Eike Schröder scite author profile

Background and Purpose-Previous studies have shown that the ␤-amyloid precursor protein (␤APP) is upregulated after cerebral ischemia and that the ␤-amyloid (A␤) fragment may be toxic to brain cells. Although stroke in humans usually afflicts the elderly, most experimental studies on the nature of cerebral ischemia have used young animals. To test the hypothesis that the upregulation and/or persistence of amyloidogenic proteins is exacerbated in aged rats after cerebral ischemic stroke, we studied the expression of ␤APP and its proteolytic product A␤ in the brains of young and old rats 7 days after temporary cerebral ischemia. Methods-Focal cerebral ischemia was produced by reversible occlusion of the right middle cerebral artery in 3-and 20-month-old male Sprague-Dawley rats. After 1 week, brains were removed and immunostaining was performed for ␤APP, A␤, and ED1 for macrophages and glial fibrillary acidic protein (GFAP). Results-Histological staining revealed that the degree of necrotic cavitation in the infarct core was relatively less in aged rats than in young rats, suggesting a slower pace of degenerative change and/or tissue removal in older animals. ␤APP immunoreactivity was robustly increased, primarily in macrophage-like, ED1-positive cells in the infarct core and in the penumbra of both young and aged animals. A␤ immunoreactivity was evident in GFAP-positive astrocytic somata and processes, and also in clusters of small spherical structures in the penumbra. These A␤-immunoreactive minispheres were more numerous in aged rats than in young rats. Conclusions-The presence of ␤APP and A␤ immunoreactivity in the infarct core and penumbra indicates that cerebral ischemia promotes conditions that are favorable to the focal accumulation of ␤APP and its proteolytic fragments, especially in the aged brain. (Stroke. 1998;29:2196-2202.)

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Upregulation of MAP1B and MAP2 in the Rat Brain after Middle Cerebral Artery Occlusion: Effect of Age

Popa‐Wagner

Schröder

Schmoll

et al. 1999

J Cereb Blood Flow Metab

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Although stroke in humans usually afflicts the elderly, most experimental studies on the nature of cerebral ischemia have used young animals. This is especially important when studying restorative processes that are age dependent. To explore the potential of older animals to initiate regenerative processes after cerebral ischemia, the authors studied the expression of the juvenile-specific cytoskeletal protein, microtubule-associated protein (MAP) 1B, and the adult-specific protein, MAP2, in male Sprague-Dawley rats at 3 months and 20 months of age. The levels of MAP1B and MAP2 transcripts and the corresponding proteins declined with increasing age in the hippocampus. In the cortex, the levels of the transcripts did not change significantly with age, but the morphologic features of immunostained fibers were clearly affected by age; that is, cortical MAP1B fibers became thicker, and MAP2 fibers, more diffuse, in aged rats. Focal cerebral ischemia, produced by reversible occlusion of the right middle cerebral artery, resulted in a large decrease in the expression of both MAP1B and MAP2 in the infarct core at the messenger ribonucleic acid and protein levels. However, at 1 week after the stroke, there was vigorous expression of MAP1B and its messenger ribonucleic acid, as well as MAP2 protein, in the border zone adjacent to the infarct of 3-month-old and 20 month-old male Sprague-Dawley rats. The upregulation of these key cytologic elements generally was diminished in aged rats compared with young animals, although the morphologic features of fibers in the infarct border zone were similar in both age groups. These results suggest that the regenerative potential of the aged rat brain appears to be competent, although attenuated, at least with respect to MAP1B and MAP2 expression up to 20 months of age.

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Immunohistochemistry, glycosylation and immunosuppression of glycodelin in human ovarian cancer

Jeschke

Mylonas

Kunert‐Keil

et al. 2008

Histochem Cell Biol

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Glycodelins (Gds) are glycoproteins with a gender specific glycosylation. Glycodelin A (GdA) is primarily produced in endometrial and decidual tissue and secreted to amniotic fluid. Glycodelins were also identified in several cancer types, including serous ovarian cancer. Gds act as a T-cell inhibitor and are involved in inactivation of human monocytes. With a Gd peptide antibody, derived from a 15 amino acid sequence of human Gd and in situ hybridization experiments, the expression of Gd in serous, mucinous, endometrioid and clear cell ovarian tumors was identified. In contrast to former investigations with antibodies against GdA, a positive immunohistochemical reaction for Gd was observed in all forms of epithelium ovarian cancer. These results were confirmed with in situ hybridization. In addition, Gd is expressed in granulose cell tumors, a non-epithelial form of ovarian cancer. Furthermore, Gd was purified from ascites fluid of ovarian cancer patients. Ascites Gd showed significant differences in its structure of sialyl Lewis-type oligosaccharides compared to GdA. Additionally, ascites Gd inhibits IL-2 stimulated proliferation of peripheral blood leucocytes and inhibits adhesion of SLe(X)-positive cells to E-selectin. Therefore, Gd could act as an inhibitor of lymphocyte activation and/or adhesion in ovarian cancer.

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Solid epoxy for functional 3D printing with isotropic mechanical properties by material extrusion

Drücker

Voormann

Berg

et al. 2022

Additive Manufacturing

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Eike Schröder

β-Amyloid Precursor Protein and β-Amyloid Peptide Immunoreactivity in the Rat Brain After Middle Cerebral Artery Occlusion

Upregulation of MAP1B and MAP2 in the Rat Brain after Middle Cerebral Artery Occlusion: Effect of Age

Immunohistochemistry, glycosylation and immunosuppression of glycodelin in human ovarian cancer

Solid epoxy for functional 3D printing with isotropic mechanical properties by material extrusion

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