Search

Your search keyword '"Moos T"' showing total 233 results
Start Over Author "Moos T"
233 results on '"Moos T"'

1. Magnetocrystalline Anisotropy Energy of Transition Metal Thin Films: A Non-perturbative Theory

Author

Lessard, A., Moos, T. H., and Huebner, W.

Subjects
Condensed Matter
Abstract

The magnetocrystalline anisotropy energy E(anis) of free-standing monolayers and thin films of Fe and Ni is determined using two different semi-empirical schemes. Within a tight-binding calculation for the 3d bands alone, we analyze in detail the relation between bandstructure and E(anis), treating spin-orbit coupling non-pertubatively. We find important contributions to E(anis) due to the lifting of band degeneracies near the Fermi level by SOC. The important role of degeneracies is supported by the calculation of the electron temperature dependence of the magnetocrystalline anisotropy energy, which decreases with the temperature increasing on a scale of several hundred K. In general, E(anis) scales with the square of the SOC constant. Including 4s bands and s-d hybridization, the combined interpolation scheme yields anisotropy energies that quantitatively agree well with experiments for Fe and Ni monolayers on Cu(001). Finally, the anisotropy energy is calculated for systems of up to 14 layers. Even after including s-bands and for multilayers, the importance of degeneracies persists. Considering a fixed fct-Fe structure, we find a reorientation of the magnetization from perpendicular to in-plane at about 4 layers. For Ni, we find the correct in-plane easy-axis for the monolayer. However, since the anisotropy energy remains nearly constant, we do not find the experimentally observed reorientation., Comment: 15 pages, Revtex, 15 postscript figures

Published
1996
Full Text
View/download PDF

2. Magnetocrystalline Anisotropy Energy of a Transition Metal Monolayer: A Non-perturbative Theory

Author

Moos, T. H., Hübner, W., and Bennemann, K. H.

Subjects
Condensed Matter, Condensed Matter - Materials Science
Abstract

The magnetocrystalline anisotropy energy $E_{anis}$ for a monolayer of Fe and Ni is determined using a fully convergent tight-binding calculation including $s$-$d$ hybridization. The spin-orbit interaction $\lambda_{so}$ is treated non-perturbatively. Remarkably, we find $E_{anis}\propto\lambda_{so}^2$ and important contributions to $E_{anis}$ due to the lifting of degeneracies near the Fermi-level. This is supported by the calculated decrease of the anisotropy energy with increasing temperature on a scale of several hundred K. Our results clarify the present debate on the origin of $E_{anis}$., Comment: 11 pages (RevTeX) with 2 figures, appended as Postscript files

Published
1995
Full Text
View/download PDF

11. Zwangsernährung oder Palliative Care bei chronischer Anorexia nervosa? Behandlungsstrategien aus medizinethischer Sicht

Author

Moos, T, Schües, C, Rehmann-Sutter, C, Moos, T ( T ), Schües, C ( C ), Rehmann-Sutter, C ( C ), Trachsel, Manuel; https://orcid.org/0000-0002-2697-3631, Krones, Tanja, Wild, Verina, Moos, T, Schües, C, Rehmann-Sutter, C, Moos, T ( T ), Schües, C ( C ), Rehmann-Sutter, C ( C ), Trachsel, Manuel; https://orcid.org/0000-0002-2697-3631, Krones, Tanja, and Wild, Verina

Published
2016

14. Uptake and transport of superparamagnetic iron oxide nanoparticles through human brain capillary endothelial cells

Author

Thomsen, L.B., Linemann, T., Pondman, K.M., Lichota, J., Kim, K.S., Pieters, R.J., Visser, G.M., Moos, T., Medicinal Chemistry and Chemical Biology, Sub Medicinal Chemistry & Chemical biol., Magnetic Detection and Imaging, Medicinal Chemistry and Chemical Biology, and Sub Medicinal Chemistry & Chemical biol.

Subjects
Endothelium, Physiology, Cognitive Neuroscience, Models, Neurological, Biological Transport, Active, Nanotechnology, Vascular permeability, Blood–brain barrier, Biochemistry, Ferric Compounds, Microcirculation, Capillary Permeability, Drug Delivery Systems, medicine, Connectome, Humans, Magnetite Nanoparticles, Cells, Cultured, Fluorescent Dyes, Chemistry, Brain, Cell Biology, General Medicine, Human brain, In vitro, Coculture Techniques, medicine.anatomical_structure, Blood-Brain Barrier, Astrocytes, Drug delivery, Biophysics, METIS-322120, IR-104601, Endothelium, Vascular, Drug carrier
Abstract

The blood–brain barrier (BBB) formed by brain capillary endothelial cells (BCECs) constitutes a firm physical, chemical, and immunological barrier, making the brain accessible to only a few percent of potential drugs intended for treatment inside the central nervous system. With the purpose of overcoming the restraints of the BBB by allowing the transport of drugs, siRNA, or DNA into the brain, a novel approach is to use superparamagnetic iron oxide nanoparticles (SPIONs) as drug carriers. The aim of this study was to investigate the ability of fluorescent SPIONs to pass through human brain microvascular endothelial cells facilitated by an external magnet. The ability of SPIONs to penetrate the barrier was shown to be significantly stronger in the presence of an external magnetic force in an in vitro BBB model. Hence, particles added to the luminal side of the in vitro BBB model were found in astrocytes cocultured at a remote distance on the abluminal side, indicating that particles were transported through the barrier and taken up by astrocytes. Addition of the SPIONs to the culture medium did not negatively affect the viability of the endothelial cells. The magnetic force-mediated dragging of SPIONs through BCECs may denote a novel mechanism for the delivery of drugs to the brain.

Published
2013
Full Text
View/download PDF

15. Die Bürgerkonferenz –- ein Verfahren für festgefahrene politisch-moralische Konflikte?

Author

Kailer, Katja, Naumann, Jörg, Göpfert, Jörg, and Moos, T

Abstract

Während anderswo der Anbau gentechnisch veränderter Pflanzen zunimmt, floriert in Deutschland der Konflikt um sie. Seine Überwindung ist nicht abzusehen. Was kann in solchen Fällen getan werden? Gibt es Verfahren, mit denen fundamentale Technikkonflikte gelöst oder zumindest konstruktiv gestaltet werden können? Dem gehen die Autorinnen und Autoren des Bandes am Beispiel der Grünen oder Agrogentechnik nach. Sie analysieren die Stärken und Schwächen bereits erprobter Verfahren der Konfliktbearbeitung und diskutieren, inwiefern sich diese sinnvoll kombinieren oder weiterentwickeln lassen.

Published
2009

16. Metaphors in science, metaphors in religion

Author

Heijdra, M.G., Vogelsang, F., Meisinger, H., Losch, A., Moos, T., Schmidt, J.C., Stamatescu, O., Philosophy, and Research in Practical Philosophy

Published
2007

20. Uptake and Transport of Superparamagnetic Iron Oxide Nanoparticles through Human Brain Capillary Endothelial Cells

Author

Medicinal Chemistry and Chemical Biology, Sub Medicinal Chemistry & Chemical biol., Thomsen, L.B., Linemann, T., Pondman, K.M., Lichota, J., Kim, K.S., Pieters, R.J., Visser, G.M., Moos, T., Medicinal Chemistry and Chemical Biology, Sub Medicinal Chemistry & Chemical biol., Thomsen, L.B., Linemann, T., Pondman, K.M., Lichota, J., Kim, K.S., Pieters, R.J., Visser, G.M., and Moos, T.

Published
2013

22. Iron trafficking inside the brain

Author

Moos, T., Nielsen, T.R., Skjorringe, T., Morgan, E.H., Moos, T., Nielsen, T.R., Skjorringe, T., and Morgan, E.H.

Abstract

Udgivelsesdato: 2007/12

Published
2007

28. Strongly compromised inflammatory response to brain injury in interleukin-6-deficient mice

Author

Penkowa, M, Moos, T, Carrasco, J, Hadberg, H, Molinero, A, Bluethmann, H, Hidalgo, J, Penkowa, M, Moos, T, Carrasco, J, Hadberg, H, Molinero, A, Bluethmann, H, and Hidalgo, J

Abstract

Udgivelsesdato: 1999-Feb-15, Injury to the central nervous system (CNS) elicits an inflammatory response involving activation of microglia, brain macrophages, and astrocytes, processes likely mediated by the release of proinflammatory cytokines. In order to determine the role of interleukin-6 (IL-6) during the inflammatory response in the brain following disruption of the blood-brain barrier (BBB), we examined the effects of a focal cryo injury to the fronto-parietal cortex in interleukin-6-deficient (IL-6-/-) and normal (IL-6+/+) mice. In IL-6+/+ mice, brain injury resulted in the appearance of brain macrophages and reactive astrocytes surrounding the lesion site. In addition, expression of granulocyte-macrophage colony-stimulating factor (GM-CSF) and metallothionein-I+II (MT-I+II) were increased in these cells, while the brain-specific MT-III was only moderately upregulated. In IL-6-/- mice, however, the response of brain macrophages and reactive astrocytes was markedly depressed and the number of NSE positive neurons was reduced. Brain damage-induced GM-CSF and MT-I+II expression were also markedly depressed compared to IL-6+/+ mice. In contrast, MT-III immunoreactivity was markedly increased in brain macrophages and astrocytes. In situ hybridization analysis indicates that MT-I+II but not MT-III immunoreactivity reflect changes in the messenger levels. The number of cell divisions was similar in IL-6+/+ and IL-6-/- mice. The present results demonstrate that IL-6 is crucial for the recruitment of myelo-monocytes and activation of glial cells following brain injury with disrupted BBB. Furthermore, our results suggest IL-6 is important for neuroprotection and the induction of GM-CSF and MT expression. The opposing effect of IL-6 on MT-I+II and MT-III levels in the damaged brain suggests MT isoform-specific functions.

Published
1999

29. Impaired inflammatory response to glial cell death in genetically metallothionein-I- and -II-deficient mice

Author

Penkowa, M, Giralt, M, Moos, T, Thomsen, P S, Hernández, J, Hidalgo, J, Penkowa, M, Giralt, M, Moos, T, Thomsen, P S, Hernández, J, and Hidalgo, J

Abstract

Udgivelsesdato: 1999-Mar, Metallothionein I+II (MT-I+II) are acute-phase proteins which are upregulated during pathological conditions in the brain. To elucidate the neuropathological importance of MT-I+II, we have examined MT-I+II-deficient mice following ip injection with 6-aminonicotinamide (6-AN). 6-AN is antimetabolic and toxic for bone marrow cells and grey matter astrocytes. In MT+/+ mice, injection with 6-AN resulted in breakdown of the blood-brain barrier (BBB) and absence of GFAP-positive astrocytes in specific grey matter areas of the brain stem. Reactive astrocytosis encircled the damaged grey matter areas, which were heavily infiltrated by microglia/macrophages. The recruitment of hematogenous macrophages was accompanied by leakage of the BBB. The immunoreactivity (ir) of granulocyte-macrophage-colony-stimulating factor (GM-CSF) and the receptor for GM-CSF (GM-CSFrec) was significantly upregulated in astrocytes and microglia/macrophages, respectively. MT-I+IIir was also clearly increased in astrocytes surrounding the damaged areas, while that of the CNS-specific MT isoform, MT-III, was mildly increased in both astrocytes and microglia/macrophages. In MT-/- mice injected with 6-AN, the BBB remained almost intact. The damage to specific grey matter areas was similar to that observed in MT+/+ mice, but reactive astrocytosis, microglia/macrophages infiltration, and GM-CSFir and GM-CSFrecir were clearly reduced in MT-/- mice. In contrast, MT-IIIir was dramatically increased in MT-/- mice. Total zinc decreased and histochemically detectable zinc increased in the brain stem after 6-AN similarly in MT+/+ and MT-/- mice. Bone marrow myeloid monocytes and macrophages were increased as a reaction to 6-AN only in MT+/+ mice. The results demonstrate that the capability of MT-/- mice to mount a normal inflammatory response in the brain is severely attenuated, at least in part because of 6-AN-induced bone marrow affectation, involving MT-I+II for the first time as major factors during CNS tiss

Published
1999

30. Metallothionein (MT)-III:generation of polyclonal antibodies, comparison with MT-I+II in the freeze lesioned rat brain and in a bioassay with astrocytes, and analysis of Alzheimer's disease brains

Author

Carrasco, J, Giralt, M, Molinero, A, Penkowa, M, Moos, T, Hidalgo, J, Carrasco, J, Giralt, M, Molinero, A, Penkowa, M, Moos, T, and Hidalgo, J

Abstract

Udgivelsesdato: 1999-Nov, Metallothionein-III is a low molecular weight, heavy-metal binding protein expressed mainly in the central nervous system. First identified as a growth inhibitory factor (GIF) of rat cortical neurons in vitro, it has subsequently been shown to be a member of the metallothionein (MT) gene family and renamed as MT-III. In this study we have raised polyclonal antibodies in rabbits against recombinant rat MT-III (rMT-III). The sera obtained reacted specifically against recombinant zinc-and cadmium-saturated rMT-III, and did not cross-react with native rat MT-I and MT-II purified from the liver of zinc injected rats. The specificity of the antibody was also demonstrated in immunocytochemical studies by the elimination of the immunostaining by preincubation of the antibody with brain (but not liver) extracts, and by the results obtained in MT-III null mice. The antibody was used to characterize the putative differences between the rat brain MT isoforms, namely MT-I+II and MT-III, in the freeze lesion model of brain damage, and for developing an ELISA for MT-III suitable for brain samples. In the normal rat brain, MT-III was mostly present primarily in astrocytes. However, lectin staining indicated that MT-III immunoreactivity was also present in microglia, monocytes and/or macrophages in the leptomeninges and lying adjacent to major vessels. In freeze lesioned rats, both MT-I+II and MT-III immunoreactivities increased in the ipsilateral cortex. The pattern of MT-III immunoreactivity significantly differed from that of MT-I+II, since the latter was evident in both the vicinity of the lesioned tissue and deeper cortical layers, whereas that of the former was located only in the deeper cortical layers. This suggests different roles for these MT isoforms, and indeed in a new bioassay measuring astrocyte migration in vitro, rMT-III promoted migration to a higher extent than MT-I+II. Thus, MT-III could not only affect neuronal sprouting as previously suggested, but also astrocy

Published
1999

31. CNS wound healing is severely depressed in metallothionein I- and II-deficient mice

Author

Penkowa, M, Carrasco, J, Giralt, M, Moos, T, Hidalgo, J, Penkowa, M, Carrasco, J, Giralt, M, Moos, T, and Hidalgo, J

Abstract

Udgivelsesdato: 1999-Apr-1, To characterize the physiological role of metallothioneins I and II (MT-I+II) in the brain, we have examined the chronological effects of a freeze injury to the cortex in normal and MT-I+II null mice. In normal mice, microglia/macrophage activation and astrocytosis were observed in the areas surrounding the lesion site, peaking at approximately 1 and 3 d postlesion (dpl), respectively. At 20 dpl, the parenchyma had regenerated. Both brain macrophages and astrocytes surrounding the lesion increased the MT-I+II immunoreactivity, peaking at approximately 3 dpl, and at 20 dpl it was similar to that of unlesioned mice. In situ hybridization analysis indicates that MT-I+II immunoreactivity reflects changes in the messenger levels. In MT-I+II null mice, microglia/macrophages infiltrated the lesion heavily, and at 20 dpl they were still present. Reactive astrocytosis was delayed and persisted at 20 dpl. In contrast to normal mice, at 20 dpl no wound healing had occurred. The rate of apoptosis, as determined by using terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labeling, was drastically increased in neurons of ipsilateral cortex of the MT-I+II null mice. Our results demonstrate that MT-I+II are essential for a normal wound repair in the CNS, and that their deficiency impairs neuronal survival.

Published
1999

32. Distribution of metallothionein I + II and vesicular zinc in the developing central nervous system: correlative study in the rat

Author

Penkowa, M, Nielsen, H, Hidalgo, J, Bernth, N, Moos, T, Penkowa, M, Nielsen, H, Hidalgo, J, Bernth, N, and Moos, T

Abstract

Udgivelsesdato: 1999-Sep-20, Because zinc (Zn) is a co-factor in enzymes and participates in neurotransmission, it is essential for brain development. However, because excess Zn may cause neuronal injury, cerebral mechanisms for Zn regulation must operate. The metallothionein isoforms I and II (MT I + II) are putative candidates for chelating unbound Zn released from Zn-containing nerve terminals or transported into the brain. Whether vesicular Zn and MT I + II occur in identical regions of the developing brain is unknown. Accordingly, the developmental distribution of MT I + II and vesicular Zn was mapped. By using double-labeling fluorescence histochemistry, MT I + II immunoreactivity (ir) was attributed to astrocytes and cells of myelomonocytic lineage. The cells of the myelomonocytic lineage shared the morphology of monocytes and macrophages but not of microglia and occurred primarily around vessels and ventricles in the brainstem. By contrast, astrocytes were widespread throughout the developing brain. In embryonic and neonatal brain, MT I + IIir astrocytes were almost selectively observed in the septum and fascia dentate hilus (hi) of the hippocampus. With increasing postnatal age, they also occurred in hippocampal cortex, basal forebrain, neocortex, cerebellar cortex, and cranial nerve nuclei. MT I + II mRNAs were detected in regions of the brain that also displayed MT I + IIir, indicating transcriptional events. Vesicular Zn was recorded in neonatal brain solely in the dentate hi of the hippocampus. With increasing age, the amount of vesicular Zn increased in the hippocampus and other forebrain regions. The presence of MT I + II proteins in the developing brain was confirmed by radioimmunoassay. The regional distribution of astrocytic MT I + IIir and vesicular Zn suggests that MT I + II are implicated in Zn metabolism in the developing forebrain.

Published
1999

34. Essential fatty acids and postnatal development of the brain

Author

Paulson, O., Moos Knudsen, G., Moos, T., Lauritzen, L., Hørby Jørgensen, M., Hansen, H. S., Michaelsen, K. F., Paulson, O., Moos Knudsen, G., Moos, T., Lauritzen, L., Hørby Jørgensen, M., Hansen, H. S., and Michaelsen, K. F.

Published
1999

35. Rat fetuin: Distribution of protein and mRNA in embryonic and neonatal rat tissues

Author

Terkelsen, Ole B.F., Jahnen-Dechent, W., Nielsen, Henrik, Moos, T., Fink, E., Nawratil, P., Müller-Esterl, W., Møllgård, Kjeld, Terkelsen, Ole B.F., Jahnen-Dechent, W., Nielsen, Henrik, Moos, T., Fink, E., Nawratil, P., Müller-Esterl, W., and Møllgård, Kjeld

Abstract

Blood proteins, alpha-globulins, fetal development, cell differentiation, embryo

Published
1998

36. Rat fetuin: distribution of protein and mRNA in embryonic and neonatal rat tissues

Author

Terkelsen, O B, Jahnen-Dechent, W, Nielsen, Henrik, Moos, T, Fink, E, Nawratil, P, Müller-Esterl, W, Møllgård, K, Terkelsen, O B, Jahnen-Dechent, W, Nielsen, Henrik, Moos, T, Fink, E, Nawratil, P, Müller-Esterl, W, and Møllgård, K

Abstract

Udgivelsesdato: 1998-Feb, Fetuin is a serum protein widely distributed in the animal kingdom and found in all mammalian species so far investigated. It is mainly a fetal protein, in the sense that the highest concentrations are found in serum and body fluids of embryos and fetuses. In order to elucidate possible biological functions of fetuin, we have studied its synthesis and distribution during the prenatal development of the rat with immunohistochemistry and in situ hybridization. We have isolated fetuin from rat serum and produced an antibody against this protein. In situ hybridization was performed using a 375-nucleotides-long digoxigenin-labeled riboprobe. Fetuin was unevenly distributed in all organ systems during development, with the most pronounced expression at E 10Fetuin is a serum protein widely distributed in the animal kingdom and found in all mammalian species so far investigated. It is mainly a fetal protein, in the sense that the highest concentrations are found in serum and body fluids of embryos and fetuses. In order to elucidate possible biological functions of fetuin, we have studied its synthesis and distribution during the prenatal development of the rat with immunohistochemistry and in situ hybridization. We have isolated fetuin from rat serum and produced an antibody against this protein. In situ hybridization was performed using a 375-nucleotides-long digoxigenin-labeled riboprobe. Fetuin was unevenly distributed in all organ systems during development, with the most pronounced expression at E16-E18. Fetuin expression was present in germinal cell populations, e.g., in the basal layer in the skin, in the germinal cell populations in the brain anlage and the gonads, and it was heavily expressed in the fetal hemopoietic liver. Furthermore, fetuin was expressed in the gastrointestinal epithelium prior to the development of glands and crypts. Fetuin was widely distributed in mesenchymal derived tissues, e.g., bone and muscle. In the developing kidney fetuin was heavily

Published
1998

38. Disruption of the blood-brain interface in neonatal rat neocortex induces a transient expression of metallothionein in reactive astrocytes

Author

Penkowa, M, Moos, T, Penkowa, M, and Moos, T

Abstract

Udgivelsesdato: 1995-Mar, Exposure of the adult rat brain parenchyma to zinc induces an increase in the intracerebral expression of the metal-binding protein, metallothionein, which is normally confined to astrocytes, ependymal cells, choroid plexus epithelial cells, and brain endothelial cells. Metallothionein is expressed only in diminutive amounts in astrocytes of the neonatal rat brain, which could imply that neonatal rats are devoid of the capacity to detoxify free metals released from a brain wound. In order to examine the influence of a brain injury on the expression of metallothionein in the neonatal brain, PO rats were subjected to a localized freeze lesion of the neocortex of the right temporal cortex. This lesion results in a disrupted blood-brain interface, leading to extravasation of plasma proteins. From 16 h, reactive astrocytosis, defined as an increase in the number and size of cells expressing GFAP and vimentin, was observed surrounding the neocortical lesion site. Astrocytes and pial cells situated adjacent to the area of injury also became positively stained for metallothionein. At 3-6 days post-lesion, the highest level of reactive astrocytes expressing metallothionein was observed. Neo-Timm staining revealed that histochemically reactive zinc had disappeared from the lesion site. Extracellular albumin and metallothionein-positive astrocytes were absent approximately 2 weeks after the lesion, whereas reactive astrocytosis was still observed. These results show that a lesion of the neonatal rat brain induces a transient expression of metallothionein in reactive astrocytes, probably as a response to metals released from the site of the brain injury.

Published
1995

46. Restricted transport of anti-transferrin receptor antibody (OX26) through the blood–brain barrier in the rat.

Author

Moos, T. and Morgan, E.H.

Subjects
*IMMUNOGLOBULINS, *BLOOD-brain barrier, *TRANSFERRIN
Abstract

Anti-transferrin receptor IgG2a (OX26) transport into the brain was studied in rats. Uptake of OX26 in brain capillary endothelial cells (BCECs) was > 10-fold higher than isotypic, non-immune IgG2a (Ni-IgG2a) when expressed as % ID/g. Accumulation of OX26 in the brain was higher in 15 postnatal (P)-day-old rats than in P0 and adult (P70) rats. Iron-deficiency did not increase OX26 uptake in P15 rats. Three attempts were made to investigate transport from BCECs further into the brain. (i) Using a brain capillary depletion technique, 6–9% of OX26 was identified in the post-capillary compartment consisting of brain parenchyma minus BCECs. (ii) In cisternal CSF, the volume of distribution of OX26 was higher than for Ni-IgG2a when corrected for plasma concentration. (iii) Immunohistochemical mapping revealed the presence of OX26 almost exclusively in BCECs; extravascular staining was observed only in neurons situated periventricularly. The data support the hypothesis of facilitated uptake of OX26 due to the presence of transferrin receptors at the blood–brain barrier (BBB). However, OX26 accumulation in the post-capillary compartment was too small to justify a conclusion of receptor-mediated transcytosis of OX26 occurring in BCECs. Accumulation of OX26 in the post-capillary component may result from a diphasic transport that involves high-affinity accumulation of OX26 by the BCECs, clearly exceeding that of Ni-IgG2a, followed by a second transport mechanism that releases OX26 non-specifically further into the brain. The periventricular localization suggests that OX26 probably also derives from transport across the blood–CSF barrier. [ABSTRACT FROM AUTHOR]

Published
2001
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results