Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We tested a theoretical prediction that patterns of excitatory input activity that consistently fail to activate target neurons sufficiently to induce synaptic potentiation will instead cause a specific synaptic depression. To realize this situation experimentally, the Schaffer collateral projection to area CA1 in rat hippocampal slices was stimulated electrically at frequencies ranging from 0.5 to 50 Hz. Nine hundred pulses at 1-3 Hz consistently yielded a depression of the CA1 population excitatory postsynaptic potential that persisted without signs of recovery for greater than 1 hr after cessation of the conditioning stimulation. This long-term depression was specific to the conditioned input, ruling out generalized changes in postsynaptic responsiveness or excitability. Three lines of evidence suggest that this effect is accounted for by a modification of synaptic effectiveness rather than damage to or fatigue of the stimulated inputs. First, the effect was dependent on the stimulation frequency; 900 pulses at 10 Hz caused no lasting change, and at 50 Hz a synaptic potentiation was usually observed. Second, the depressed synapses continued to support long-term potentiation in response to a high-frequency tetanus. Third, the effects of conditioning stimulation could be prevented by application of NMDA receptor antagonists. Thus, our data suggest that synaptic depression can be triggered by prolonged NMDA receptor activation that is below the threshold for inducing synaptic potentiation. We propose that this mechanism is important for the modifications of hippocampal response properties that underlie some forms of learning and memory.
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PMID:Homosynaptic long-term depression in area CA1 of hippocampus and effects of N-methyl-D-aspartate receptor blockade. 135 90

The possibility that zinc (Zn2+) induces giant depolarizing potentials (GDPs) by blocking pre- and postsynaptic gamma-aminobutyric acidB (GABAB) receptors in area CA1 of rat hippocampal slices was investigated. Monosynaptic GABAA receptor-mediated fast and GABAB receptor-mediated late inhibitory postsynaptic potentials (IPSPs) were evoked in the presence of the excitatory amino acid (EAA) receptor antagonists 6,7-dinitroquinoxaline-2,3-dione (DNQX) and D,L-amino-5-phosphonovalerate (APV). Addition of Zn2+ (0.3 mM) resulted in the appearance of long-lasting GDPs which obscured monosynaptic late IPSPs. The GABAA receptor antagonist bicuculline methiodide (BMI; 30 microM) blocked fast monosynaptic IPSPs and GDPs, revealing a monosynaptic late IPSP that was prolonged in the presence of Zn2+ and blocked by the GABAB receptor antagonist CGP 35,348 (100 microM). The selective GABAB receptor agonist baclofen (10 microM) depressed monosynaptic IPSPs and population excitatory postsynaptic potentials (pEPSPs) by acting at presynaptic GABAB receptors. Depression of synaptic potentials by baclofen was unaffected by Zn2+. These results suggest that induction of GDPs in area CA1 does not result from an action of Zn2+ at GABAB receptors. We suggest instead that Zn2+ induces GDPs by inducing synchronized discharge of GABAergic interneurons.
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PMID:Induction of giant depolarizing potentials by zinc in area CA1 of the rat hippocampus does not result from block of GABAB receptors. 135 30

In the past 2 years powerful evidence has emerged to suggest that nitric oxide functions as a neurotransmitter in both the central and peripheral nervous systems. Recent evidence suggests that it may play a role in mediating forms of synaptic plasticity such as long-term potentiation in the CA1 region of the hippocampus, and long-term depression in the cerebellum. Abnormal secretion of nitric oxide may be responsible for the neurotoxicity mediated by NMDA receptors that results in the pathophysiology of strokes and neurodegenerative diseases.
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PMID:Nitric oxide and neurons. 135 98

The AMPA/KA receptor antagonist 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX) and the NMDA receptor antagonist 2-amino-5-phosphonovalerate (D-APV) were used to investigate the contribution of excitatory amino acid (EAA) receptors to graded bursting activity recorded in the CA1 region of the rat hippocampal slice following bath application of the convulsant drug bicuculline methiodide (BIC, 2-3 microM). CNQX (5-9 microM) significantly antagonised the burst in a reversible, concentration-dependent manner (n = 5). The effect involved a reduction in the amplitude but not the number of population spikes of the burst and also a depression of the underlying burst excitatory post-synaptic potential (EPSP). D-APV (5-25 microM), in contrast, reduced the amplitude and number of spikes in the burst but had no effect on the burst EPSP (n = 5). Following a single concentration of CNQX (5 microM), applied in the presence of bicuculline, it was observed that the components of epileptiform response which remained could be completely abolished with D-APV (10 microM; n = 10). It was also shown that, following elimination of synaptic transmission with CNQX (5 microM), application of bicuculline (2-3 microM) induced a small burst that could be reversibly antagonised with D-APV (10 microM). These results show that evoked epileptiform activity witnessed in the presence of bicuculline involves the activation of both AMPA and NMDA receptors, the AMPA receptor activation making the major contribution. The burst mediated by NMDA receptors is not dependent on prior activation of AMPA receptors.
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PMID:The contribution of AMPA and NMDA receptors to graded bursting activity in the hippocampal CA1 region in an acute in vitro model of epilepsy. 135 60

We previously reported that an N-methyl-D-aspartate receptor-independent component of long-term potentiation with an apparent delayed onset can be induced in area CA1 of the hippocampus. Here we show that some but not all of this delay in onset can be accounted for by a transient heterosynaptic depression. We also show that N-methyl-D-aspartate receptor-independent long-term potentiation is induced only in the input pathway tetanized, and not in a second pathway. However, prior induction of N-methyl-D-aspartate receptor-independent long-term potentiation in one pathway precludes later induction in an independent pathway. Calcium entry through dihydropyridine-sensitive Ca2+ channels may be a critical step for induction of N-methyl-D-aspartate receptor-independent long-term potentiation in area CA1 [Grover L. M. and Teyler T.J. (1990) Nature 347, 477-479]. Since the distribution [Westenbroek R. E. et al. (1990) Nature 347, 281-284] of dihydropyridine-sensitive Ca2+ channels in CA1 neuron dendrites does not suggest a basis for input-specific induction of long-term potentiation, an additional process may confer the specificity we observed. Tetanic stimulation of afferents into area CA1 can elicit several processes: a transient heterosynaptic depression, and a transient homosynaptic potentiation, as well as N-methyl-D-aspartate receptor-dependent and -independent long-term potentiation.
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PMID:N-methyl-D-aspartate receptor-independent long-term potentiation in area CA1 of rat hippocampus: input-specific induction and preclusion in a non-tetanized pathway. 135 88

Somatostatin and gamma-aminobutyric acid (GABA) are co-localized in some neurons in the CA1 area of the hippocampus. Since it is possible that the peptide and the amino acid are co-released, the interactions between the actions of somatostatin and GABA-ergic inhibitory post-synaptic potentials (IPSPs) in the CA1 pyramidal neurons of guinea pig hippocampal slices have been investigated. Somatostatin (2 microM) induced a hyperpolarization of the CA1 neurons associated with a reduction in the input resistance of the cells. These effects were not blocked by picrotoxinin (20 microM) or phaclofen (1 mM). Chelation of intracellular Ca2+ (Ca2+i) with BAPTA or the inhibition of protein kinase C (PKC) with sphingosine (30 microM) had no significant effects on the hyperpolarizing actions of somatostatin. The peptide suppressed the GABAA receptor-mediated fast IPSPs and the GABAB receptor-mediated slow IPSPs, but had no significant effect on the excitatory post-synaptic potentials (EPSPs). Somatostatin-induced depression of the IPSPs was not due to the hyperpolarization of the neurons. Baclofen (20 microM) suppressed the EPSP, as well as the fast and the slow IPSPs. The hyperpolarization of the CA1 neurons caused by somatostatin was greatly reduced in the presence of baclofen, an effect that was not due to the hyperpolarization of the cell by baclofen. The presence of QX-314 in the CA1 neurons, which suppressed the Na+ spikes and the slow IPSPs, prevented the hyperpolarization of the neurons by somatostatin and baclofen.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Actions of somatostatin on GABA-ergic synaptic transmission in the CA1 area of the hippocampus. 135 22

GYKI 52466 is a specific antagonist of the neuronal excitation mediated by the non-NMDA type excitatory amino acid receptors, at several sites in the central nervous system. The experiments presented here show that the drug has a dose-dependent, slowly developing, long-lasting and reversible inhibitory action on the field potentials recorded from the CA1 region of the rat hippocampus, in vitro. Its action is similar to that of the well-known non-NMDA receptor blocker, CNQX. When the stimulus intensity-dependence of the population spikes was investigated, both drugs shifted the input-output curves in a parallel manner, while the maximum responses were only slightly depressed at the doses applied. With i.v. application, GYKI 52466 also inhibited the hippocampal field potentials recorded from the CA1 region of anesthetized rats dose-dependently. The inhibition was relatively weak compared to the effect found in earlier studies in the spinal cord, by the same doses. Four mg/kg i.v., a doses which is able to block spinal reflexes completely, caused an only about 20% depression of the recorded responses in the hippocampal CA1 area.
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PMID:Inhibition of hippocampal field potentials by GYKI 52466 in vitro and in vivo. 136 29

A few mouse minimum lethal doses (MLD) of tetanus toxin injected into rat hippocampus triggers prolonged changes in neuronal function. Spontaneously recurring epileptic discharges arise in both the injected and the contralateral, uninjected hippocampus. The seizures remit after about 6 weeks, to be succeeded by a permanent depression of hippocampal neuronal responses. There is no evidence of any loss of pyramidal cells at this low dose of toxin. Here we studied presumptive inhibitory, GABAergic neurons, using in situ hybridization (ISH) with a probe directed against the mRNA encoding glutamic acid decarboxylase (GAD), at each of 1, 2, 4 and 8 weeks after injection of tetanus toxin. Epileptic activity was recorded from hippocampal slices prepared from both injected and contralateral hippocampi of rats at each time point, unexpectedly persisting until 8 weeks. There were no significant differences in the numbers of neurons containing GAD mRNA between toxin- and vehicle-injected and control rats in any hippocampal subfield, at any survival time, except for an apparently transient loss of hilar signal in vehicle-injected rats at 1 and 2 weeks which we attribute to a significant, transient loss of neuronal GAD mRNA to below the threshold for detection by ISH using this probe. In contrast there was a marked increase in GAD mRNA in the toxin-injected group, which reached a peak at 4 weeks, and returned to control levels by 8 weeks. The changes were bilateral and were most marked in the hilus of the dentate area, but were also significant in CA3 and CA1. Upregulation of GAD mRNA was preceded by an increase in the levels of the mRNA for the alpha subunit of the GTP binding protein, Gs (Gs alpha), at 2 weeks which affected the GABAergic neurons selectively, and not the pyramidal or granule cells. These marked changes in GAD mRNA may contribute to putative adaptive responses within GABAergic neurons, which would help contain epileptic activity in these chronic foci. The changes in GAD expression may be due to mechanisms acting through an increase in mRNA encoding Gs alpha.
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PMID:Increased expression of GAD mRNA during the chronic epileptic syndrome due to intrahippocampal tetanus toxin. 139 47

The mechanisms responsible for long-lasting, activity-dependent decreases in synaptic efficacy are not well understood. We have examined the initial steps required for the induction of long-term depression (LTD) in CA1 pyramidal cells by repetitive low frequency (1 Hz) synaptic stimulation. This form of LTD was synapse specific, was saturable, and required activation of post-synaptic NMDA receptors. Loading CA1 cells with the Ca2+ chelator BAPTA prevented LTD, whereas lowering extracellular Ca2+ resulted in the induction of LTD by stimulation that previously elicited long-term potentiation. Following LTD, synaptic strength could be increased to its original maximal level, indicating that LTD is reversible and not due to deterioration of individual synapses. Induction of homosynaptic LTD therefore requires an NMDA receptor-dependent change in postsynaptic Ca2+ which may be distinct from that required for long-term potentiation.
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PMID:Mechanisms underlying induction of homosynaptic long-term depression in area CA1 of the hippocampus. 141 3

Monosynaptic evoked field potentials (EPs) in response to paired-pulse stimulation (20 ms interval) were recorded in area CA1 and fascia dentata of the same animal in the course of development of a kindled focus in the CA1 region. A significant reduction of paired pulse depression in response to medium and high stimulation intensity was found in CA1. A similar change was found in the fascia dentata in response to medium intensity stimulation of the angular bundle. In contrast, at high intensity, paired pulse depression was enhanced in the fascia dentata in the course of kindling. These results indicate that kindling epileptogenesis is accompanied by regionally different changes in recurrent inhibition: a reduction in CA1 and intensity dependent changes in fascia dentata.
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PMID:Hippocampal kindling leads to different changes in paired-pulse depression of local evoked field potentials in CA1 area and in fascia dentata. 150 90


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