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1.
The development of adren- and cholinergic nervous plexuses in the brain base arteries was studied by histochemical methods of Falck and Kelle in animals and fetuses of 10-22 days, newborn rats, animals of 10, 20, 30, 40, 60 and 120 days of life and 1 and 2 years old rats. The cholinergic nerve fibres were first found in the basilar, vertebral and internal carotid arteries on the 15th and 16th days of ontogenesis. Specific fluorescence of adrenergic conductors on the same arteries is revealed somewhat later--from the 17th and 18th days of the intrauterine development. Further formation of the cholin- and adrenergic innervation of the arteries of the Willis' circle goes on synchronously. The number of nerve fibres increases with the growth of the artery diameter. The concentration of catecholamines and the activity of AChE in them gradually increases. The greatest density of nerve fibres per 1 mm2 is determined in 20-day-old rats. The number of cholinergic nerve fibres on the arteries of the brain base is equal to that of adrenergic fibres during the whole period of postnatal ontogenesis. By the 30th day the effector nervous apparatus has a definite structure. In old rats the activity of AChE and the content of catecholamines drop, the amount and concentration of nerve fibres decrease.  相似文献   

2.
Prenatally stressed offspring exhibit a variety of physiological and behavioral alterations. This paper highlights those alterations associated with prenatal stress-induced elevations in glucocorticoid secretion. Three major alterations are identified that may be produced by glucocorticoid-induced actions on the developing hippocampus. Changes include reductions in steroid receptors that bind endogenous glucocorticoids, enhanced secretion of stress hormones and increased reactivity or emotionality in stressful situations. Some of these alterations may be ameliorated by early postnatal environmental manipulations such as adoption and handling procedures. These latter results suggest that prenatal stress-induced effects of glucocorticoids extend into the early postnatal period to produce long-term hippocampal and behavioral alterations. Support for this hypothesis is based on studies demonstrating that the hippocampus undergoes considerable maturational changes during the early postnatal period such as establishing the regional distribution of corticosteroid receptor densities and development of hippocampal dentate gyrus cells as well as cholinergic systems. Hippocampal corticosteroid receptors are involved in the regulation of glucocorticoid negative feedback and hippocampal dentate gyrus and cholinergic development are influenced by endogenous glucocorticoids and are implicated in the development of defensive or stress-induced behavior. The developing hippocampus appears especially vulnerable to alterations induced by prenatal stress-induced elevations in glucocorticoids that continue to produce their effects throughout the early postnatal period.  相似文献   

3.
The aim of this research was to determine whether early maturation of the dorsal hippocampal cholinergic system mediates behavior exhibited by preweanling rats in the presence or absence of an unfamiliar adult male rat, a threatening stimulus. The behavioral responses that were examined included behavioral inhibition or freezing which emerges at 2 weeks of age and ultrasonic vocalizations. Prior to behavioral testing, oxotremorine, an M2 muscarinic receptor agonist that reduces cholinergic release from presynaptic terminals, was infused into the dorsal hippocampal dentate gyrus. Results demonstrated that 14-day-old rats with bilateral hippocampal infusions of a 1 microgram dose of oxotremorine exhibited significant deficits in freezing when exposed to the adult male rat. Importantly, oxotremorine had no significant effects on ultrasound emission and ambulatory activity when rat pups were tested in social isolation. Thus, effects of oxotremorine in the hippocampal dentate gyrus do not produce global changes in behavior. Results suggest that cholinergic release into the dorsal hippocampus facilitates the display of behavioral inhibition at the end of the second postnatal week. Behavioral deficits in freezing may reflect an oxotremorine-induced disruption of hippocampal cholinergic function underlying the processing of biologically relevant olfactory stimuli as well as mechanisms associated with attention.  相似文献   

4.
The effect of long-term adrenalectomy on NMDA receptors in the rat hippocampus was studied. Hippocampal sections of control and adrenalectomized rats were incubated with [3H]MK-801, a radiolabeled non-competitive inhibitor of the NMDA receptor. Analysis by in vitro autoradiography showed a significant decrease in [3H]MK-801 binding in the dentate gyrus, CA1 and CA4 areas, as well as the temporal cortex. Results of this study suggest that glucocorticoids are vital for the regulation of the NMDA receptors.  相似文献   

5.
We studied the postnatal development of the release of acetylcholine (ACh) and of presynaptic, release-inhibiting muscarinic autoreceptors in the rat hippocampus. To this end, hippocampal slices (350 microns thick) from rats of various postnatal ages (postnatal day 3 [P3] to P16) were preincubated with [3H]choline and stimulated twice (S1, S2: 360 pulses, 2 ms, 3 Hz, 60 mA) during superfusion with physiological buffer containing hemicholinium-3 (10 microM). In parallel, the activities of hemicholinium-sensitive high-affinity choline uptake (HACU, in synaptosomes) and of choline acetyltransferase (ChAT, in crude homogenates) were determined as markers for the cholinergic ingrowth. In hippocampal slices preincubated with [3H]choline, the electrically evoked overflow of 3H at S1 increased from 0.11 (P3) to 0.81% of tissue 3H (P16), the latter value being still much lower than that of hippocampal slices from adult rats (2.89% of tissue 3H). Already at P3 the evoked overflow of 3H was Ca(2+)-dependent and sensitive to tetrodotoxin, indicating an action potential-evoked exocytotic mechanism of ACh release. The muscarinic agonist oxotremorine (1 microM) significantly inhibited the evoked ACh release in hippocampal slices with increasing effectivity from P4 to P16; no significant effect was detectable at P3. The ACh esterase inhibitor physostigmine and the muscarinic antagonist atropine (1 microM, each) exhibited significant inhibitory and facilitatory effects, respectively, only at P15-16. The specific activities of both hippocampal HACU (pmoles/mg protein/min) and ChAT (nmoles/mg protein/min) continuously increased from P3 to P16. It is concluded (1) that cholinergic nerve terminals arriving at the hippocampal formation during postnatal ingrowth are already endowed with the apparatus for action potential-induced, Ca(2+)-sensitive (exocytotic) ACh release; (2) that, in contrast, the expression of presynaptic muscarinic autoreceptors on these cholinergic axon terminals is delayed; and (3) that autoinhibition due to endogenous ACh develops even later, probably when the density of presynaptic terminals in the hippocampus and hence, the concentration of released ACh has reached a suprathreshold value.  相似文献   

6.
The present study examined, in rats with N-methyl-D-aspartate-induced lesions of the basolateral amygdala, the effects of long-term adrenalectomy (i.e. 12-13 weeks) on memory for spatial and cued learning in a water maze. In sham amygdala-lesioned rats, adrenalectomy induced impairments in acquisition and retention performance for the spatial, but not the cued water-maze task. The adrenalectomized rats sustained selective degeneration and death of granule cells in the dentate gyrus dorsal blade. Continuous supplementation of the animals' drinking water with an extremely low dose of corticosterone (20 microg/ml) did not block the retention deficit, but blocked the acquisition deficit and the dentate gyrus neurodegenerative changes. The finding that the memory impairments and dentate gyrus neurodegeneration are dissociable supports the view that the adrenalectomy-induced memory effects are due to the loss of activational effects of circulating adrenal hormones at the time of learning. In adrenalectomized rats which received corticosterone as well as those which did not, lesions of the basolateral amygdala blocked the impairing effects of adrenalectomy on spatial learning and memory. However, the basolateral amygdala lesions did not affect the neurodegenerative changes in the dentate gyrus. In conclusion, the present findings provide further evidence that the basolateral amygdala is involved in regulating stress hormone effects on learning and memory.  相似文献   

7.
Dual innervation of snake cerebral blood vessels by adrenergic and cholinergic fibres was demonstrated with the use of histochemical methods. Although the nerve plexuses are somewhat less dense, the essential features of innervation of the blood vessels are similar to those of mammals with the exception that the adrenergic plexuses are more prominent than the cholinergic plexuses. The major arteries of the cerebral carotid system have a rich nerve supply. However, the innervation is less rich in the basilar and poor in the spinal (vertebral) arteries. Although the arteries supplying the right side of head are poorly developed, three pairs of arteries, cerebral carotids, ophthalmics and spinals, supply the snake brain. The carotids and ophthalmics are densely innervated and are accompanied by thick nerve bundles, suggesting that the nerves preferentially enter the skull along those arteries. Some parenchymal arterioles are also dually innervated. Connection between the brain parenchyma and intracerebral capillaries via both cholinergic and adrenergic fibres was observed. In addition cholinergic nerve fibers, connecting capillaries and the intramedullary nerve fibre bundles, were noticed. Capillary blood flow may be influenced by both adrenergic and cholinergic central neurons. The walls of capillaries also exhibit heavy acetylcholinesterase activity. This may indicate an important role for the capillary in the regulation of intracerebral blood flow.  相似文献   

8.
Previous studies indicated that changes in attentional processing of conditioned stimuli (CSs) are regulated by the basal forebrain (BF) cholinergic system. In those studies, destruction of BF innervation of the neocortex interfered with enhancements in CS processing, and destruction of BF innervation of the hippocampus prevented reductions in CS processing. In the current experiments, the performance of rats with 192 IgG-saporin lesions of both hippocampal and neocortical cholinergic input was examined. These combined lesions disrupted both enhancements and reductions in CS processing. Lesioned rats also showed more general impairments in conditioned responding. These results indicate that, although the neural systems for increasing and decreasing attentional processing may be largely independent, combined loss of hippocampal and neocortical cholinergic input may produce behavioral impairments that are not apparent after either lesion alone. (PsycINFO Database Record (c) 2010 APA, all rights reserved)  相似文献   

9.
Recent epidemiological evidence suggests that adult cardiovascular risk is determined by birth weight and factors that influence birth weight, such as maternal nutrition. Data from animal models suggest that an interaction between nutrition and glucocorticoid hormones "programs" increased risk of adult hypertension. Increased fetal exposure to maternal glucocorticoids that is proposed to occur from a reduction in the placental barrier to maternal glucocorticoid, 11beta-hydroxysteroid dehydrogenase, is suggested to program hypertension in the resultant offspring from both glucocorticoid-treated and maternally protein-restricted rats. The extent to which postnatal glucocorticoid stimulation may influence the progression of hypertension in the offspring from protein-restricted rat dams was assessed in 6-week-old male Wistar rats, prenatally exposed to either an 18% casein (control) or 9% casein (low protein) diet. Rats from each dietary group were sham operated, adrenalectomized or adrenalectomized, and treated with 20 mg corticosterone/kg body weight per day. Before surgery, systolic blood pressure was significantly higher in the low protein-exposed rats compared with controls (165+/-3.8 versus 142+/-3.3 mm Hg, P<.0001). Adrenalectomy of the low protein-exposed animals significantly reduced the blood pressure to control levels, while corticosterone replacement restored the hypertensive state. No effect of adrenalectomy on blood pressure was observed in 18% casein controls. In both dietary groups adrenalectomy decreased brain, but not hepatic, glucocorticoid-sensitive enzyme activities and corticosterone treatment elevated activities of all enzymes. The data suggest that maternal diet-induced hypertension is dependent on an intact adrenal gland postnatally and that glucocorticoids are key trophic agents in maintaining the high blood pressure.  相似文献   

10.
Long-Evans female rats sustained aspirative lesions of the septohippocampal pathways and, 2 weeks later, received into the dorsal hippocampus grafts prepared from the septal area (rich in cholinergic neurons; Group Sep) or from the mesencephalic raphe (poor in cholinergic neurons; Group Rap) of rat fetuses. Lesion-only (Group Les) and virtually intact (Group Sham) rats served as controls. Between 9.5 and 10.5 months after grafting surgery, we found the lesions to decrease choline acetyltransferase activity (ChAT), high affinity synaptosomal uptake of [3H]choline (HACU) and serotonin concentration ([5-HT]), as well as to increase the noradrenaline concentration ([NA]) in the dorsal hippocampus. Raphe grafts increased [5-HT] to 456% of normal, but had only weak or no effects on the other lesion-induced modifications in brain neurochemistry. Septal grafts dramatically increased ChAT activity and HACU, enhanced [5-HT], and reduced [NA] to near-normal levels. We also found a significant negative correlation between HACU and [NA] in rats with lesions, whether grafted or not. These data show that grafts providing the denervated hippocampus with a new cholinergic innervation might be able to exert inhibitory effects on the lesion-induced increase of [NA]. Since such an increase is indicative of sympathetic sprouting, the finding of reduced [NA] in rats with graft-derived cholinergic reinnervation of the hippocampus is in line with the hypothesis that hippocampal cholinergic denervation plays a crucial role in the induction of sympathetic sprouting. However, our data do not allow to distinguish whether grafts rich in cholinergic neurons inhibited the sympathetic sprouting itself, or rather reduced the NA content of sprouted fibers.  相似文献   

11.
The neuroendocrine and the immune systems are interconnected. Monoclonal antibodies against major histocompatibility complex (MHC) class I, class II, CD4, CD8, pan T cells, and macrophages were used for immunostaining brains from adrenalectomized (ADX) and shamoperated rats to investigate the potential involvement of the immune/inflammatory mechanisms in the neurodegeneration of hippocampus after ADX. Our results demonstrate upregulation of MHC class II, CD4 antigens and activated microglial marker-ED1 expression selectively in the hippocampus after ADX. The absence of CD5 reactivity precludes that these activated cells were T lymphocytes. The activated microglial cells may either be instrumental in the hippocampal neuronal loss or activated secondarily to the neuronal degeneration after long-term adrenalectomy.  相似文献   

12.
Granule cells in the rat hippocampal dentate gyrus contain intracellular receptors for the adrenal hormone corticosterone. Activation of these receptors seems essential for granule cell viability, since removal of the adrenal gland (adrenalectomy) results within three days in apoptotic-like degeneration of granule cells. In the present study we used extracellular in vitro recording methods to study the synaptic transmission in the dentate gyrus of adrenalectomized animals, in sham-operated controls and adrenalectomized rats treated with a low dose of corticosterone. We found that particularly three days after adrenalectomy orthodromic field responses in the dentate gyrus were reduced in amplitude. Corticosterone-treated rats did not show this impairment of synaptic transmission. Antidromically-evoked field responses were also reduced after adrenalectomy, which indicates that postsynaptic cell properties rather than signal transduction in the synapses are under steroid control. Responses to paired pulse stimulation were only marginally affected, suggesting that interneuronal networks may be less affected by the hormones than the principal cells. These electrophysiological data indicate that adrenalectomy induced apoptotic-like degeneration in the hippocampal dentate gyrus is clearly associated with impaired processing of incoming information.  相似文献   

13.
BACKGROUND & AIMS: We recently showed that activation of the hypothalamus-pituitary-adrenal axis may mitigate the progress of acute pancreatitis. To clarify the mechanism, the role of endogenous glucocorticoids in pancreatic acinar cell death was examined. METHODS: The occurrence of apoptosis was studied in adrenalectomized or sham-operated rats with or without cerulein-induced pancreatitis. The effects of RU38486, a glucocorticoid-receptor antagonist, on the survival of cultured acinar cells (AR42J) were also examined. RESULTS: Adrenalectomy caused increases in terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate-biotin nick-end labeling (TUNEL) of acinar nuclei depending on the time after adrenalectomy but not of other cell types in the pancreas and in other digestive organs. Electron microscopy showed the characteristic features of apoptosis in the TUNEL-labeled acinar cells. In cerulein pancreatitis of adrenalectomized rats, the TUNEL-labeled acinar nuclei increased remarkably depending on the time after cerulein infusion. Replacement of glucocorticoids blocked the occurrence of apoptosis in these experiments. RU38486 induced dose dependently the apoptosis of AR42J cells. CONCLUSIONS: These results provide evidence that endogenous glucocorticoids are an important factor for acinar cell survival. Endogenous glucocorticoids may protect acinar cells by decreasing their sensitivity to the induction of cell death during acute pancreatitis.  相似文献   

14.
Previous research has demonstrated increased messenger RNA expression and peptide content in an opioid system localized to hippocampal dentate granule cells in aged rats. This altered regulation of dynorphin was correlated with the emergence of an age-related impairment in spatial learning. Considerable evidence exists for additional effects of aging on systems that provide input to the dynorphin-containing dentate granule cells. Such changes have been well documented for loss of perforant path innervation from entorhinal cortex, deterioration in septohippocampal cholinergic neurons, and high amounts of glucocorticoids that have, among their targets, receptors located in the dentate gyrus. Similar to the effects of aging on hippocampal dynorphin, age-related changes in each of these systems correlate with the severity of spatial learning impairment in aged rats. This raises the possibility that dysregulation of dynorphin in the aged brain is a reactive response to antecedant change(s) in this circuitry, a hypothesis that was examined by separately manipulating in young rats the three neural/neuroendocrine systems identified above. Of the three models examined only removal of the perforant path reproduced the effect of aging on dynorphin in the hippocampal formation. An immunotoxin was used in Experiment 1 to selectively remove septo-hippocampal cholinergic neurons in young rats. No alteration in hippocampal opioid peptides was produced by this treatment. Experiment 2 examined effects of exposure to excess corticosterone. Adrenalectomized rats exhibited a significant decrease in hippocampal dynorphin-A (1-8) content, which was reversed by corticosterone replacement at a concentration approximating normal basal levels. Dynorphin-A (1-8) content, however, was not reliably increased by exposure to excess corticosterone. In contrast, perforant path removal was found to reproduce the effect of aging on dynorphin content; either aspiration of the entorhinal cortex or knife-cut transections of the perforant path reliably increased hippocampal dynorphin content. These results support the conclusion that age-related deterioration in the septohippocampal cholinergic system and evaluated exposure to corticosterone are not sufficient to induce an elevation in hippocampal dynorphin content. Only removal of the perforant path innervation was found to reproduce the elevation in hippocampal dynorphin content observed in aged rats with hippocampal-dependent learning impairment.  相似文献   

15.
OBJECTIVE: To determine the extent of glucocorticoid counter-regulatory control in the slimming action of oleoylestrone. DESIGN: Control and adrenalectomized rats were subjected to a seven-day treatment with 3.5 micromol/kg/d oleoylestrone in liposomes injected i.v. continuously by implanted osmotic minipumps. SUBJECTS: Sham-operated control and adrenalectomized lean Zucker rats. MEASUREMENTS: Body weight and food intake; plasma glucose, urea, insulin, leptin and corticosterone; liver glycogen. RESULTS: Treatment with oleoyl-estrone resulted in decreases in body weight and in food intake, as well as in circulating glucose, insulin and leptin. Combined adrenalectomy and oleoyl-estrone treatment resulted in a loss of almost 15% body weight in only seven days, with a severe drop in circulating glucose and insulin, almost total disappearance of plasma leptin and liver glycogen and a 3-fold rise in circulating urea. Food intake decreased sharply, which resulted in the exhaustion of energy reserves. CONCLUSION: The results presented here, strongly support the hypothesis that glucocorticoids play an important role in the modulation of oleoyl-estrone-induced imbalance of energy intake and expenditure. The large effect of oleoyl-estrone on glucose, glycogen- and protein-derived (urea levels) energy in adrenalectomized rats, provides more evidence for the assumed protective role of glucocorticoids against the oleoyl-estrone-induced net loss of energy reserves. The results also show the powerful destabilizing effects of unchecked oleoyl-estrone on energy balance.  相似文献   

16.
The cholinergic septohippocampal system has been associated with learning and memory, as evidenced by the severe loss of these functions in lesioned animals as well as in senile demented patients. In an attempt to comprehend the physiological basis of the cholinergic innervation for hippocampal functions, numerous studies employed the in-vitro hippocampal slice preparation and analyzed the consequences of exposing the cells to cholinergic ligands. Many effects of activating a cholinergic receptor in the hippocampus were thus described, including blockade of several types of potassium conductances, yet few of these effects are intuitively related to the involvement of the cholinergic system in hippocampal plasticity. An alternative approach involves focusing on the possible effect of low concentration of cholinergic ligands on reactivity of the hippocampus to afferent stimulation. We found two new actions of acetylcholine (ACh); The first one is a fast onset, short lived increase in cellular responses to activation of the N-methyl-D-aspartate (NMDA) receptor, and the second one is a slow onset, long lasting increase in reactivity to afferent stimulation, resembling that produced by a tetanic stimulation, which we called muscarinic long term potentiation (LTPm). The latter effect is mediated by a postsynaptic M2 receptor, and it shares several properties with the more familiar tetanic LTP. In addition, LTPm involves a rise of intracellular calcium concentration and an activation of both a tyrosine kinase and a serine/threonine kinase. Intuitively, LTPm is better related to hippocampal plasticity than the other reported effects of ACh in the hippocampus. Indeed, aged rats, which are cognitively impaired, lack LTPm while they do express other muscarinic actions. It is proposed that LTPm is an important link between the cholinergic action and function in the hippocampus.  相似文献   

17.
In order to investigate how the selectively lesioned cholinergic system at the early postnatal age influences adult learning behavior, the effects of postnatal administration of ethylcholine mustard aziridinium ion (AF64A), a selective cholinergic neurotoxin, on the acquisition of 2 kinds of learning tasks were examined. Rat pups received an intraventricular injection of AF64A (1.0 or 2.0 nmol) or saline on postnatal day 8, and in adulthood (at 3 months of age), they were tested with the acquisition of passive avoidance response (PAR) and 8-arm radial maze learning. In PAR testing, a significant impairment was observed in male AF64A-treated rats. In addition, in the radial maze task, AF64A-treated rats needed significantly more trials to acquire the task as compared with saline-treated animals. Histological examination after behavioral testings revealed a marked reduction of acetylcholinesterase-stained fibers in the hippocampus and dentate gyrus of the AF64A-treated groups, while there were no detectable changes in the striatum or cerebral cortex. The results suggest that early postnatal AF64A administration induced learning deficits in adulthood which were associated with long-lasting cholinergic denervation in hippocampal formation.  相似文献   

18.
Fetal hippocampal cells grafted into the excitotoxically lesioned hippocampus of adult rats are capable of extending axonal projections into the host brain. We hypothesize that the axonal growth of grafted fetal cells into specific host targets, and the establishment of robust long-distance efferent graft projections, require placement of fetal cells in close proximity to appropriate axon guidance pathways. Intracerebroventricular administration of kainic acid in adult rats leads to a specific loss of hippocampal CA3 pyramidal neurons. We grafted 5'-bromodeoxyuridine-labeled embryonic day 19 hippocampal cells into adult hippocampus at four days post-kainic acid lesion, and quantitatively measured the projection of grafted cells into the contralateral hippocampus and the septum after three to four months survival using Fluoro-Gold and 1,1'-dioctadecyl-3,3,3',3'-tetramethylindocarbocyanine (Dil) tracing. Grafts located in or near the degenerated CA3 cell layer exhibited numerous neurons which established commissural projections with the contralateral hippocampus. However, such projection did not occur in intrahippocampal grafts located away from the CA3 cell layer. In contrast, neurons in all grafts established robust projections into the septum regardless of location within hippocampus although grafts located near the degenerated CA3 cell layer displayed more neurons with such projections. Location of grafted cells clearly influences the development of efferent graft projections into distant targets in the adult host brain, particularly access to axon guidance pathways to facilitate the formation of projections. The establishment of robust long-distance commissural projections of fetal hippocampal grafts is clearly dependent on their placement in or near the degenerated CA3 cell layer, suggesting that appropriate axon guidance pathways for commissural pathways are tightly focussed near this cell layer. However, the establishment of septal projections of these grafts was not dependent on specific location within the CA3 cell layer, suggesting that axonal guidance mechanisms to the septum are more diffuse and not limited to the CA3 dendritic layers. The results underscore that fetal hippocampal grafts are capable of partly restoring lesioned hippocampal circuitry in adult animals when appropriately placed in the host hippocampus.  相似文献   

19.
The distribution of the major cholinergic regulatory enzyme acetylcholinesterase (AChE, EC 3.1.1.7) has been extensively studied in the human brain, but the distribution of the closely related enzyme butyrylcholinesterase (BuChE, EC 3.1.1.8) is largely unknown. Because of the importance of BuChE and AChE in Alzheimer's disease, we have studied the distribution of BuChE in the normal human amygdala and hippocampal formation and compared it with that of AChE by using histochemical techniques. In the amygdala, the distribution of BuChE differed significantly from that of AChE in that BuChE was found primarily in neurons and their dendritic processes, whereas AChE was found predominantly in the neuropil. BuChE-positive neurons were present in up to 10% of the neuronal profiles in lateral, basolateral (basal), basomedial (accessory basal), central, cortical, and medial amygdaloid nuclei. AChE was found primarily in the neuropil in these nuclei with only a few AChE-positive neurons. In the hippocampal formation, BuChE was also found in neurons and not in the neuropil, whereas AChE was found in both neurons and in the neuropil. BuChE and AChE neurons were present in the polymorphic layer of the dentate gyrus, as well as the stratum oriens and stratum pyramidale of the hippocampus proper. There was considerable overlap in shapes, sizes, and numbers of BuChE- and AChE-positive neurons, suggesting that the enzymes were colocalized in neurons of the hippocampal formation. The distinct distribution of BuChE suggests that it may have specific functions including coregulation of cholinergic and noncholinergic neurotransmission in human amygdala and hippocampal formation.  相似文献   

20.
Interleukin-1 (IL-1) receptors have been characterized in mouse pituitary and brain. Previous studies have demonstrated that IL-1 receptor density is high in the dentate gyrus in the hippocampus and that lipopolysaccharide (LPS) injection caused an 80% decrease in the number of hippocampal IL-1 receptors, while pituitary receptors in the anterior pituitary were unaffected. In order to investigate on the role of glucocorticoids (GC) in the control of IL-1 receptor expression in the brain and pituitary, the effect of stress, exogenous GC administration or adrenalectomy (ADX) on IL-1 receptor density was determined. Assays were achieved under basal and LPS-stimulated conditions by in situ quantitative autoradiography technique using human recombinant 125I-IL-1 alpha as a tracer. An increase of GC concentration in serum, following immobilization stress or dexamethasone (DEX) treatment (short and long term), did not modify, in the hippocampus, the density of IL-1 receptors under basal conditions or after peripheral LPS injection. On the contrary, ADX significantly decreased IL-1 receptor density in LPS-treated animals. In the anterior pituitary, a significant increase in the density of basal IL-1 receptors was observed 6 h following immobilization stress or after 7 days of DEX treatment while short-term DEX treatments are ineffective. In contrast to what was observed in the hippocampus, no changes in pituitary receptor densities were observed in ADX mice. These results indicate that hippocampal and pituitary IL-1 receptor expressions are differentially regulated by GC. Therefore, this report constitutes the first demonstration of an in vivo regulation of IL-2 receptors in the pituitary.  相似文献   

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