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The microglial reaction in the rat hippocampus following global ischemia: immuno-electron microscopy

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Summary

Transient arrest of the cerebral circulation leads to neuronal cell death in selectively vulnerable regions of the central nervous system. It has recently been shown at the light microscopical level that neuronal necrosis is accompanied by a rapid microglial reaction in ischemia (Gehrmann et al. (1992) J. Cereb. Blood Flow Metab. 12:257–269). In the present study we have examined the postischemic microglial reaction in the dorsal rat hippocampus at the ultrastructural level using immuno-electron microscopy. Global ischemia was produced by 30 min of four-vessel occlusion and the microglial reaction then studied after 8, 24 and 72 h. In sham-operated controls microglial cells were not phagocytic; they were randomly distributed throughout the neuropil and occasionally made contacts with other structures such as dendrites in CA1. Ultrastructural signs of activation were observed from 1 day postlesion onward. Reactive microglial cells were consistently seen to phagocytose degenerating neurons particularly in the CA1 stratum pyramidale and in the CA4 sector. They were sometimes interposed between two morphologically distinct types of CA1 neurons, i.e., “dark” (degenerating) and “pale” (surviving) types of neurons. Phagocytic microglial cells also became positive for major histocompatibility complex (MHC) class II antigens at these locations from 1 day after ischemia onward. Furthermore, activated microglial cells were frequent along degenerating dendrites in the stratum radiatum of CA1. After survival times of up to 72 h microglial cells, but not astrocytes, were occasionally observed to undergo mitosis. In addition to their random distribution across the neuropil, microglial cells were frequently observed in a perivascular position under normal conditions. These perivascular microglial cells rapidly expressed MHC class II antigens, extended broad cellular processes and showed signs of phagocytic activity from 1 day onward. These results demonstrate that upon ischemic injury microglial cells proliferate and are rapidly recruited to the site of injury. By virtue of their pronounced cytotoxic potential, microglial cells could be further involved in mediating tissue destruction in ischemia, thus constituting the main immuneffector cell population in this pathological state.

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Authors and Affiliations

  1. Department of Neuromorphology, Max-Planck-Institute of Psychiatry, Am Klopferspitz 18A, W-8033, Martinsried, Federal Republic of Germany

    Jochen Gehrmann & Georg W. Kreutzberg

  2. Department of Experimental Neurology, Max-Planck-Institute for Neurological Research, Gleuelerstrasse 50, W-5000, Köln 41, Federal Republic of Germany

    Petra Bonnekoh, Takahito Miyazawa, Ute Oschlies, Ernö Dux & Konstantin-Alexander Hossmann

Authors
  1. Jochen Gehrmann
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  2. Petra Bonnekoh
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  3. Takahito Miyazawa
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  4. Ute Oschlies
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  5. Ernö Dux
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  6. Konstantin-Alexander Hossmann
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  7. Georg W. Kreutzberg
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Gehrmann, J., Bonnekoh, P., Miyazawa, T. et al. The microglial reaction in the rat hippocampus following global ischemia: immuno-electron microscopy. Acta Neuropathol 84, 588–595 (1992). https://doi.org/10.1007/BF00227735

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  • DOI: https://doi.org/10.1007/BF00227735

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