitro cellular senescence occurring along with a loss of proliferative capacity is a major drawback in view of future therapeutic applications of these cells in the field of regenerative medicine. Even though insight into the mechanisms of replicative senescence in human medicine has evolved dramatically, knowledge about replicative senescence of canine MSCs is still scarce. Thus, we developed a high-content analysis workflow to simultaneously investigate three important characteristics of senescence in canine adipose-derived MSCs (cAD-MSCs): morphological changes, activation of the cell cycle arrest machinery, and increased activity of the senescence-associated β-galactosidase. We took advantage of this tool to demonstrate that passaging of cAD-MSCs results in the appearance of a senescence phenotype and proliferation arrest. This was partially prevented upon immortalization of these cells using a newly designed PiggyBac™ Transposon System, which allows for the expression of the human polycomb ring finger proto-oncogene BMI1 and the human telomerase reverse transcriptase under the same promotor. Our results indicate that cAD-MSCs immortalized with this new vector maintain their proliferation capacity and differentiation potential for a longer time than untreated cAD-MSCs. This study not only offers a workflow to investigate replicative senescence in eukaryotic cells with a high-content analysis approach but also paves the way for a rapid and effective generation of immortalized MSC lines. This promotes a better understanding of these cells in view of future applications in regenerative medicine., (© 2021. The Author(s), under exclusive licence to American Aging Association.)

Published
2022
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13. Herpesvirus-Associated Proliferative Skin Disease in Frogs and Toads: Proposed Pathogenesis.

Author

Origgi FC, Otten P, Lohmann P, Sattler U, Wahli T, Lavazza A, Gaschen V, and Stoffel MH

Subjects
Animals, Anura, Bufonidae, Herpesviridae genetics, Herpesviridae Infections veterinary, Skin Diseases veterinary
Abstract

A comparative study was carried out on common and agile frogs ( Rana temporaria and R. dalmatina ) naturally infected with ranid herpesvirus 3 (RaHV3) and common toads ( Bufo bufo ) naturally infected with bufonid herpesvirus 1 (BfHV1) to investigate common pathogenetic pathways and molecular mechanisms based on macroscopic, microscopic, and ultrastructural pathology as well as evaluation of gene expression. Careful examination of the tissue changes, supported by in situ hybridization, at different stages of development in 6 frogs and 14 toads revealed that the skin lesions are likely transient, and part of a tissue cycle necessary for viral replication in the infected hosts. Transcriptomic analysis, carried out on 2 naturally infected and 2 naïve common frogs ( Rana temporaria ) and 2 naturally infected and 2 naïve common toads ( Bufo bufo ), revealed altered expression of genes involved in signaling and cell remodeling in diseased animals. Finally, virus transcriptomics revealed that both RaHV3 and BfHV1 had relatively high expression of a putative immunomodulating gene predicted to encode a decoy receptor for tumor necrosis factor in the skin of the infected hosts. Thus, the comparable lesions in infected frogs and toads appear to reflect a concerted epidermal and viral cycle, with presumptive involvement of signaling and gene remodeling host and immunomodulatory viral genes.

Published
2021
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14. Time-Dependent Internalization of Polymer-Coated Silica Nanoparticles in Brain Endothelial Cells and Morphological and Functional Effects on the Blood-Brain Barrier.

Author

Bittner A, Gosselet F, Sevin E, Dehouck L, Ducray AD, Gaschen V, Stoffel MH, Cho H, and Mevissen M

Subjects
Animals, B-Lymphocytes immunology, Biological Transport physiology, Blood-Brain Barrier physiology, Brain blood supply, Brain cytology, Brain metabolism, Cattle, Cell Survival drug effects, Cells, Cultured, Humans, Laser Therapy methods, Lymphocyte Activation immunology, NF-kappa B metabolism, Pericytes metabolism, Blood-Brain Barrier drug effects, Cerebral Revascularization methods, Endothelial Cells metabolism, Nanoparticles metabolism, Polymers pharmacology, Silicon Dioxide pharmacology
Abstract

Nanoparticle (NP)-assisted procedures including laser tissue soldering (LTS) offer advantages compared to conventional microsuturing, especially in the brain. In this study, effects of polymer-coated silica NPs used in LTS were investigated in human brain endothelial cells (ECs) and blood-brain barrier models. In the co-culture setting with ECs and pericytes, only the cell type directly exposed to NPs displayed a time-dependent internalization. No transfer of NPs between the two cell types was observed. Cell viability was decreased relatively to NP exposure duration and concentration. Protein expression of the nuclear factor ĸ-light-chain-enhancer of activated B cells and various endothelial adhesion molecules indicated no initiation of inflammation or activation of ECs after NP exposure. Differentiation of CD34+ ECs into brain-like ECs co-cultured with pericytes, blood-brain barrier (BBB) characteristics were obtained. The established endothelial layer reduced the passage of integrity tracer molecules. NP exposure did not result in alterations of junctional proteins, BBB formation or its integrity. In a 3-dimensional setup with an endothelial tube formation and tight junctions, barrier formation was not disrupted by the NPs and NPs do not seem to cross the blood-brain barrier. Our findings suggest that these polymer-coated silica NPs do not damage the BBB.

Published
2021
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15. Isolation of Human Small Extracellular Vesicles and Tracking of their Uptake by Retinal Pigment Epithelial Cells In Vitro.

Author

Marcu IC, Eberhard N, Yerly A, Balmer V, Hemphill A, Mogel H, Gaschen V, Stoffel MH, and Bluteau J

Subjects
Biological Transport, Cells, Cultured, Extracellular Vesicles ultrastructure, HEK293 Cells, Humans, Retinal Pigment Epithelium ultrastructure, Extracellular Vesicles metabolism, Retinal Pigment Epithelium metabolism
Abstract

Small extracellular vesicles (EVs) are among the most frequently investigated EVs and play major roles in intercellular communication by delivering various cargo molecules to target cells. They could potentially represent an alternative delivery strategy to treat ocular toxoplasmosis, a parasitosis affecting the retinal pigment epithelium (RPE). To date, the uptake of human small EVs by RPE cells has never been reported. In this study, we report on the intracellular uptake of fluorescently labelled human urine and fibroblast-derived small EVs by human RPE cells. In summary, both dye-labelled urinary small EVs and small EVs obtained from fibroblasts stably expressing membrane-bound green fluorescent protein were successfully internalized by RPE cells as revealed by immunohistochemistry. In recipient ARPE19 cells, BODIPY-labelled small EVs were found in close vicinity to the parasite Toxoplasma gondii. Additionally, an ultrastructural method was enabled to distinguish between labelled exogenous and endogenous small EVs within target cells.

Published
2020
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16. Abnormal keratinocyte differentiation in the nasal planum of Labrador Retrievers with hereditary nasal parakeratosis (HNPK).

Author

Bannoehr J, Balmer P, Stoffel MH, Jagannathan V, Gaschen V, Kühni K, Sayar B, Drögemüller M, Howald D, Wiener DJ, Leeb T, Welle MM, Müller EJ, and Roosje PJ

Subjects
Animals, Dogs, Female, Male, Keratinocytes metabolism, Keratinocytes pathology, Antigens, Differentiation genetics, Antigens, Differentiation metabolism, Dog Diseases genetics, Dog Diseases metabolism, Dog Diseases pathology, Genetic Diseases, Inborn genetics, Genetic Diseases, Inborn metabolism, Genetic Diseases, Inborn pathology, Genetic Diseases, Inborn veterinary, Nose Diseases genetics, Nose Diseases metabolism, Nose Diseases pathology, Nose Diseases veterinary, Parakeratosis genetics, Parakeratosis metabolism, Parakeratosis pathology, Parakeratosis veterinary
Abstract

Hereditary nasal parakeratosis (HNPK) is an inherited disorder described in Labrador Retrievers and Greyhounds. It has been associated with breed-specific variants in the SUV39H2 gene encoding a histone 3 methyltransferase involved in epigenetic silencing. Formalin-fixed biopsies of the nasal planum of Labrador Retrievers were screened by immunofluorescence microscopy for the presence and distribution of epidermal proliferation and differentiation markers. Gene expression of these markers was further analysed using RNA sequencing (RNA-seq) and ultrastructural epidermal differences were investigated by electron microscopy. Differentiation of the nasal planum in the basal and suprabasal epidermal layers of HNPK-affected dogs (n = 6) was similar compared to control dogs (n = 6). In the upper epidermal layers, clear modifications were noticed. Loricrin protein was absent in HNPK-affected nasal planum sections in contrast to sections of the same location of control dogs. However, loricrin was present in the epidermis of paw pads and abdominal skin from HNPK dogs and healthy control dogs. The patterns of keratins K1, K10 and K14, were not markedly altered in the nasal planum of HNPK-affected dogs while the expression of the terminal differentiation marker involucrin appeared less regular. Based on RNA-seq, LOR and IVL expression levels were significantly decreased, while KRT1, KRT10 and KRT14 levels were up-regulated (log2fold-changes of 2.67, 3.19 and 1.71, respectively) in HNPK-affected nasal planum (n = 3) compared to control dogs (n = 3). Electron microscopical analysis revealed structural alterations in keratinocytes and stratum corneum, and disrupted keratinocyte adhesions and distended intercellular spaces in lesional samples (n = 3) compared to a sample of a healthy control dog (n = 1). Our findings demonstrate aberrant keratinocyte terminal differentiation of the nasal planum of HNPK-affected Labrador Retrievers and provide insights into biological consequences of this inactive SUV39H2 gene variant., Competing Interests: The authors have declared that no competing interests exist.

Published
2020
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18. Determination of host proteins composing the microenvironment of coronavirus replicase complexes by proximity-labeling.

Author

V'kovski P, Gerber M, Kelly J, Pfaender S, Ebert N, Braga Lagache S, Simillion C, Portmann J, Stalder H, Gaschen V, Bruggmann R, Stoffel MH, Heller M, Dijkman R, and Thiel V

Subjects
Animals, Cell Line, Coronavirus genetics, Coronavirus physiology, Coronavirus Infections virology, Cytoplasm metabolism, Cytoplasm virology, Fibroblasts metabolism, Fibroblasts ultrastructure, Fibroblasts virology, Host-Pathogen Interactions, Humans, Mice, Microscopy, Electron, Transmission, Protein Biosynthesis, RNA, Viral genetics, RNA-Dependent RNA Polymerase genetics, Coronavirus metabolism, Coronavirus Infections metabolism, RNA, Viral metabolism, RNA-Dependent RNA Polymerase metabolism, Virus Replication
Abstract

Positive-sense RNA viruses hijack intracellular membranes that provide niches for viral RNA synthesis and a platform for interactions with host proteins. However, little is known about host factors at the interface between replicase complexes and the host cytoplasm. We engineered a biotin ligase into a coronaviral replication/transcription complex (RTC) and identified >500 host proteins constituting the RTC microenvironment. siRNA-silencing of each RTC-proximal host factor demonstrated importance of vesicular trafficking pathways, ubiquitin-dependent and autophagy-related processes, and translation initiation factors. Notably, detection of translation initiation factors at the RTC was instrumental to visualize and demonstrate active translation proximal to replication complexes of several coronaviruses. Collectively, we establish a spatial link between viral RNA synthesis and diverse host factors of unprecedented breadth. Our data may serve as a paradigm for other positive-strand RNA viruses and provide a starting point for a comprehensive analysis of critical virus-host interactions that represent targets for therapeutic intervention., Competing Interests: PV, MG, JK, SP, NE, SB, CS, JP, HS, VG, RB, MS, MH, RD, VT No competing interests declared, (© 2019, V'kovski et al.)

Published
2019
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19. The Small-Compound Inhibitor K22 Displays Broad Antiviral Activity against Different Members of the Family Flaviviridae and Offers Potential as a Panviral Inhibitor.

Author

García-Nicolás O, V'kovski P, Vielle NJ, Ebert N, Züst R, Portmann J, Stalder H, Gaschen V, Vieyres G, Stoffel M, Schweizer M, Summerfield A, Engler O, Pietschmann T, Todt D, Alves MP, Thiel V, and Pfaender S

Subjects
Aedes, Animals, Cell Line, Cell Membrane virology, Chlorocebus aethiops, Flaviviridae Infections virology, Humans, Interferon-alpha pharmacology, RNA, Viral genetics, Ribavirin pharmacology, Vero Cells, Virus Replication drug effects, Antiviral Agents pharmacology, Cell Membrane drug effects, Flaviviridae drug effects, Flaviviridae Infections drug therapy
Abstract

The virus family Flaviviridae encompasses several viruses, including (re)emerging viruses which cause widespread morbidity and mortality throughout the world. Members of this virus family are positive-strand RNA viruses and replicate their genome in close association with reorganized intracellular host cell membrane compartments. This evolutionarily conserved strategy facilitates efficient viral genome replication and contributes to evasion from host cell cytosolic defense mechanisms. We have previously described the identification of a small-compound inhibitor, K22, which exerts a potent antiviral activity against a broad range of coronaviruses by targeting membrane-bound viral RNA replication. To analyze the antiviral spectrum of this inhibitor, we assessed the inhibitory potential of K22 against several members of the Flaviviridae family, including the reemerging Zika virus (ZIKV). We show that ZIKV is strongly affected by K22. Time-of-addition experiments revealed that K22 acts during a postentry phase of the ZIKV life cycle, and combination regimens of K22 together with ribavirin (RBV) or interferon alpha (IFN-α) further increased the extent of viral inhibition. Ultrastructural electron microscopy studies revealed severe alterations of ZIKV-induced intracellular replication compartments upon infection of K22-treated cells. Importantly, the antiviral activity of K22 was demonstrated against several other members of the Flaviviridae family. It is tempting to speculate that K22 exerts its broad antiviral activity against several positive-strand RNA viruses via a similar mechanism and thereby represents an attractive candidate for development as a panviral inhibitor., (Copyright © 2018 García-Nicolás et al.)

Published
2018
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20. System immunology-based identification of blood transcriptional modules correlating to antibody responses in sheep.

Author

Braun RO, Brunner L, Wyler K, Auray G, García-Nicolás O, Python S, Zumkehr B, Gaschen V, Stoffel MH, Collin N, Barnier-Quer C, Bruggmann R, and Summerfield A

Abstract

Inactivated vaccines lack immunogenicity and therefore require potent adjuvants. To understand the in vivo effects of adjuvants, we used a system immunology-based analysis of ovine blood transcriptional modules (BTMs) to dissect innate immune responses relating to either antibody or haptoglobin levels. Using inactivated foot-and-mouth disease virus as an antigen, we compared non-adjuvanted to liposomal-formulated vaccines complemented or not with TLR4 and TLR7 ligands. Early after vaccination, BTM relating to myeloid cells, innate immune responses, dendritic cells, and antigen presentation correlated positively, whereas BTM relating to T and natural killer cells, as well as cell cycle correlated negatively with antibody responses. Interestingly, similar BTM also correlated with haptoglobin, but in a reversed manner, indicating that acute systemic inflammation is not beneficial for early antibody responses. Analysis of vaccine-dependent BTM modulation showed that liposomal formulations induced similar responses to those correlating to antibody levels. Surprisingly, the addition of the TLR ligands appeared to reduce early immunological perturbations and mediated anti-inflammatory effects, despite promoting antibody responses. When pre-vaccination BTM were analyzed, we found that high vaccine responders expressed higher levels of many BTM relating to cell cycle, antigen-presenting cells, and innate responses as compared with low responders. In conclusion, we have transferred human BTM to sheep and identified early vaccine-induced responses associated with antibody levels or unwanted inflammation in a heterogeneous and small group of animals. Such readouts are applicable to other veterinary species and very useful to identify efficient vaccine adjuvants, their mechanism of action, and factors related to low responders., Competing Interests: The authors declare no competing interests.

Published
2018
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21. Bufonid herpesvirus 1 (BfHV1) associated dermatitis and mortality in free ranging common toads (Bufo bufo) in Switzerland.

Author

Origgi FC, Schmidt BR, Lohmann P, Otten P, Meier RK, Pisano SRR, Moore-Jones G, Tecilla M, Sattler U, Wahli T, Gaschen V, and Stoffel MH

Subjects
Amino Acid Sequence genetics, Animals, Dermatitis pathology, Dermatitis veterinary, Genome, Viral genetics, Herpesviridae pathogenicity, Herpesvirus 1, Human genetics, Herpesvirus 1, Human pathogenicity, Humans, Phylogeny, Switzerland, Bufo bufo virology, DNA Viruses genetics, Dermatitis virology, Herpesviridae genetics
Abstract

Here we report the discovery and partial characterization of a novel herpesvirus tentatively named Bufonid herpesvirus 1 (BfHV1) from severe dermatitis in free ranging common toads (Bufo bufo) in Switzerland. The disease has been observed in toads every year since 2014, in spring, during the mating season, at different and distant locations. The virus is found in the skin and occasionally in the brain of infected toads. The genome of the virus is at least 158 Kb long and contains at least 152 open reading frames with a minimal length of 270 nt. The genome of BfHV1 contains all the signature genes that are present in alloherpesviruses. Phylogenetic analysis based on the amino acid sequence of the DNA polymerase and terminase proteins positions the novel virus among the members of the genus Batrachovirus, family Alloherpesviridae. This is the first herpesvirus ever characterized in common toads.

Published
2018
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23. Listeria monocytogenes spreads within the brain by actin-based intra-axonal migration.

Author

Henke D, Rupp S, Gaschen V, Stoffel MH, Frey J, Vandevelde M, and Oevermann A

Subjects
Animals, Axons, Brain cytology, Cattle, Cattle Diseases pathology, Encephalitis microbiology, Encephalitis pathology, Goat Diseases pathology, Goats, Movement, Sheep, Sheep Diseases pathology, Brain microbiology, Cattle Diseases microbiology, Encephalitis veterinary, Goat Diseases microbiology, Listeria monocytogenes physiology, Listeriosis microbiology, Sheep Diseases microbiology
Abstract

Listeria monocytogenes rhombencephalitis is a severe progressive disease despite a swift intrathecal immune response. Based on previous observations, we hypothesized that the disease progresses by intra-axonal spread within the central nervous system. To test this hypothesis, neuroanatomical mapping of lesions, immunofluorescence analysis, and electron microscopy were performed on brains of ruminants with naturally occurring rhombencephalitis. In addition, infection assays were performed in bovine brain cell cultures. Mapping of lesions revealed a consistent pattern with a preferential affection of certain nuclear areas and white matter tracts, indicating that Listeria monocytogenes spreads intra-axonally within the brain along interneuronal connections. These results were supported by immunofluorescence and ultrastructural data localizing Listeria monocytogenes inside axons and dendrites associated with networks of fibrillary structures consistent with actin tails. In vitro infection assays confirmed that bacteria were moving within axon-like processes by employing their actin tail machinery. Remarkably, in vivo, neutrophils invaded the axonal space and the axon itself, apparently by moving between split myelin lamellae of intact myelin sheaths. This intra-axonal invasion of neutrophils was associated with various stages of axonal degeneration and bacterial phagocytosis. Paradoxically, the ensuing adaxonal microabscesses appeared to provide new bacterial replication sites, thus supporting further bacterial spread. In conclusion, intra-axonal bacterial migration and possibly also the innate immune response play an important role in the intracerebral spread of the agent and hence the progression of listeric rhombencephalitis., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published
2015
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24. Invasion and persistence of Mycoplasma bovis in embryonic calf turbinate cells.

Author

Bürki S, Gaschen V, Stoffel MH, Stojiljkovic A, Frey J, Kuehni-Boghenbor K, and Pilo P

Subjects
Animals, Cattle, Embryo, Mammalian microbiology, Mycoplasma Infections microbiology, Cattle Diseases microbiology, Mycoplasma Infections veterinary, Mycoplasma bovis physiology, Turbinates microbiology
Abstract

Mycoplasma bovis is a wall-less bacterium causing bovine mycoplasmosis, a disease showing a broad range of clinical manifestations in cattle. It leads to enormous economic losses to the beef and dairy industries. Antibiotic treatments are not efficacious and currently no efficient vaccine is available. Moreover, mechanisms of pathogenicity of this bacterium are not clear, as few virulence attributes are known. Microscopic observations of necropsy material suggest the possibility of an intracellular stage of M. bovis. We used a combination of a gentamicin protection assay, a variety of chemical treatments to block mycoplasmas entry in eukaryotic cells, and fluorescence and transmission electron microscopy to investigate the intracellular life of M. bovis in calf turbinate cells. Our findings indicate that M. bovis invades and persists in primary embryonic calf turbinate cells. Moreover, M. bovis can multiply within these cells. The intracellular phase of M. bovis may represent a protective niche for this pathogen and contribute to its escape from the host's immune defense as well as avoidance of antimicrobial agents.

Published
2015
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25. Equine pastern vasculitis: a clinical and histopathological study.

Author

Psalla D, Rüfenacht S, Stoffel MH, Chiers K, Gaschen V, Doherr MG, Gerber V, and Welle MM

Subjects
Animals, Horse Diseases etiology, Horses, Pigmentation, Retrospective Studies, Skin Diseases diagnosis, Skin Diseases drug therapy, Skin Diseases etiology, Vasculitis diagnosis, Vasculitis drug therapy, Vasculitis etiology, Horse Diseases diagnosis, Horse Diseases drug therapy, Skin Diseases veterinary, Vasculitis veterinary
Abstract

Equine pastern vasculitis is clinically challenging and the underlying aetiopathogenesis is unclear. The aims of this retrospective study were to establish histopathological criteria for pastern vasculitis, to look for an underlying cause, to investigate whether the histopathological lesions are associated with a distinct clinical picture, to assess if and how the clinical picture varies, and to determine the treatment response. Skin biopsies and clinical data from 20 horses with a diagnosis of vasculitis of the distal extremities were investigated and histology was compared to biopsies from healthy horses. It was concluded that intramural inflammatory cells, leukocytoclasia with nuclear dust, thickening and oedema of the vessel walls, and microhaemorrhages are highly specific histological findings in equine pastern vasculitis. Based on the feedback from the clinicians, the lesions were mostly seen on the lateral and medial aspects of un-pigmented legs. Lesions in white skin were characterised by exudation and crusts, whereas those in pigmented skin were alopecic and characterised by scaling. The response to treatment was poor and the prognosis guarded. No association was found between any of the histopathological findings and a distinct clinical picture. An underlying cause of equine pastern vasculitis could not be identified. Considering the large number of confounding factors, the causative agents are difficult to identify, but may involve drugs or a hypersensitivity reactions to yet unknown antigens., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2013
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26. Actin-mediated plasma membrane plasticity of the intracellular parasite Theileria annulata.

Author

Kühni-Boghenbor K, Ma M, Lemgruber L, Cyrklaff M, Frischknecht F, Gaschen V, Stoffel M, and Baumgartner M

Subjects
Cell Shape, Cryoelectron Microscopy, Cytoplasm parasitology, Electron Microscope Tomography, Actins metabolism, Cell Membrane physiology, Host-Pathogen Interactions, Theileria annulata cytology, Theileria annulata pathogenicity
Abstract

Pathogen-host interactions are modulated at multiple levels by both the pathogen and the host cell. Modulation of host cell functions is particularly intriguing in the case of the intracellular Theileria parasite, which resides as a multinucleated schizont free in the cytosol of the host cell. Direct contact between the schizont plasma membrane and the cytoplasm enables the parasite to affect the function of host cell proteins through direct interaction or through the secretion of regulators. Structure and dynamics of the schizont plasma membrane are poorly understood and whether schizont membrane dynamics contribute to parasite propagation is not known. Here we show that the intracellular Theileria schizont can dynamically change its shape by actively extending filamentous membrane protrusions. We found that isolated schizonts bound monomeric tubulin and in vitro polymerized microtubules, and monomeric tubulin polymerized into dense assemblies at the parasite surface. However, we established that isolated Theileria schizonts free of host cell microtubules maintained a lobular morphology and extended filamentous protrusions, demonstrating that host microtubules are dispensable both forthe maintenance of lobular schizont morphology and for the generation of membrane protrusions. These protrusions resemble nanotubes and extend in an actin polymerization-dependent manner; using cryo-electron tomography, we detected thin actin filaments beneath these protrusions, indicating that their extension is driven by schizont actin polymerization. Thus the membrane of the schizont and its underlying actin cytoskeleton possess intrinsic activity for shape control and likely function as a peri-organelle to interact with and manipulate host cell components., (© 2012 Blackwell Publishing Ltd.)

Published
2012
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27. Chondrocyte mechanotransduction: effects of compression on deformation of intracellular organelles and relevance to cellular biosynthesis.

Author

Szafranski JD, Grodzinsky AJ, Burger E, Gaschen V, Hung HH, and Hunziker EB

Subjects
Animals, Cattle, Cell Shape, Cell Size, Cells, Cultured, Chondrocytes ultrastructure, Extracellular Matrix ultrastructure, Freezing, Microscopy, Electron, Organelles ultrastructure, Osmotic Pressure, Pressure, Chondrocytes metabolism, Mechanotransduction, Cellular physiology, Organelles metabolism
Abstract

Objective: The effects of mechanical deformation of intact cartilage tissue on chondrocyte biosynthesis in situ have been well documented, but the mechanotransduction pathways that regulate such phenomena have not been elucidated completely. The goal of this study was to examine the effects of tissue deformation on the morphology of a range of intracellular organelles which play a major role in cell biosynthesis and metabolism., Design: Using chemical fixation, high pressure freezing, and electron microscopy, we imaged chondrocytes within mechanically compressed cartilage explants at high magnification and quantitatively and qualitatively assessed changes in organelle volume and shape caused by graded levels of loading., Results: Compression of the tissue caused a concomitant reduction in the volume of the extracellular matrix (ECM), chondrocyte, nucleus, rough endoplasmic reticulum, and mitochondria. Interestingly, however, the Golgi apparatus was able to resist loss of intraorganelle water and retain a portion of its volume relative to the remainder of the cell. These combined results suggest that a balance between intracellular mechanical and osmotic gradients govern the changes in shape and volume of the organelles as the tissue is compressed., Conclusions: Our results lead to the interpretive hypothesis that organelle volume changes appear to be driven mainly by osmotic interactions while shape changes are mediated by structural factors, such as cytoskeletal interactions that may be linked to extracellular matrix deformations. The observed volume and shape changes of the chondrocyte organelles and the differential behavior between organelles during tissue compression provide evidence for an important mechanotransduction pathway linking translational and post-translational events (e.g., elongation and sulfation of glycosaminoglycans (GAGs) in the Golgi) to cell deformation.

Published
2004
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28. Ultrastructural determinants of murine achilles tendon strength during healing.

Author

Battaglia TC, Clark RT, Chhabra A, Gaschen V, Hunziker EB, and Mikic B

Subjects
Achilles Tendon surgery, Animals, Collagen ultrastructure, Equipment Failure Analysis, Male, Mice, Mice, Inbred A, Microscopy, Electron, Tensile Strength, Achilles Tendon physiology, Achilles Tendon ultrastructure, Collagen physiology, Wound Healing physiology
Abstract

The mechanisms by which tendon strength is established during growth and development and restored following injury are not completely understood and are likely to be complex, multifactorial processes. Several studies examining the relationship between mechanical behavior and ultrastructural characteristics of tendons and ligaments during growth and maturation suggest that collagen fibril diameter is strongly correlated with tendon strength. Because of the similarities between development and repair processes of musculoskeletal tissues, increases in tendon strength during healing may be related to increases in fibril ultrastructural parameters such as fibril size, numerical density, and area fraction. In this study, we compared murine Achilles tendons at various time points after tenotomy with sham-operated controls in tensile tests to failure and examined tendons using electron microscopy to assess collagen fibril ultrastructure. We found that in the 6-week period following Achilles tenotomy, fibril mean diameter remained significantly smaller than sham-side diameter by a factor of 2-3. Despite the persistently small fibril size, increasing numerical density resulted in a gradual increase in fibril area fraction. Biomechanical strength did not reach that of intact tendons until some time between 5 and 7 weeks, approximately the same time period when fibril area fraction began to approach sham values. These data suggest that parameters other than collagen fibril size are most responsible for increased tendon strength during healing.

Published
2003

29. Collagen fibrillogenesis by chondrocytes in alginate.

Author

Wong M, Siegrist M, Gaschen V, Park Y, Graber W, and Studer D

Subjects
Aminopropionitrile pharmacology, Animals, Cattle, Chondrocytes drug effects, Collagen drug effects, Collagen ultrastructure, Extracellular Matrix drug effects, Extracellular Matrix ultrastructure, Glycosaminoglycans metabolism, Hydroxyproline metabolism, Alginates, Chondrocytes metabolism, Collagen metabolism, Extracellular Matrix metabolism, Glucuronic Acid, Hexuronic Acids
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
2002
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30. GDF-5 deficiency in mice leads to disruption of tail tendon form and function.

Author

Clark RT, Johnson TL, Schalet BJ, Davis L, Gaschen V, Hunziker EB, Oldberg A, and Mikic B

Subjects
Animals, Collagen Type I ultrastructure, DNA metabolism, Elasticity, Growth Differentiation Factor 5, Growth Substances genetics, Male, Mice, Mice, Mutant Strains, Microscopy, Electron, Molecular Weight, Proteoglycans metabolism, Stress, Mechanical, Tail ultrastructure, Tendons ultrastructure, Bone Morphogenetic Proteins, Collagen Type I biosynthesis, Growth Substances deficiency, Tail abnormalities, Tail growth & development, Tendons abnormalities, Tendons growth & development
Abstract

Although the biological factors which regulate tendon homeostasis are poorly understood, recent evidence suggests that Growth and Differentiation Factor-5 (GDF-5) may play a role in this important process. The purpose of this study was to investigate the effect of GDF-5 deficiency on mouse tail tendon using the brachypodism mouse model. We hypothesized that GDF-5 deficient tail tendon would exhibit altered composition, ultrastructure, and biomechanical behavior when compared to heterozygous control littermates. Mutant tail tendons did not display any compositional differences in sulfated glycosaminoglycans (GAG/DNA), collagen (hydroxyproline/DNA), or levels of fibromodulin, decorin, or lumican. However, GDF-5 deficiency did result in a 17% increase in the proportion of medium diameter (100-225 nm) collagen fibrils in tail tendon (at the expense of larger fibrils) when compared to controls (p < 0.05). Also, mutants exhibited a trend toward an increase in irregularly-shaped polymorphic fibrils (33% more, p > 0.05). While GDF-5 deficient tendon fascicles did not demonstrate any significant differences in quasistatic biomechanical properties, mutant fascicles relaxed 11% more slowly than control tendons during time-dependent stress-relaxation tests (p < 0.05). We hypothesize that this subtle alteration in time-dependent mechanical behavior is most-likely due to the increased prevalence of irregularly shaped type I collagen fibrils in the mutant tail tendons. These findings provide additional evidence to support the conclusion that GDF-5 may play a role in tendon homeostasis in mice.

Published
2001
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