Olof Bendel scite author profile

The pyramidal neurons of the hippocampal CA1 region are essential for cognitive functions such as spatial learning and memory, and are selectively destroyed after cerebral ischemia. To analyze whether degenerated CA1 neurons are replaced by new neurons and whether such regeneration is associated with amelioration in learning and memory deficits, we have used a rat global ischemia model that provides an almost complete disappearance (to approximately 3% of control) of CA1 neurons associated with a robust impairment in spatial learning and memory at two weeks after ischemia. We found that transient cerebral ischemia can evoke a massive formation of new neurons in the CA1 region, reaching approximately 40% of the original number of neurons at 90 days after ischemia (DAI). Co-localization of the mature neuronal marker neuronal nuclei with 5-bromo-2 0 -deoxyuridine in CA1 confirmed that neurogenesis indeed had occurred after the ischemic insult. Furthermore, we found increased numbers of cells expressing the immature neuron marker polysialic acid neuronal cell adhesion molecule in the adjacent lateral periventricular region, suggesting that the newly formed neurons derive from this region. The reappearance of CA1 neurons was associated with a recovery of ischemia-induced impairments in spatial learning and memory at 90 DAI, suggesting that the newly formed CA1 neurons restore hippocampal CA1 function. In conclusion, these results show that the brain has an endogenous capacity to form new nerve cells after injury, which correlates with a restoration of cognitive functions of the brain.

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Degeneration of newly formed CA1 neurons following global ischemia in the rat

Bueters

Euler

Bendel

et al. 2008

Experimental Neurology

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Profound but transient deficits in learning and memory after global ischemia using a novel water maze test

Euler

Bendel

Bueters

et al. 2006

Behavioural Brain Research

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Reproducible loss of CA1 neurons following carotid artery occlusion combined with halothane-induced hypotension

et al. 2005

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Activation of Microglial Cells and Complement following Traumatic Injury in Rat Entorhinal-Hippocampal Slice Cultures

Bellander

Bendel

Euler

et al. 2004

Journal of Neurotrauma

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The complement cascade has been suggested to be involved in development of secondary brain damage following traumatic brain injury (TBI). Previous studies have shown that reactive microglia are involved in activation of the complement cascade following various injuries to the nervous system. Macrophages seem to have a significant role in this process, but it is still unclear whether these cells, as well as the complement components, are derived from reactive microglia or if these biological events only can occur as a result from the influx of plasma and monocytes via a disrupted blood-brain barrier (BBB). The aim of this study was to investigate the response of microglial cells and the complement system in the absence of plasma/blood components following a standardized crush injury in an entorhinal-hippocampal slice culture. There was a clear increase in complement component C1q and C5b-9-IR (Membrane Attack Complex, MAC) in the area near the crush injury. MAC-IR appeared as numerous dots in clusters which co-localized with anti-NeuN labelled neurons in the injury border zone. Complement C1q-IR co-localized with reactive microglia, co-labelled with OX42 antisera. These findings show activation of the complement cascade near the injury zone and in particular, formation of MAC at the surface of neurons in this area. There was a distinct activation of microglial cells (OX42-IR) near the site of injury, as well as an increase in ED-1 expressing macrophages. In the absence of blood and plasma components it is likely that ED-1-labelled cells represent reactive microglia transformed into macrophages. In addition, Neurons (Neun-IR) near the injury were found to co-localize with clusterin-IR indicating upregulation of a defense system to the endogenous complement attack. The present study provides evidence that microglia and complement is activated in the injury border zone of the tissue slice in a similar fashion as in vivo following TBI, despite the absence of plasma/blood products and cells. These findings support the hypothesis that reactive microglia have a key role in complement activation following TBI by local synthesis of complement with a potential impact on development of secondary neuronal insults.

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Cloning and expression of the human NMDA receptor subunit NR3B in the adult human hippocampus

Bendel

Meijer

Hurd

et al. 2005

Neuroscience Letters

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Experimental subarachnoid hemorrhage induces changes in the levels of hippocampal NMDA receptor subunit mRNA

Bendel

Prunell

Stenqvist

et al. 2005

Molecular Brain Research

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Crush injury induces NMDA-receptor-dependent delayed nerve cell death in rat entorhinal–hippocampal slice cultures

2004

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Olof Bendel

Reappearance of Hippocampal CA1 Neurons after Ischemia is Associated with Recovery of Learning and Memory

Degeneration of newly formed CA1 neurons following global ischemia in the rat

Profound but transient deficits in learning and memory after global ischemia using a novel water maze test

Reproducible loss of CA1 neurons following carotid artery occlusion combined with halothane-induced hypotension

Activation of Microglial Cells and Complement following Traumatic Injury in Rat Entorhinal-Hippocampal Slice Cultures

Cloning and expression of the human NMDA receptor subunit NR3B in the adult human hippocampus

Experimental subarachnoid hemorrhage induces changes in the levels of hippocampal NMDA receptor subunit mRNA

Crush injury induces NMDA-receptor-dependent delayed nerve cell death in rat entorhinal–hippocampal slice cultures

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