Neuroscience
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Comparative Study
Molecular profiling indicates avian branchiomotor nuclei invade the hindbrain alar plate.
It is generally believed that the spinal cord and hindbrain consist of a motor basal plate and a sensory alar plate. We now have molecular markers for these territories. The relationship of migrating branchiomotor neurons to molecularly defined alar and basal domains was examined in the chicken embryo by mapping the expression of cadherin-7 and cadherin-6B, in comparison to genetic markers for ventrodorsal patterning (Otp, Pax6, Pax7, Nkx2.2, and Shh) and motoneuron subpopulations (Phox2b and Isl1). ⋯ After the migration has ended, the branchiomotor neurons switch expression from cadherin-7 to cadherin-6B. These findings demonstrate that a specific subset of primary motor neurons, the branchiomotor neurons, migrate into the alar plate of the chicken embryo. Consequently, the century-old concept that all primary motor neurons come to reside in the basal plate should be revised.
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Cyclooxygenase-2 (COX-2) after induction peripherally, and within the CNS, plays an important role in producing inflammatory pain. However, its role in neuropathic pain models is controversial. Recently a robust and persistent model of partial nerve injury pain, the spared nerve injury (SNI) model, has been developed. ⋯ Furthermore, rofecoxib treatment (1 and 3.2 mg/kg for 5 and 3 days respectively starting on the day of surgery) failed to modify the development of allodynia and hyperalgesia in the SNI model. However, rofecoxib significantly reduced inflammatory hypersensitivity evoked by injection of complete Freund's adjuvant into one hindpaw, indicating that the doses used were pharmacologically active. The pain hypersensitivity produced by the SNI model is not COX-2-dependent.
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The present study was to determine how afferents from the substantia nigra pars reticulata (SNr) of the basal ganglia to the pedunculopontine tegmental nucleus (PPN) in the brainstem could contribute to the control of behavioral states. We used anesthetized and acutely decerebrated cats (n=22). Repetitive electrical stimulation (10-100 Hz, 20-50 microA, for 4-20 s) to the ventrolateral part of the PPN produced rapid eye movement (REM) associated with a suppression of postural muscle tone (REM with atonia). ⋯ On the other hand, an injection of muscimol into the dorsolateral part of the SNr (1-15 mM, 0.1-0.25 microl) induced REM with atonia, which was in turn eliminated by a further injection of muscimol into the PPN (5-10 mM, 0.2-0.25 microl). These results suggest that a GABAergic projection from the SNr to the PPN could be involved in the control of REM with atonia, signs which indicate REM sleep. An excessive GABAergic output from the basal ganglia to the PPN in parkinsonian patients may induce sleep disturbances, including a reduction of REM sleep periods and REM sleep behavioral disorders (REM without atonia).
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Neuronal calcium sensor-1 (NCS-1) is a member of the EF-hand calcium-binding protein superfamily which has been implicated in the modulation of a number of neuronal functions. In this study we have examined the expression of NCS-1 in adult rat dorsal root ganglion (DRG) neurons. NCS-1 immunoreactivity was present in most DRG neurons, including many calcitonin gene-related peptide (CGRP) expressing ones. ⋯ NCS-1 immunoreactivity was also present in the dorsal horn of the spinal cord, and in peripheral cutaneous terminals innervating blood vessels, where it was coexpressed with CGRP. In addition, NCS-1 in peripheral nerves was concentrated at nodes and adjoining paranodes. These results suggest novel roles for NCS-1, particularly in relation to channel function at nodes and to the peripheral release of vasoactive peptides.
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Comparative Study
Effects of ketamine anesthesia on central nociceptive processing in the rat: a 2-deoxyglucose study.
Ketamine is a dissociative anesthetic with complex actions on the CNS. We investigated here the effects of ketamine anesthesia on somatosensory processing in the rat spinal cord, thalamus, and cerebral cortex, using the quantitative 2-deoxyglucose mapping technique. Unanesthetized or ketamine-anesthetized male Sprague-Dawley rats received a s.c. injection of a dilute formaldehyde solution (5%, 0.08 ml) into a forepaw, inducing prolonged noxious afferent input, or an equal volume of isotonic saline as a control stimulus. ⋯ In the investigated brain regions, ketamine did not abolish noxious-evoked increases in glucose uptake, which were in fact enhanced in the forelimb cortex and in the lacunosus-molecularis layer of the hippocampus. The dissociation between the spinal and supraspinal effects of ketamine suggests a specific antinociceptive action on spinal circuits, in parallel with complex changes of the activity of brain circuits involved in somatosensory processing. More generally, this study shows that functional imaging techniques are able to quantitatively assess the effects of anesthetic drugs on nociceptive processing at different levels of the neuraxis.