Brain research
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Clinically, the overlap of gastroduodenal symptoms, such as visceral pain or hypersensitivity, is often observed in functional gastrointestinal disorders. The underlying mechanism may be related to intraspinal neuronal processing of noxious convergent inputs from the stomach and the intestine. The purpose of this study was to examine whether single low thoracic (T9-T10) spinal neurons responded to both gastric and duodenal mechanical stimulation. ⋯ In addition, 34/40 (85%) gastroduodenal convergent neurons had somatic receptive fields on the back, flank, and medial/lateral abdominal areas. These results suggested that superficial and deeper T9-T10 spinal neurons received innocuous and/or noxious convergent inputs from mechanical stimulation of the stomach and duodenum. Gastroduodenal convergent spinal neurons might contribute to intraspinal sensory transmission for cross-organ afferent-afferent communication between the stomach and duodenum and play a role in visceral nociception and reflexes.
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The hypothalamic-pituitary-adrenal (HPA) axis habituates, or gradually decreases its activity, with repeated exposure to the same stressor. During habituation, the HPA axis likely requires input from cortical and limbic regions involved in the processing of cognitive information that is important in coping to stress. Brain regions such as the medial prefrontal cortex (mPFC) are recognized as important in mediating these processes. ⋯ In the present experiments, we found that blockade of CRH receptors in the mPFC with the non-selective receptor antagonist d-Phe-CRH (50 ng or 100 ng) significantly inhibited HPA responses compared to vehicle regardless of whether animals were exposed to a single, acute 30 min restraint or to the eighth 30 min restraint. We also found that intra-mPFC injections of CRH (20 ng) significantly increased anxiety-related behavior in the elevated plus maze in both acutely and repeatedly restrained groups compared to vehicle. Together, these results suggest an excitatory influence of CRH in the mPFC on stress-induced HPA activity and anxiety-related behavior regardless of prior stress experience.
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Comparative Study
Nonprincipal neurons and CA2 pyramidal cells, but not mossy cells are immunoreactive for calcitonin gene-related peptide in the mouse hippocampus.
The distribution and morphological features of calcitonin gene-related peptide (CGRP) positive neurons in the mouse hippocampus were immunohistochemically analyzed, focusing on their differences between mice and rats. In contrast with those in the rat dentate gyrus, the mossy cell somata and their axon terminals in the mouse dentate gyrus were CGRP negative even after intraventricular colchicine injection. In the rat CA1-CA2-CA3 regions, there were two types of CGRP positive neurons, some of the CA3 pyramidal cells and relatively few nonprincipal neurons. ⋯ The CGRP positive nonprincipal neurons were apparently heterogeneous and further characterized immunohistochemically. Although there were significant regional differences in the chemical properties of the CGRP positive nonprincipal neurons, in the whole hippocampus, over 40% of CGRP positive nonprincipal neurons were also positive for parvalbumin, about 15% were positive for somatostatin and about 20% were positive for cholecystokinin, respectively. The present study clearly showed that there were prominent species differences between the mouse and rat hippocampus in the CGRP immunoreactivities.
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A large body of evidence indicates that the hormone erythropoietin (EPO) exerts beneficial effects in the central nervous system (CNS). To date, EPO's effect has been assessed in several experimental models of brain and spinal cord injury. This study was conducted to validate whether treatment with recombinant human EPO (rHuEPO) would limit the extent of injury following experimental TBI. ⋯ BBB breakdown was significantly lower in EPO-treated group than in the placebo-treated group (66.2+/-18.7 mug/g versus 181.3+/-21 mug/g, respectively, P<0.05). EPO treatment reduced injury volume significantly compared with placebo group (17.4+/-5.4 mm3 versus 37.1+/-5.3 mm3, P<0.05). EPO, administered in its recombinant form, affords significant neuroprotection in experimental TBI model and may hold promise for future clinical applications.
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Comparative Study
Chemical and mechanical nerve root insults induce differential behavioral sensitivity and glial activation that are enhanced in combination.
Both chemical irritation and mechanical compression affect radicular pain from disc herniation. However, relative effects of these insults on pain symptoms are unclear. This study investigated chemical and mechanical contributions for painful cervical nerve root injury. ⋯ By day 7 after the combined injury, there were significant (p<0.003) bilateral increases in OX-42 staining over normal. Spinal astrocytic and microglial reactivity follow different patterns after chemical root irritation, compression, and a combined insult. The combination of transient compression and chemical irritation produces sustained bilateral hypersensitivity, sustained ipsilateral spinal astrocytic activation and late onset bilateral spinal microglial activation.