Recombinant human erythropoietin (EPO) improves cognitive performance in
neuropsychiatric diseases ranging from schizophrenia and multiple sclerosis to
major depression and bipolar disease. This consistent EPO effect on cognition is
independent of its role in hematopoiesis. The cellular mechanisms of action in
brain, however, have remained unclear. Here we studied healthy young mice and
observed that 3-week EPO administration was associated with an increased number
of pyramidal neurons and oligodendrocytes in the hippocampus of ~20%.
Under constant cognitive challenge, neuron numbers remained elevated until >6
months of age. Surprisingly, this increase occurred in absence of altered cell
proliferation or apoptosis. After feeding a 15N-leucine diet, we used
nanoscopic secondary ion mass spectrometry, and found that in EPO-treated mice,
an equivalent number of neurons was defined by elevated 15N-leucine
incorporation. In EPO-treated NG2-Cre-ERT2 mice, we confirmed enhanced
differentiation of preexisting oligodendrocyte precursors in the absence of
elevated DNA synthesis. A corresponding analysis of the neuronal lineage awaits
the identification of suitable neuronal markers. In cultured neurospheres, EPO
reduced Sox9 and stimulated miR124, associated with advanced neuronal
differentiation. We are discussing a resulting working model in which EPO drives
the differentiation of non-dividing precursors in both (NG2+)
oligodendroglial and neuronal lineages. As endogenous EPO expression is induced
by brain injury, such a mechanism of adult neurogenesis may be relevant for
central nervous system regeneration.
When steroids, such as pregnenolone, progesterone and oestrogen, are synthesised de novo in neural tissues, they are more specifically referred to as neurosteroids. These neurosteroids bind specific receptors to promote essential brain functions. Pregnenolone supports cognition and protects mouse hippocampal cells against glutamate and amyloid peptide-induced cell death. Progesterone promotes myelination, spinogenesis, synaptogenesis, neuronal survival and dendritic growth. Allopregnanolone increases hippocampal neurogenesis, neuronal survival and cognitive functions. Oestrogens, such as oestradiol, regulate synaptic plasticity, reproductive behaviour, aggressive behaviour and learning. In addition, neurosteroids are neuroprotective in animal models of Alzheimer's disease, Parkinson's disease, brain injury and ageing. Using in situ hybridisation and/or immunohistochemistry, steroidogenic enzymes, including cytochrome P450 side-chain cleavage, 3b-hydroxysteroid dehydrogenase/D5-D4 isomerase, cytochrome P450arom, steroid 5a-reductase and 3a-hydroxysteroid dehydrogenase, have been detected in numerous brain regions, including the hippocampus, hypothalamus and cerebral cortex. In the present review, we summarise some of the studies related to the synthesis and function of oestrogens and progestagens in the central nervous system.
A B S T R A C TThe absence of phytoestrogens in the diet during pregnancy has been reported to result in obesity later in adulthood. We investigated whether phytoestrogen withdrawal in adult life could alter the hypothalamic signals that regulate food intake and affect body weight and glucose homeostasis.Male Wistar rats fed from conception to adulthood with a high phytoestrogen diet were submitted to phytoestrogen withdrawal by feeding a low phytoestrogen diet, or a high phytoestrogen-high fat diet. Withdrawal of dietary phytoestrogens increased body weight, adiposity and energy intake through an orexigenic hypothalamic response characterized by upregulation of AGRP and downregulation of POMC. This was associated with elevated leptin and T4, reduced TSH, testosterone and estradiol, and diminished hypothalamic ERα expression, concomitant with alterations in glucose tolerance.Removing dietary phytoestrogens caused manifestations of obesity and diabetes that were more pronounced than those induced by the high phytoestrogen-high fat diet intake.
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