Brain research
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Diffuse noxious inhibitory controls (DNIC) acting on trigeminal convergent neurons were compared in sham-operated animals and rats with quinolinic acid induced lesions of the locus coeruleus/subcoeruleus (LC/SC). No significant differences were observed between control animals and those with ipsilateral, contralateral or bilateral lesions of the LC/SC, in respect of: (1) the general properties of the recorded units; and (2) the magnitude of the depressions of C-fiber-evoked responses of convergent neurons produced by immersing each paw in a 50 degrees C water bath (i.e. DNIC). It is concluded that the LC/SC is not involved, at least directly, in the supraspinal part of the loop which subserves DNIC in the rat.
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Transection, lesion and unit recording studies have localized rapid eye movement (REM) sleep mechanisms to the pons. Recent work has emphasized the role of pontine cholinergic cells, especially those of the pedunculopontine tegmentum (PPT). The present study differentiated REM sleep deficits associated with lesions of the PPT from other pontine regions implicated in REM sleep generation, including those with predominantly cholinergic vs non-cholinergic cells. ⋯ PPT lesions reduced phasic events, whereas subceruleus lesions created REM sleep without atonia. Severe REM sleep deficits after large pontine lesions, including PPT and subceruleus, might be explained by simultaneous production of both REM sleep syndromes. However, extensive loss of ACh neurons in the PPT does not disrupt REM sleep atonia.
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To clarify functional roles of mesopontine cholinergic neurons as a component of an activating system, single neuronal activity in the laterodorsal tegmental nucleus (LDT) of undrugged rats, whose head was fixed painlessly, was recorded along with cortical EEG and neck EMG. Activity of some dorsal raphe (DR) neurons was also recorded for comparison. Most of the animals had been sleep-deprived for 24 h. ⋯ Neurons of groups 2 and 3 were the major constituents of the LDT. In most neurons change in firing preceded EEG change, except at awakening from PS. These results suggest that: (1) the LDT is composed of cholinergic neurons with heterogenous characteristics in relation to sleep/wakefulness; and (2) some tegmental cholinergic neurons play a privotal role in induction and maintenance of PS.
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Brain adaptation to hypoosmolality is known to involve volume regulatory losses of both extracellular and intracellular electrolytes. We studied the effects of acute and chronic hypoosmolality on brain content of organic osmolytes as well as electrolytes in rats to ascertain the relative contributions of different brain solutes to the brain volume regulation that occurs under these conditions. Brains were dissected from rats after 2, 7 and 14 d of sustained hyponatremia induced by continuous infusion of 1-deamino-[8-D-arginine]-vasopressin (DDVAP) in combination with a liquid formula, along with control rats fed the same formula in the absence of DDAVP infusions. ⋯ Brain Na+, K+ and Cl- and multiple organic osmolytes (glutamate, creatine, taurine, myo-inositol, glutamine and glycerophosphoryl-choline) decreased markedly by 2 d of hyponatremia, and brain electrolyte and most organic osmolyte contents then remained at these reduced levels throughout the duration of the hyponatremia. Although the absolute magnitude of the brain electrolyte losses was greater than the magnitude of the brain organic osmolyte losses, the organic osmolyte losses accounted for approximately 35% of the total measured brain solute losses during sustained hyponatremia. These results demonstrate that organic osmolytes constitute a significant proportion of the brain solute losses that take place during hyponatremia, and indicate that reductions in both organic osmolyte and electrolyte contents are necessary to accomplish brain volume regulation during adaptation to sustained hypoosmolality.
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The effects of intracerebroventricular administration of reduced metabolites of progesterone on locomotor activity and on exploration in the elevated plus-maze were assessed in adult female rats. Allopregnanolone (3 alpha-hydroxy-5 alpha-pregnan-20-one; 1.25, 5.0, and 10 micrograms) and pregnanolone (3 alpha-hydroxy-5 beta-pregnan-20-one; 2.5, 5.0, and 10 micrograms) elicited anxiolytic effects and, at the highest dose tested, allopregnanolone resulted in sedation. ⋯ The anxiolytic response to pregnanolone was blocked by picrotoxin (0.75 mg/kg, i.p.), a dose that by itself did not affect behavior in the plus-maze. These data suggest that the anxiolytic effect of 3 alpha-hydroxy metabolites of progesterone is mediated by brain GABAA receptors in a stereospecific manner, and are in good agreement with the well-documented in vitro effects of these steroids as potent modulators of the GABAA receptor.