Brain research
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The effects of estrogens on the ventrolateral division of the hypothalamic ventromedial nucleus (VMNvl) are essential for its role in the regulation of female sexual behavior. Enhanced synaptogenesis and induction of progesterone receptors (PRs) are hallmarks of the actions of estrogens on the VMNvl. To investigate the influence of neural afferents in mediating these effects, we estimated the number of spine and dendritic synapses per neuron and the total number of PR-immunoreactive neurons in ovariectomized rats treated with either estradiol benzoate or vehicle, after unilateral VMN deafferentation. ⋯ The reduction was also visible, but less marked, in the contralateral VMNvl. Contrary to synapses, the estrogen induction of PRs was unaffected by deafferentation, and the total number of PR-immunoreactive neurons was similar in the control, deafferented and contralateral VMNvl. The results show that estrogens enhance synaptogenesis in the VMNvl by acting through neural afferents and induce PR expression by acting directly upon VMN neurons.
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This study assessed the potential of intravenous transplantation of human umbilical cord blood (HUCB) CD34+ cells transfected with glial cell line-derived neurotrophic factor (GDNF) gene to exert therapeutic benefits in spontaneous hypertensive rats (SHR) exposed to transient middle cerebral artery occlusion (MCAO). SHR with MCAO were randomly assigned to receive intravenously transplantation of vehicle, the plasmid containing the enhanced green fluorescent protein (pEGFP)-CD34+ cells or pEGFP-GDNF-CD34+ cells at 6h after stroke. ⋯ Furthermore, the stroke animals transplanted with GDNF gene modified CD34+ cells showed a significant increase in GDNF level in the infarcted hemisphere, reduced brain infarction volume, and enhanced functional recovery compared with those that received pEGFP-CD34+ cells. This study supports the use of a combined gene and stem cell therapy for treating stroke.
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Kisspeptin has recently been identified as a key neuroendocrine gatekeeper of reproduction and is essential for the initiation of human puberty and maintenance of adult reproduction. Kisspeptin neurons appear to be integrative sensors, as they respond to changes in numerous internal and external factors including nutrient and fat status, stress and sex steroids, thus providing a link between these factors and reproduction. ⋯ These demonstrate an essential role for kisspeptin in GnRH neuron firing, GnRH pulsatile secretion, negative feedback by gonadal steroids, the onset of puberty, and the ovulatory LH surge. These studies establish that kisspeptin antagonists are powerful investigative tools and set the scene for more extensive physiological and pathophysiological studies as well as therapeutic intervention.
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During systemic immune challenge, the organum vasculosum laminae terminalis (OVLT) with its dense vascularization by fenestrated capillaries lacking blood-brain barrier function allows direct access of circulating pyrogens to brain tissue located in close vicinity to the preoptic area. We aimed to analyze direct responses of OVLT cells to exposure to lipopolysaccharide (LPS) and fibroblast-stimulating lipopeptide-1 (FSL-1) or the cytokines tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β), and IL-6. A primary microculture of the OVLT was established from topographically excised rat pup brain tissue, with cellular identification by marker protein-specific immunocytochemistry. ⋯ TNF-α evoked calcium signals in 11% of neurons, 22% of astrocytes, and 5% of microglial cells tested. A considerable population of neurons (11%) but only few astrocytes and microglial cells responded to IL-6, whereas 8% of microglial cells and 3% of astrocytes or neurons were activated by IL-1β. The demonstration of direct cellular responses of OVLT-intrinsic cells to stimulations with LPS or cytokines reinforces the suggested role of this brain structure as a responsive brain site to circulating pyrogens.
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Activation of spinal cord microglia and astrocytes after peripheral nerve injury contributes to the development of behavioral hypersensitivity. Suppression of spinal cord glial activation attenuates the development of nerve injury-induced allodynia. The contribution of spinal cord glia to existing allodynia, however, is not known. ⋯ Propentofylline treatment on days 14-21 or 60-67 did not reverse existing allodynia. Propentofylline infusion (10 μg/d) inhibited astrocytic activation bilaterally on days 0-7, 14-21, and 60-67 and inhibited microglial activation on days 14-21 but not on days 0-7 and 60-67. These results suggest that activation of spinal glia, especially astrocytes, dominantly contributes to the development of neuropathic pain and also to mirror-image pain.