Amygdala beta-noradrenergic influence on hippocampal long-term potentiation in vivo

We have previously shown that hippocampal long-term potentiation (LTP), one form of synaptic plasticity that may underlie learning and memory, is attenuated by blocking neuron activity of the basolateral amygdala (BLA). In the present study we investigated the amygdala noradrenergic or cholinergic contribution to hippocampal LTP formation. When propranolol, a beta-adrenoceptor antagonist, was injected into the BLA 10 min before tetanus, the formation of LTP in the perforant path-dentate granule cell synapses was significantly impaired. Scopolamine, a muscarinic cholinergic receptor antagonist, did not affect the formation of LTP. These results suggest that amygdala beta-noradrenergic activity plays a critical role in modulation of hippocampal LTP.     

Concurrent blockade of beta-adrenergic and muscarinic receptors suppresses synergistically long-term potentiation of population spikes in the rat hippocampal CA1 region

The muscarinic acetylcholine receptor antagonist scopolamine, but not the beta-adrenoceptor antagonist propranolol or atenolol, suppressed tetanus-induced long-term potentiation (LTP) of population spikes in the rat hippocampal CA1 region. When scopolamine was coapplied with propranolol or atenolol, a synergistic effect in preventing LTP generation was observed. On the other hand, the coapplication of scopolamine and atenolol failed to affect tetanus-induced LTP of field EPSP. These findings suggest that cooperative mechanisms via muscarinic and beta-adrenergic receptor activation might contribute to LTP induction in terms of the EPSP-spike potentiation, i.e., an increase in the excitability of hippocampal CA1 pyramidal cells after tetanic stimulation, but are independent of the tetanus-evoked potentiation of a synaptic component.     

Galanin inhibits long-term potentiation at Schaffer collateral-CA1 synapses in guinea-pig hippocampal slices

CNSs AND OTHER Master's-prepared nurses are usually expected to lead research utilization (RU) efforts in organizations, but they often feel unprepared to do so. In this article, the need for clinical RU is discussed and ideas for implementation, using an adaptation of the Conduct and Utilization of Research in Nursing model, are described. The RU process is applied to research about once-a-day temperatures in afebrile patients. To assist nurses who are implementing research-based practice, we list studies that were used for the practice change, summarize the research base on the topic, and offer an example of clinical use of practice guidelines.     

Development of a physiologically based model for the toxicokinetics of C(+/-)P(+/-)-soman in the atropinized guinea pig

A physiologically based model was developed which describes the in vivo toxicokinetics of the highly reactive nerve agent C(+/-)P(+/-)-soman at doses corresponding to 0.8-6 LD50 in the atropinized guinea pig. The model differentiates between the summated highly toxic C(+/-)P(-)-soman stereoisomers at supralethal doses and the individual nontoxic C(+/-)P(+)-isomers. Several toxicant-specific parameters for the soman stereoisomers were measured in guinea pig tissue homogenates. Cardiac output and blood flow distribution were measured in the atropinized, anesthetized, and artificially ventilated guinea pig. The model was validated by comparison of the time courses for the blood concentrations of the two pairs of stereoisomers in the guinea pig after i.v. bolus administration with the blood concentrations predicted by the model. The predictions put forward for the summated C(+/-)P(-)-isomers are in reasonable agreement with the experimental data obtained after doses corresponding to 2 and 6 LD50. In view of large differences in the rates of hydrolysis of the C(+/-)P(+)-isomers, these two isomers had to be differentiated for satisfactory modeling of both isomers. In order to model the toxicokinetics of C(+/-)P(-)-soman at a dose of 0.8 LD50, the almost instantaneous elimination of the C(+)P(-)-isomer at that dose had to be taken into account. The sensitivity of the predictions of the model to variations in the parameters has been studied with incremental sensitivity analysis. The results of this analysis indicate that extension to a model involving four individual stereoisomers is desirable in view of large differences in the biochemical characteristics of the two C(+/-)P(-)- and C(+/-)P(+)-isomers.     

Long-term morphofunctional preservation of guinea pig hippocampal slices following short-term treatment with cyclooxygenase inhibitors

An international educational exchange between nursing students in the United States and the United Kingdom provides the critical link to develop global partnership to share and exchange information and knowledge on nursing and healthcare systems. This study program assists nurses to view themselves as part of the global community and encourages cooperation in advancing the vision of healthcare reform worldwide.     

Cognitive enhancers and hippocampal long-term potentiation in vitro

We review our works on the pharmacological modulation of long-term potentiation (LTP) at guinea pig hippocampal mossy fiber-CA3 synapses in vitro. The magnitude of tetanus-induced LTP at the mossy fiber synapse was augmented by perfusion of slices with several cognitive enhancers, such as bifemelane (1 microM). The mossy fiber LTP was enhanced by somatostatin (0.32 microM) and inhibited in somatostatin-depleted slices from cysteamine-treated guinea pigs. An involvement of the 5-HT3 receptor also showed that granisetron (0.1 microM) enhanced the mossy fiber LTP. The above-mentioned enhancements by perfused agents were commonly reversed, at least in part, by muscarinic antagonists. However, the magnitude of mossy fiber LTP was bidirectionally modulated by muscarinic stimulations of slices with physostigmine or carbachol at different concentrations. The enhancing effects of high-concentration carbachol was antagonized by pirenzepine, and in contrast, the inhibition by low-concentration carbachol was antagonized in the presence of AF-DX116. When guinea pigs were preinjected with the cholinotoxin AF64A, the magnitude of LTP was decreased in the slices prepared from AF64A-treated animals. These results suggest that endogenous acetylcholine dominantly plays facilitatory roles through muscarinic M1 receptors in the induction of mossy fiber LTP. The pharmacological characterization of mossy fiber LTP may be of help to the evaluation of cognitive enhancers at a neuronal circuit level.     

Long-term potentiation in hippocampal slices induced by temporary suppression of glycolysis

1. Temporary suppression of glycolysis by 2-deoxy-D-glucose (2-DG)-long enough to abolish CA1 population spikes (PSs) and reduce field excitatory postsynaptic potentials (EPSPs) by two-thirds-is followed by a sustained rebound of EPSPs and PSs (both up by 70-150%). 2. Post 2-DG long-term potentiation (2-DG-LTP) is prevented by block of N-methyl-D-aspartate (NMDA) receptors (NMDARs). Though 2-DG-LTP is normally expressed by other receptors, in presence of picrotoxin 2-DG causes similar LTP of NMDAR-mediated EPSPs. 3. Stimulation at 1 s-1 fully depotentiates 2-DG-LTP. 4. Unlike tetanic LTP, 2-DG-LTP is not pathway-specific, is not occluded by a preceding tetanic LTP (or vice versa) and is insensitive to block of NO synthesis. 5. Hypoglycemic states may have long-lasting after-effects on cerebral synaptic function.     

Chronic in vivo morphine administration facilitates primed-bursts-induced long-term potentiation of Schaffer collateral-CA1 synapses in hippocampal slices in vitro

In this study, the effects of chronic morphine administration (20-30 days) on long-term potentiation (LTP) were investigated at the Schaffer collateral-CA1 pyramidal cell synapses of the rat hippocampal slices. Orthodromic population spike (OPS) amplitude and delay (peak latency) were measured as indices of increase in synaptic efficacy. The amounts of LTP of OPS delay and LTP of OPS amplitude were higher in slices from dependent rats. Perfusion of slices from control and dependent rats with morphine containing ACSF and delivering tetanic stimulation, showed that short-term presence of morphine could not mimic the LTP enhancing effects of chronic morphine administration, however, attenuated the amount of LTP of OPS amplitude in slices of dependent rats. This study supports the hypothesis that the susceptibility of CA1 synapses to plastic changes increases by chronic, not acute exposure to morphine and suggests that a withdrawal phenomenon might be an underlying mechanism for the observed augmented LTP of OPS amplitude in slices of dependent rats.     

Involvement of dendritic adhesion molecule telencephalin in hippocampal long-term potentiation

Telencephalin (TLCN) is a cell adhesion molecule belonging to the immunoglobulin superfamily whose expression is restricted to neurons within the most highly developed brain segment, telencephalon. Immunoelectronmicroscopic study revealed that in the hippocampal CA1 region, TLCN was localized at the surface membrane of postsynaptic spines of pyramidal cell dendrites but not at that of axonal terminals. Blocking of TLCN function using anti-TLCN antibody or recombinant soluble TLCN protein caused a striking suppression of the long-term potentiation (LTP) at the Schaffer collateral-CA1 synapses. The suppression was observed even when the blocking was initiated immediately after the tetanic stimuli. These observations suggest a role for TLCN-mediated cell-cell interactions as a key step in the development of LTP.     

Protected-site phosphorylation of protein kinase C in hippocampal long-term potentiation

One important aspect of synaptic plasticity is that transient stimulation of neuronal cell surface receptors can lead to long-lasting biochemical and physiological effects in neurons. In long-term potentiation (LTP), generation of autonomously active protein kinase C (PKC) is one biochemical effect persisting beyond the NMDA receptor activation that triggers plasticity. We previously observed that the expression of early LTP is associated with a phosphatase-reversible alteration in PKC immunoreactivity, suggesting that autophosphorylation of PKC might be elevated in LTP. In the present studies we tested the hypothesis that PKC phosphorylation is persistently increased in the early maintenance of LTP. We generated an antiserum that selectively recognizes the alpha and betaII isoforms of PKC autophosphorylated in the C-terminal domain. Using western blotting with this antiserum we observed an NMDA receptor-mediated increase in phosphorylation of PKC 1 h after LTP was induced. How is the increased phosphorylation maintained in the cell in the face of ongoing phosphatase activity? We observed that dephosphorylation of PKC in vitro requires the presence of cofactors normally serving to activate PKC, i.e., Ca2+, phosphatidylserine, and diacylglycerol. Based on these observations and computer modeling of the three-dimensional structure of the PKC catalytic core, we propose a "protected site" model of PKC autophosphorylation, whereby the conformation of PKC regulates accessibility of the phosphates to phosphatase. Although we have proposed the protected site model based on our studies of PKC phosphorylation in LTP, phosphorylation of protected sites might be a general biochemical mechanism for the generation of stable, long-lasting physiologic changes.     

The protective action of tetrodotoxin and (+/-)-kavain on anaerobic glycolysis, ATP content and intracellular Na+ and Ca2+ of anoxic brain vesicles

Because recent reports point to Na+ channel blockers as protective agents directed against anoxia-induced neuronal damage including protection of anaerobic glycolysis, the influences of tetrodotoxin (TTX) and (+/-)-kavain on anoxic rat brain vesicles were investigated with respect to lactate synthesis, vesicular ATP content and cytosolic free Na+ and Ca2+ ([Na+]i, [Ca2+]i), both of the latter determined fluorometrically employing SBFI and FURA-2, respectively. After anoxia, basal lactate production was increased from 2.9 to 9.8 nmol lactate/min/mg protein. Although lactate synthesis seemed to be stable for at least 45 min of anoxia, as deduced from the linearity of lactate production, the ATP content declined continuously with a half life (tau 1/2) of 14.5 min, indicating that anaerobic glycolysis was insufficient to cover the energy demand of anoxic vesicles. Correspondingly, [Na+]i and [Ca2+]i increased persistently after anoxia by 22.1 mmol/l Na+ and 274.9 nmol/l Ca2+, determined 6.3 min after onset. An additional stimulation of vesicles with veratridine accelerated the drop of ATP (tau 1/2 = 5.1 min) and provoked a massive Na+ overload, which levelled off to 119 mmol/l Na+ within a few minutes. Concomitantly, [Ca2+]i increased linearly with a rate of 355 nmol Ca2+/l/min. Despite the massive perturbation of ion homeostasis, lactate production was unaffected during the first 8 min of veratridine stimulation. However, complete inhibition of lactate synthesis took place 30 min after veratridine was added. The Na+ channel blockers TTX and (+/-)-kavain, if applied before anoxia, preserved vesicular ATP content, diminished anoxia-induced increases in [Na+]i and [Ca2+]i and prevented both the veratridine-induced increases of [Na+]i and [Ca2+]i and the inhibition of lactate production. The data indicate a considerable Na+ influx via voltage-dependent Na+ channels during anoxia, which speeds up the decline in ATP and provokes an increase in [Ca2+]i. A massive Na+ and Ca2+ overload induced by veratridine failed to influence lactate synthesis directly, but initiated its inhibition.     

45Ca exchange in rat cortex slices in conditions of long-term potentiation

OBJECTIVE: An attempt was made to find out how many operations were performed in Europe in 1995 for congenital heart disease. METHODS: Representatives from the 20 most active European countries which could supply reliable information were contacted. They were asked to contact all surgeons performing significant numbers of operations for congenital heart disease in their country. The numbers of operations on children under and over 1 year operated on with and without cardiopulmonary bypass were collected. No attempt was made to collect more detailed information such as operative mortality as it was felt that many surgeons would be reluctant to give their results and the data would be incomplete. RESULTS: A total of 27,976 operations were recorded, of which 20,318 were performed with cardiopulmonary bypass and 7658 without. The total population of the 20 European countries was 448 million and the mean number of operations performed with cardiopulmonary bypass per million was 45.4. However, the rate varied from 9.1 to 70.1. The percentage of operations on cardiopulmonary bypass performed in the first year of life varied from 9.4% to 44.4%. CONCLUSIONS: The total of nearly 28,000 operations in 1995 is probably an underestimate, but it has been difficult to collect this data at all. Obviously many smaller countries have not been included, and some older patients undergoing operations such as atrial septal defect closure in adult units have been missed. The number of open heart operations per million vary in different countries and this presumably represents differing referral patterns. If their numbers are low in some countries, these results may be helpful in persuading their governments that more resources are needed for congenital heart surgery. It is also interesting to see the variation in the number of operations performed in the first year of life. Those countries with a lower rate may have a backlog of older patients who were previously palliated, or their surgeons may still prefer initial palliation and later correction in some conditions rather than early correction. It is hoped that with better prospective data collection, an assessment can be repeated in 2000.     

Correlates of membrane metabolism and long-term potentiation in slices of rat cerebral cortex

A group of interrelated parameters of the membrane metabolism was studied during stimulation of the lateral olfactory tract in the rat brain slices of olfactory cortex. All the parameters were studied in respect to electrical activity of the slices in three temporal points after the tetanisation: 3-5, 15, and 30 min. Regular phasic alterations of the metabolism parameters occurred in most of the cases. Their functional significance is discussed.     

45Ca metabolism in slices of rat cerebral cortex during long-term potentiation

Ca45 kinetics was studied in 5, 15 and 30 min after potentiation. In the induction phase (1-5 min), the potentiation decreased the fraction of intracellular bound Ca. The 15-25 min potentiation the intra- and extracellular Ca levels was equal to the control ones. In 30 min, a considerable redistribution of Ca in the cells occurred.     

Etomidate does not alter recovery after anoxia of evoked population spikes recorded from the CA1 region of rat hippocampal slices

BACKGROUND: Etomidate is an anesthetic agent that reduces the cerebral metabolic rate and causes minimal cardiovascular depression. Its ability to improve recovery after anoxia or ischemia is equivocal. An in vitro neuronal preparation was used to examine the action of etomidate on electrophysiologic and biochemical parameters during and after anoxia. METHODS: The Schaffer collateral pathway was stimulated, and a postsynaptic evoked population spike was recorded from the CA1 pyramidal cell layer of rat hippocampal slices. Etomidate or propylene glycol, its solvent, was present 15 min before, during, and 10 min after anoxia. Adenosine triphosphate, sodium, and potassium concentrations were measured at the end of anoxia in tissue treated with etomidate, propylene glycol, or with no added drugs. RESULTS: Etomidate did not alter recovery after 6 min of anoxia. The population spikes from untreated slices recovered to 32% of their preanoxic amplitude, and slices treated with 0.5, 3, and 30 microg/ml etomidate recovered to 24%, 35%, and 13%, respectively. Slices treated with propylene glycol, equivalent to that in 3 and 30 microg/ml etomidate, recovered to 46% and 12%, respectively, and this was not significantly different from untreated slices. Etomidate did not attenuate the decrease in adenosine triphosphate concentrations during anoxia. The increase in sodium and the decrease in potassium during anoxia were significantly attenuated by 30 but not by 3 microg/ml etomidate. CONCLUSIONS: A range of etomidate concentrations did not significantly alter recovery of the evoked population spike after anoxia in rat hippocampal slices. A high concentration of etomidate did attenuate the increase in sodium and the decrease in potassium during anoxia.     

Effects of prenatal protein malnutrition on hippocampal long-term potentiation in freely moving rats

It has been demonstrated that prenatal protein malnutrition significantly affects hippocampal plasticity, as measured by long-term potentiation, throughout development. This paper focuses on the hippocampal dentate granule cell population response to two separate paradigms of tetanization of the medial perforant pathway in prenatally protein-malnourished and normally nourished adult male rats. The 100-pulse paradigm consisted of the application of ten 25-ms-duration bursts of 400 Hz stimulation with an interburst interval of 10 s. The 1000-pulse paradigm consisted of the application of five 500-ms bursts of 400 Hz stimulation with an interburst interval of 5 s. No between-group differences were obtained for input/output response measures prior to tetanization. No between-group, nor between-paradigm, differences were obtained in the degree of population EPSP slope enhancement. However, in response to both paradigms, prenatally malnourished animals showed significantly less enhancement of the population spike amplitude (PSA) measure than normally nourished animals. Normally nourished animals showed a significantly greater level of PSA enhancement in response to the 100-pulse paradigm than the 1000-pulse paradigm. Prenatally malnourished animals showed no significant differences in the degree of PSA enhancement between the two paradigms. Results indicate that short duration bursts (< or = 25 ms) are more effective in inducing maximal PSA enhancement in normally nourished rats than longer duration stimulus bursts. The apparent inability of prenatally malnourished rats to transfer enhanced cellular activation (population EPSP slope enhancement) into enhanced cellular discharge (PSA enhancement) suggests that a preferential enhancement of GABAergic inhibitory modulation of granule cell excitability may result from the prenatal dietary insult. Such potentiation of inhibitory activity would significantly lower the probability of granule cell population discharge, resulting in the significantly lower level of PSA enhancement obtained from these animals.     

Effects of different types of anticholinesterase agents on in vivo hippocampal population spikes in rats

Laparoscopic oophoropexy may prevent recurrent (repeat torsion of the same ovary) or sequential (subsequent torsion of the contralateral ovary) ovarian torsion. Two adolescent girls with sequential ovarian torsion underwent laparoscopic plication of utero-ovarian ligaments. Neither patient has had recurrence in the 6. 5 and 2 years, respectively, since surgery. Sequential ovarian torsion has been described,1-8 and in almost every instance the authors raised the question of whether or not oophoropexy should have been done at the time of the initial episode of torsion. In virtually every instance the second ovary was removed and the patient rendered menopausal. In two patients with sequential ovarian torsion the ovary was saved and oophoropexy performed laparoscopically in an effort to prevent recurrence.