Zobrazeno 1 - 10
of 45
pro vyhledávání: '"Stephan Verleysdonk"'
Autor:
Ali Lourhmati, Gayane H Buniatian, Christina Paul, Stephan Verleysdonk, Reinhild Buecheler, Marine Buadze, Barbara Proksch, Matthias Schwab, Christoph H Gleiter, Lusine Danielyan
Publikováno v:
PLoS ONE, Vol 8, Iss 10, p e77182 (2013)
Extracellular accumulation of toxic concentrations of glutamate (Glu) is a hallmark of many neurodegenerative diseases, often accompanied by hypoxia and impaired metabolism of this neuromediator. To address the question whether the multifunctional ne
Externí odkaz:
https://doaj.org/article/a8b05ed0bb8d48ef80cf5040fa3496a0
Autor:
William H. Frey, Sandra Beer-Hammer, Henning Johannes Drews, Stefan Petschak, Matthias Schwab, Stephan Verleysdonk, Lusine Danielyan, Marine Buadze, Daniela Kabisch, Ali Lourhmati, T. Davtyan, Christoph H. Gleiter, Konstantin Yenkoyan
Publikováno v:
Neurotherapeutics
The contribution of the local angiotensin receptor system to neuroinflammation, impaired neurogenesis, and amyloid beta (Aβ) accumulation in Alzheimer’s disease (AD) and in hypertension is consistent with the remarkable neuroprotection provided by
Publikováno v:
Neurochemical Research. 35:899-908
Most skin pathologies are characterized by unbalanced synthesis of major histocompatability complex II (MHC-II) proteins. Healthy skin keratinocytes simultaneously produce large amounts of MHC-II and regeneration-supporting proteins, e.g. erythropoie
Publikováno v:
Neurochemical Research. 33:2575-2582
Kidney contains glycogen. Glycogen is degraded by glycogen phosphorylase (GP). This enzyme comes in three isoforms, one of which, the brain isozyme (GP BB), is known to occur in kidney. Its pattern of distribution in rat kidney was studied in compari
Autor:
Barbara Proksch, Ulrike Thiess, Sumaira Umbreen, Christoph H. Gleiter, Daniela Kabisch, Boris Schmidt, Stephan Verleysdonk, Lusine Danielyan, Ali Lourhmati
Publikováno v:
Neurochemical Research. 32:1489-1498
The present study investigated the role of angiotensin receptors (AT-R) in the survival and inflammatory response of astroglia upon hypoxic injury. Exposure of rat astroglial primary cultures (APC) to hypoxic conditions (HC) led to decreased viabilit
Autor:
Hans-Martin Pogoda, Carina Kramer, Stephan Verleysdonk, Matthias Lautner, Wolfgang Hirschner, Karl-Heinz Wiesmüller, Bernd Hamprecht, Ulrike Thiess
Publikováno v:
Journal of Neurochemistry. 101:274-288
The rat ortholog of the WD40 repeat protein Wdr16 is abundantly expressed in testis and cultured ependymal cells. Low levels are found in lung and brain, respectively, while it is absent from kinocilia-free tissues. In testis and ependymal primary cu
Publikováno v:
Journal of Neurochemistry. 97:1393-1402
To evaluate the ability of ependymal, microglial and oligodendroglial cells to degrade leucine, the presence of 3-methylcrotonyl-CoA carboxylase (MCC) was investigated in cultures of these cells. MCC is a biotin-containing heterodimeric enzyme that i
Publikováno v:
Neuroscience Letters. 392:187-192
Atrial natriuretic peptide-(1–28) (ANP), brain natriuretic peptide-(1–32) (BNP) and C-Type natriuretic polypeptide (CNP) occur in the brain, are concentrated in the anteroventral area of the third cerebral ventricle and participate in the regulat
Autor:
Steffen Kistner, Adrian Lupescu, John Wellard, Julia Laske, Florian Lang, Stephan Verleysdonk, Brigitte Pfeiffer-Guglielmi, Bernd Hamprecht, Mirna Rapp
Publikováno v:
Brain Research. 1060:89-99
Ependymal primary cultures are a model for studying ependymal energy metabolism. Intracellular glycogen is built up in the cultures dependent on culture age and the presence of glucose and glutamate. This energy store is mobilized upon glucose withdr
Autor:
Stephan Verleysdonk, John Wellard, Bernd Hamprecht, Mirna Rapp, María de los Angeles García, Francisco Nualart, Wolfgang Hirschner
Publikováno v:
NEUROCHEMICAL RESEARCH
Artículos CONICYT
CONICYT Chile
instacron:CONICYT
Artículos CONICYT
CONICYT Chile
instacron:CONICYT
Ependymal cells have been reported to express the facilitative glucose carriers GLUT1, GLUT2, and GLUT4, as well as glucokinase. They are therefore speculated to be part of the cerebral glucose sensing system and may also respond to insulin with alte