Neuroscience
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Orphanin FQ (Nociceptin) has been reported to stimulate food intake in satiated rats and to stimulate corticosterone release. A large body of evidence exists to link central feeding systems with the regulation of corticosterone. In this study, we sought to determine whether or not circulating corticosterone is necessary for the induction of food intake by Orphanin FQ. ⋯ We concluded this study by testing the glucocorticoid receptor antagonist, RU486 (Mifepristone, 80 microg/2 microl) on Orphanin FQ-induced feeding. Central injection of RU486, 30 min prior to injection of Orphanin FQ, significantly reduced Orphanin FQ-induced food intake in comparison to vehicle-treated controls. Overall, these data demonstrate the necessity for circulating corticosterone in the mediation of Orphanin-FQ-induced feeding and suggest that the mechanism through which the hyperphagic effect is obtained involves activation of central glucocorticoid receptors.
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Although intrathecal administration of nociceptin, an endogenous ligand of the opioid receptor-like1 receptor, exhibits an antinociceptive effect in various pain models, cellular mechanisms underlying this action are still unknown. Here, we investigated the effects of nociceptin on excitatory and inhibitory synaptic transmission to substantia gelatinosa neurones of an adult rat spinal cord slice with an attached dorsal root by use of the blind whole-cell patch-clamp technique; this was done under the condition of a blockade of a hyperpolarising effect of nociceptin. In about 70% of the neurones examined, nociceptin (1 microM) reduced the amplitude of glutamatergic excitatory postsynaptic currents (EPSCs) which were monosynaptically evoked by stimulating Adelta- or C-afferent fibres; the inhibition of C-fibre EPSCs (50+/-6%, n=11) was larger than that of Adelta-fibre EPSCs (30+/-5%, n=23; P<0.05). ⋯ These results indicate that nociceptin suppresses excitatory but not inhibitory synaptic transmission to substantia gelatinosa neurones through the activation of the opioid receptor-like1 receptor; this action is pre-synaptic in origin. Considering that the substantia gelatinosa is the main part of termination of Adelta- and C-fibres transmitting nociceptive information, the present finding would account for at least a part of the inhibitory action of nociceptin on pain transmission. Nociceptin could inhibit more potently slow-conducting than fast-conducting pain transmission.
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X-linked forms of non-specific mental retardation are complex disorders, for which mutations in several genes have recently been identified. These include OPHN1, GDI1, PAK3, IL1RAPL, TM4SF2, FMR2 and RSK2. ⋯ Furthermore we observed a significant increase in mRNA levels of PAK3 and IL1RAPL following LTP induction. These results suggest a possible role for these four genes in activity-dependent brain plasticity.
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Interleukin-6 (IL-6) is a multifunctional cytokine that may have a role in energy regulation. Using a recombinant adeno-associated viral vector expressing murine interleukin-6 (rAAV-IL-6), we examined the chronic effects of centrally expressed IL-6 on food intake, body weight and adiposity in male Sprague-Dawley rats, and investigated the underlying mechanisms. Direct delivery of rAAV-IL-6 into rat hypothalamus suppressed weight gain and visceral adiposity without affecting food intake over a 5-week period. rAAV-IL-6 enhanced uncoupling protein 1 (UCP1) protein levels in interscapular brown adipose tissue (BAT). ⋯ These data demonstrate that chronic elevation of IL-6 in the CNS reduces body weight gain and visceral adiposity without affecting food intake. The mechanism involves sympathetic induction of UCP1 in BAT and, presumably, enhanced thermogenesis in BAT. Furthermore, chronic central IL-6 stimulation desensitizes IL-6 signal transduction characterized by reversal of elevated P-STAT3 levels.
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Contrary to the classical view of a pre-determined wiring pattern, there is considerable evidence that cortical representation of body parts is continuously modulated in response to activity, behavior and skill acquisition. Both animal and human studies showed that following injury of the peripheral nervous system such as nerve injury or amputation, the somatosensory cortex that responded to the deafferented body parts become responsive to neighboring body parts. Similarly, there is expansion of the motor representation of the stump area following amputation. ⋯ Changes over a longer time likely involve other additional mechanisms such as long-term potentiation, axonal regeneration and sprouting. While cross-modal plasticity appears to be useful in enhancing the perceptions of compensatory sensory modalities, the functional significance of motor reorganization following peripheral injury remains unclear and some forms of sensory reorganization may even be associated with deleterious consequences like phantom pain. An understanding of the mechanism of plasticity will help to develop treatment programs to improve functional outcome.