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Sequential analysis of subacute and chronic neuronal, astrocytic and microglial alterations after transient global ischemia in rats (1998)

Lin, Baowan ; Ginsberg, M. D. ; Busto, Raul ; [et al.]

Springer

Acta neuropathologica 95 (1998), S. 511-523

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ISSN: 1432-0533

Keywords: Key words Global ischemia ; Histopathology ; Lectin ; Glial fibrillary acidic protein ; Endothelium

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Recent experimental investigations have emphasized the importance of assessing both acute and chronic histopathological changes occurring after cerebral ischemia. The purpose of this study was to evaluate the temporal profile of neuronal, astrocytic and microglial alterations within vulnerable regions (striatum and CA1 sector of hippocampus) following transient global ischemia. Anesthetized Wistar rats underwent 10 min of normothermic (37° C) ischemia induced by bilateral carotid ligations plus hypotension (45–50 mm Hg) and were allowed to survive for periods ranging from 1 to 10 weeks (n = 4–6/ group) prior to quantitative histopathological analysis. Adjacent sections were examined by hematoxylin-and-eosin histopathology, immunostaining for glial fibrillary acidic protein, and B4-isolectin immunochemistry for microglia. In the striatum, normal-neuron counts were first decreased significantly at 2 weeks after the ischemic insult. Neuronal loss was associated with the proliferation of reactive microglia, which peaked at 1 week. By contrast, reactive astrocytosis displayed a more protracted pattern, with peak activation at 2 weeks. In the CA1 hippocampus, a decreased number of normal neurons was seen at 1 week post ischemia, together with a significant increase in immunoreactive microglia at that time; the latter normalized after 2 weeks. Reactive astrocytes in the CA1 hippocampus were significantly increased at 1–2 weeks after ischemia. In a subgroup of severely injured animals, foci of frank striatal infarction were associated with early and severe microglial and astrocytic proliferation at week 4 or later. Finally, cerebrovascular changes included endothelial disruption within affected areas. These observations document a subacute and chronic sequence of cellular responses following brief periods of global ischemia, involving both neurons, glia and vascular endothelium.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004010050832

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Progressive parenchymal deposition of β-amyloid precursor protein in rat brain following global cerebral ischemia (1999)

Lin, Baowan ; Schmidt-Kastner, Rainald ; Busto, Raul ; [et al.]

Springer

Acta neuropathologica 97 (1999), S. 359-368

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ISSN: 1432-0533

Keywords: Key words Amyloid ; Immunochemistry ; Chronic pathology ; Neurodegeneration

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In addition to producing acute neuronal necrosis within selectively vulnerable brain regions, our recent studies have shown that global cerebral ischemia may also be followed by protracted degenerative changes occurring over the course of 10 weeks. Chronic brain pathology may be associated with the abnormal deposition of β-amyloid precursor protein (βAPP). In the present study, we used a monoclonal antibody to the N-terminal portion of βAPP to characterize the brains of rats surviving 1–10 weeks following 10 min of global brain ischemia produced by bilateral carotid artery occlusions plus systemic hypotension. After ischemia, increased βAPP immunolabeling emerged in several brain regions. In the hippocampus, granular deposits appeared in the damaged CA1 area by 2 weeks, and by 4–10 weeks the remnants of necrotic CA1 neurons were also immunolabeled. In striatum and thalamus, regions with necrotic cell death also revealed granular βAPP deposits. The neocortex was devoid of overt ischemic neuronal damage but revealed prominent βAPP immunoreactivity. Large ovoid deposits of low-density βAPP immunostaining occurred in cortical neurons at 1–2 weeks. At 4–10 weeks, large round or oval deposits immunoreactive for βAPP appeared in several cortical regions. The highest density of deposits was seen in the temporal and piriform cortices. Our results indicate that abnormal βAPP deposition may result from ischemic as well as chronic neurodegenerative processes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004010050999

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