Activation of intrinsic hippocampal theta oscillations by acetylcholine in rat septo-hippocampal cocultures.
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1. Oscillatory electro-encephalographic activity at theta frequencies (4-15 Hz) can be recorded from the hippocampus in vivo and depends on intact septal projections. The hypothesis that these oscillations are imposed on the hippocampus by rhythmically active septal inputs was tested using dual intracellular recordings from CA1 and CA3 pyramidal cells in septo-hippocampal cocultures. 2. Septo-hippocampal cocultures displayed spontaneous oscillatory synaptic activity at theta frequencies. In CA3 cells, EPSP/IPSP sequences predominated, whereas only EPSPs were apparent in CA1 cells. Synaptic potentials in CA3 cells preceded those in CA1 cells by 5-10 ms. 3. Oscillatory synaptic activity was blocked in cocultures by the muscarinic antagonist atropine (0.1 microM), facilitated but unchanged in frequency upon application of the acetylcholinesterase inhibitor neostigmine (1 microM), and not seen in hippocampal monocultures. 4. The muscarinic agonist methacholine (5-20 nM) induced oscillatory synaptic activity at 4-15 Hz in hippocampal monocultures, which was identical to that occurring spontaneously in septo-hippocampal cocultures. 5. Synaptic theta activity was observed in cocultures of septal tissue with subdissected hippocampal slices containing area CA3 alone, but not in septo-CA1 cocultures. 6. We conclude that oscillatory synaptic activity at theta frequencies, with similar characteristics to theta activity in vivo, can be generated by the hippocampal network in response to activation of muscarinic receptors by synaptically released acetylcholine from septal afferents. Furthermore, the oscillatory activity is determined by mechanisms intrinsic to the hippocampal circuitry, particularly area CA3. Rhythmic septal input is not required. (+info)
Pharmacological characterization of endogenous acetylcholine release from primary septal cultures.
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A detailed investigation of endogenous acetylcholine (ACh) release from primary embryonic septal cultures is described in this study. Applications of veratridine (25 microM) or increasing extracellular concentrations of K(+) (6-100 mM) induced robust increases of endogenous ACh release ( approximately 500-15,000 fmol/well/10 min). Release stimulated with K(+) (25 mM) was sustainable and did not differ significantly over 180 min. ACh release was dependent on extracellular choline and decreased proportionally to choline concentrations (0-10 microM). For example, after 30 min of stimulation with K(+) (25 mM), release in the absence of extracellular choline was approximately 25% of that associated with 10 microM choline. The vesicular transport blocker vesamicol (0-5 microM) almost completely prevented stimulated and basal ACh release at the highest concentration evaluated, which suggests a mostly vesicular mode of release in this model. The M(2)-like muscarinic receptor antagonist AF-DX 384 (0-10 microM) enhanced stimulated ACh release ( approximately 150% at the highest concentration evaluated), whereas the nonspecific muscarinic receptor agonist oxotremorine (0-10 microM) decreased stimulated release (approximately 60% at the highest concentration evaluated), suggesting that functional muscarinic autoreceptors exist in primary embryonic septal cultures. Novel findings concerning ACh release from primary embryonic septal cultures are reported herein, and the demonstration of ACh release gives further credit to the use of these cultures for studying cholinergic system functioning and in relation to physiology and pathology. (+info)
Endoscopic surgery for obstructive hydrocephalus.
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Endoscopic surgery is popular in the neurosurgical field. The purpose of this study was to determine the role of endoscopy in obstructive hydrocephalus. From 1989 to 1999, we performed 81 endoscopic third ventriculostomies and 10 septostomies. Seventy-one of 81 operations were performed with endoscopic third ventriculostomy alone and 10 patients had endoscopic third ventriculostomy and ventriculoperitoneal shunt simultaneously. Age distribution varied from 2 months to 62 years of age. Our selection criteria included aqueductal stenosis (39 patients) and obstructive hydrocephalus due to tumor or cyst (42 patients). The most common candidate for endoscopic septostomy was atresia of the foramen of Monro (4 patients). Endoscopic septostomy was also performed to simplify shunting in patient; with multiseptated ventricle due to shunt infection, germinoma, thalamic tumor, craniopharyngioma, cyst and brain abscess. Sixty-five of 71 patients who were treated with endoscopic third ventriculostomy alone showed successful results (91.5%). However, 6 patients had unsatisfactory results and they needed a ventriculoperitoneal shunt. With no mortality, transient surgical complications were observed in 7 patients: 2 transient diabetes insipidus from electrical injury to the pituitary stalk, 1 epidural hematoma from sudden drainage of CSF, 1 delayed intraventricular hemorrhage. 2 obstruction of fenestration site and 1 transient memory disturbance from injury to the fornix. Endoscopic septostomy was useful in simplifying shunting in all cases with complicated hydrocephalus. Endoscopic surgery is straightforward and effective in appropriately selected cases with obstructive by drocephalus. (+info)
Sustained ethanol inhibition of native AMPA receptors on medial septum/diagonal band (MS/DB) neurons.
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The direct impact of ethanol on native, non-NMDA glutamate receptors was examined in acutely isolated MS/DB neurons from rat. The impact of ethanol functional tolerance and physical dependence on non-NMDA receptor function was also determined. Non-NMDA receptors were defined pharmacologically as predominantly the AMPA subtype, because both AMPA- or kainate-activated currents were blocked by GYKI 52466, a selective AMPA receptor antagonist. The relative magnitude of potentiation of AMPA-activated currents by 10 or 100 microM cyclothiazide was consistent with recombinant AMPA flop-subtype receptors. Finally, the selective kainate receptor agonist, SYM 8021, induced little current in MS/DB neurons. AMPA receptor currents when activated by kainate were sensitive to ethanol, showing inhibition of approximately 5 - 50% when 10 - 300 mM ethanol and kainate were briefly co-applied (3 s). Ethanol (100 mM) also inhibited both the initial transient peak and sustained currents activated by AMPA. Inhibition was sustained during continuous ethanol superfusions of 5 min, suggesting a lack of acute tolerance to ethanol-induced AMPA receptor blockade. Rapid application of 3 - 3000 microM kainate activated concentration-dependent currents in MS/DB neurons from Control and Ethanol Dependent animals that were not significantly different. Also, direct ethanol inhibition (300 mM) of kainate-activated currents was not reduced by ethanol dependence, suggesting a lack of functional tolerance. These results suggest that native AMPA receptors on MS/DB neurons are inhibited by pharmacologically-relevant concentrations of ethanol. However, these receptors, unlike NMDA receptors, do not undergo adaptation with sustained ethanol exposure sufficient to induce physical dependence. British Journal of Pharmacology (2000) 129, 87 - 94 (+info)
Novel dual repressor elements for neuronal cell-specific transcription of the rat 5-HT1A receptor gene.
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The level of expression of the 5-HT1A receptor in the raphe and limbic systems is implicated in the etiology and treatment of major depression and anxiety disorders. The rat 5-HT1A receptor gene is regulated by a proximal TATA-driven promoter and by upstream repressors that inhibit gene expression. Deletion of a 71-base pair (bp) segment between -1590/-1519 bp of the 5-HT1A receptor gene induced over 10-fold enhancement of transcriptional activity in both 5-HT1A receptor-expressing (RN46A raphe and SN48 septal) cells and receptor-negative (L6 myoblast and C6 glioma) cells. A 31-bp segment of the repressor was protected from DNase I digestion by RN46A or L6 nuclear extracts. Within the 31-bp segment, a single protein complex was present in receptor-expressing cells that bound a novel 14-bp DNA element; in receptor-negative cells, an additional complex bound an adjacent 12-bp sequence. In receptor-positive but not receptor-negative cells, mutation of the 14-bp element to eliminate protein binding abrogated repression to nearly the same extent as deletion of the -1590/-1519 bp segment. Additional mutation of both 14-bp and 12-bp elements abolished protein binding and repressor activity in receptor-negative cells. Thus a single protein-DNA complex at the 14-bp element represses the 5-HT1A receptor gene in 5-HT1A receptor-positive neuronal cells, whereas adjacent DNA elements provide a dual repression mechanism in 5-HT1A receptor-negative cells. (+info)
In many species, reproductive function can be modified by olfactory inputs. We employed bilateral olfactory bulbectomy (BULBX) to examine the effects of disruption of olfactory inputs on mating behavior and ovulation in female musk shrews. On several measures, sexual behavior was delayed in BULBX females compared to controls. When females were mated on five consecutive days, the majority of unoperated and sham-operated (SHAM) shrews ovulated; only one female subjected to BULBX ovulated. Administration of GnRH induced ovulation in the majority of females. We performed immunocytochemistry to assess the effects of bulbectomy on mating-induced responses of the neural GnRH system. In BULBX and SHAM females, the numbers of cells containing proGnRH immunoreactivity in the medial septum (MS)/diagonal band (DB) were significantly elevated 1 h after mating. Bulbectomy increased the numbers of GnRH-immunoreactive peptide-containing cells in the preoptic area, but it reduced neuron numbers in the MS/DB, as compared with those in SHAM controls. In addition, the GnRH-immunoreactive fiber area in the median eminence was greater in BULBX than in SHAM females. In sum, female musk shrews can display receptivity and engage in copulation without olfactory inputs. However, the olfactory system is essential for mating-induced ovulation. (+info)
Induction and maintenance of the neuronal cholinergic phenotype in the central nervous system by BMP-9.
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Bone morphogenetic proteins (BMPs) have multiple functions in the developing nervous system. A member of this family, BMP-9, was found to be highly expressed in the embryonic mouse septum and spinal cord, indicating a possible role in regulating the cholinergic phenotype. In cultured neurons, BMP-9 directly induced the expression of the cholinergic gene locus encoding choline acetyltransferase and the vesicular acetylcholine transporter and up-regulated acetylcholine synthesis. The effect was reversed upon withdrawal of BMP-9. Intracerebroventricular injection of BMP-9 increased acetylcholine levels in vivo. Although certain other BMPs also up-regulated the cholinergic phenotype in vitro, they were less effective than BMP-9. These data indicate that BMP-9 is a differentiating factor for cholinergic central nervous system neurons. (+info)
Reduction in the density and expression, but not G-protein coupling, of serotonin receptors (5-HT1A) in 5-HT transporter knock-out mice: gender and brain region differences.
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The aim of the present study was to investigate the mechanisms underlying the desensitization of 5-HT(1A) receptors in the dorsal raphe and hypothalamus of serotonin (5-HT) transporter knock-out mice (5-HTT -/-). The density of 5-HT(1A) receptors in the dorsal raphe was reduced in both male and female 5-HTT -/- mice. This reduction was more extensive in female than in male 5-HTT -/- mice. 8-OH-DPAT-induced hypothermia was absent in female 5-HTT -/- and markedly attenuated in 5-HTT +/- mice. The density of 5-HT(1A) receptors also was decreased significantly in several nuclei of the hypothalamus, amygdala, and septum of female 5-HTT -/- mice. 5-HT(1A) receptor mRNA was reduced significantly in the dorsal raphe region, but not in the hypothalamus or hippocampus, of female 5-HTT +/- and 5-HTT -/- mice. G-protein coupling to 5-HT(1A) receptors and G-protein levels in most brain regions were not reduced significantly, except that G(o) and G(i1) proteins were reduced modestly in the midbrain of 5-HTT -/- mice. These data suggest that the desensitization of 5-HT(1A) receptors in 5-HTT -/- mice may be attributable to a reduction in the density of 5-HT(1A) receptors. This reduction is brain region-specific and more extensive in the female mice. The reduction in the density of 5-HT(1A) receptors may be mediated partly by reduction in the gene expression of 5-HT(1A) receptors in the dorsal raphe, but also by other mechanisms in the hypothalamus of 5-HTT -/- female mice. Finally, alterations in G-protein coupling to 5-HT(1A) receptors are unlikely to be involved in the desensitization of 5-HT(1A) receptors in 5-HTT -/- mice. (+info)