Carola van Berkel scite author profile

In rats, an environmental manipulation occurring early in life resulted in changes in the adrenocortical axis that persisted throughout the entire life of the animals and attenuated certain deficits associated with aging. Rats handled during infancy had a permanent increase in concentrations of receptors for glucocorticoids in the hippocampus, a critical region in the negative-feedback inhibition of adrenocortical activity. Increased receptor concentrations led to greater hippocampal sensitivity to glucocorticoids and enhanced negative-feedback efficacy in the handled rats. Thus, at all ages tested, rats that were not handled secreted more glucocorticoids in response to stress than did handled rats. At later ages, nonhandled rats also showed elevated basal glucocorticoid levels, with the result that there was a greater cumulative exposure to glucocorticoids in nonhandled rats. Increased exposure to adrenal glucocorticoids can accelerate hippocampal neuron loss and cognitive impairments in aging. Hippocampal cell loss and pronounced spatial memory deficits emerged with age in the nonhandled rats, but were almost absent in the handled rats. Previous work showed that glucocorticoid hypersecretion, hippocampal neuron death, and cognitive impairments form a complex degenerative cascade of aging in the rat. The present study shows that a subtle manipulation early in life can retard the emergence of this cascade.

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Brain white matter oedema due to ClC-2 chloride channel deficiency: an observational analytical study

Depienne¹,

Bugiani²,

Dupuits³

et al. 2013

The Lancet Neurology

158

204

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SummaryBackground Mutant mouse models suggest that the chloride channel ClC-2 has functions in ion and water homoeostasis, but this has not been confi rmed in human beings. We aimed to defi ne novel disorders characterised by distinct patterns of MRI abnormalities in patients with leukoencephalopathies of unknown origin, and to identify the genes mutated in these disorders. We were specifi cally interested in leukoencephalopathies characterised by white matter oedema, suggesting a defect in ion and water homoeostasis.

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Defective Glial Maturation in Vanishing White Matter Disease

Bugiani

Boor

Kollenburg

et al. 2011

J Neuropathol Exp Neurol

117

135

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Vanishing white matter disease (VWM) is a genetic leukoencephalopathy linked to mutations in the eukaryotic translation initiation factor 2B (eIF2B). It is a disease of infants, children and adults, who experience a slowly progressive neurological deterioration with episodes of rapid clinical worsening triggered by stress and eventually leading to death. Characteristic neuropathological findings include cystic degeneration of the white matter with scarce reactive gliosis, dysmorphic astrocytes, and paucity of myelin despite an increase in oligodendrocytic density. To assess whether a defective maturation of macroglia may be responsible for the feeble gliosis and lack of myelin, we investigated the maturation status of astrocytes and oligodendrocytes in the brains of 8 VWM patients, 4 patients with other white matter disorders and 6 age-matched controls with a combination of immunocytochemistry, histochemistry, scratch-wound assays, Western blot and quantitative PCR. We observed increased proliferation and a defect in the maturation of VWM astrocytes. They show an anomalous composition of their intermediate filament network with predominance of the δ-isoform of the glial fibrillary acidic protein and an increase in the heat shock protein αB-crystallin, supporting the possibility that a deficiency in astrocyte function may contribute to the loss of white matter in VWM. We also demonstrated a significant increase in numbers of pre-myelinating oligodendrocyte progenitors in VWM, which may explain the co-existence of oligodendrocytosis and myelin paucity in the patients’ white matter.

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