Tzu-Ping Yu scite author profile

Orphanin FQ/nociceptin (OFQ), a recently characterized natural ligand for the opioid receptor-like 1 (ORL1) receptor, shares structural similarity to the endogenous opioids. Our previous study found that OFQ, like classical opioids, modulated synaptic transmission and long-term potentiation (LTP) in the hippocampal CA1 region, suggesting a modulatory role for OFQ in synaptic plasticity involved in learning and memory. In the present study we investigated the action of OFQ in the dentate gyrus and explored possible underlying cellular mechanisms. Field potential recordings showed that OFQ significantly inhibited excitatory synaptic transmission and LTP induction in the dentate lateral perforant path. In the presence of OFQ, the excitatory postsynaptic potential (EPSP) slope-population spike (E-S) curve was shifted to the right, and no significant change was found in paired-pulse facilitation, suggesting a postsynaptic mechanism responsible for the inhibition of synaptic transmission. Under whole cell voltage-clamp conditions, bath application of OFQ activated K+ currents in most granule cells tested at a holding potential of -50 mV, suggesting that OFQ could reduce the excitability of dentate granule cells by hyperpolarizing cell membranes. OFQ also inhibited the amplitude of N-methyl-D-aspartate (NMDA) receptor-mediated excitatory postsynaptic currents (EPSCs) without affecting alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor-mediated EPSCs. This inhibition was not blocked by opioid receptor antagonists. Furthermore, the inward currents evoked by focal application of NMDA to granule cells were suppressed by OFQ in a dose-dependent manner, suggesting that OFQ may suppress LTP by inhibiting the function of postsynaptic NMDA receptors. These results demonstrate that OFQ may negatively modulate synaptic transmission and plasticity in the dentate gyrus through postsynaptic mechanisms, including hyperpolarization of granule cells as well as inhibition of the function of postsynaptic NMDA receptors/channels in dentate granule cells.

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Orphanin FQ inhibits synaptic transmission and long-term potentiation in rat hippocampus

Fein

Phan

et al. 1997

Hippocampus

107

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It is known that opioid peptides acting on opioid receptors can modulate hippocampal synaptic functions. Although a novel member of the opioid receptor family, ORL1 receptors, that displays high‐sequence homology with classical opioid receptors is abundant in the hippocampus, little is known regarding its role in synaptic function. The present study was designed to investigate whether activation of the ORL1 receptor by its natural ligand, orphanin FQ, could modulate synaptic transmission and synaptic plasticity in the hippocampus. The actions of orphanin FQ in the CA1 and dentate gyrus were examined by field potential recordings in response to stimulation of Schaffer collaterals and perforant path, respectively. Our results showed that orphanin FQ, but not the inactive analog des‐Phe1‐orphanin FQ, reduced both the slope of the excitatory postsynaptic potentials and population spike amplitude. The inhibitory effect of orphanin FQ is dose dependent and probably involves a presynaptic mechanism, as suggested by the significantly increased paired‐pulse facilitation evoked in the presence of orphanin FQ. In addition, orphanin FQ was found to inhibit the induction of long‐term potentiation at the Schaffer collateral‐CA1 synapse. These results demonstrate that orphanin FQ can function as an inhibitory modulator regulating synaptic transmission and synaptic plasticity in the hippocampus, suggesting that activation of ORL1 receptors may play an important role in synaptic plasticity involved in learning and memory. Hippocampus 7:88–94, 1997. © 1997 Wiley‐Liss, Inc.

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γ-Aminobutyric acid type A receptors modulate cAMP-mediated long-term potentiation and long-term depression at monosynaptic CA3–CA1 synapses

McKinney

Lester

et al. 2001

Proc. Natl. Acad. Sci. U.S.A.

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A but, in contrast to the later phase, does not require protein synthesis. In addition, the cAMP-induced LTP is associated with a reduction of paired-pulse facilitation, suggesting that presynaptic modification may be involved. Furthermore, we found that SpcAMPS induced LTD in slices pretreated with picrotoxin, a ␥-aminobutyric acid type A (GABA A) receptor antagonist. This form of LTD depends on protein synthesis and protein phosphatase(s) and is accompanied by an increased ratio of failed synaptic transmission. These results suggest that GABA A receptors can modulate the effect of cAMP on synaptic transmission and thus determine the direction of synaptic plasticity.

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Requirement of a critical period of GABAergic receptor blockade for induction of a cAMP‐mediated long‐term depression at CA3‐CA1 synapses

Lester

Davidson

2003

Synapse

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Previous reports show that bath application of the adenosine 3' : 5'-cyclic monophosphate (cAMP) analog, Sp-cAMPS, induces a protein kinase A (PKA)-dependent and protein synthesis-dependent long-term potentiation (LTP) at hippocampal CA3-CA1 synapses. Recently, we reported a novel form of long-term depression (LTD) induced by concurrent application of Sp-cAMPS and picrotoxin, the gamma-aminobutyric acid type A (GABA(A)) receptor antagonist. In the present study, we further investigated the mechanisms underlying such cAMP-mediated LTD. Synaptically connected CA3 and CA1 cells of hippocampal slice cultures were impaled by sharp electrodes. Excitatory postsynaptic potentials recorded from a CA1 pyramidal cell were evoked by single action potentials in a CA3 cell. Picrotoxin was applied to slices at various time points after Sp-cAMPS was perfused. We found that Sp-cAMPS-induced potentiation could be converted to depression when picrotoxin was applied within 30 min after perfusion of Sp-cAMPS. Picrotoxin applied 1 h after perfusion of Sp-cAMPS had no effect on Sp-cAMPS-induced synaptic potentiation. Once LTP was induced by Sp-cAMPS and expressed for 1 h, the subsequent application of Sp-cAMPS and picrotoxin produced no new changes in synaptic strength. Also, once LTD was induced and expressed for 1 h, subsequent Sp-cAMPS produced no new changes in synaptic strength. These findings suggest that a synapse is committed irreversibly to cAMP-mediated LTP or LTD during a critical period and that later signals cannot interconvert these two fates.

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Three‐dimensional quantification of mossy‐fiber. Presynaptic boutons in living hippocampal slices using confocal microscopy

Brown

1994

Synapse

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Confocal laser scanning microscopy (CLSM) was used to visualize presynaptic elements of mossy-fiber synapses in living rat hippocampal slices. Mossy fiber (mf) axons and their boutons were labeled in transverse hippocampal slices by injecting one of three fluorescent dyes (diI, diA, or fast diI) into stratum granulosum of the dentate gyrus and/or stratum lucidum of CA3. Three-dimensional (3D) images of the mf boutons were obtained from serial optical sections in stratum lucidum. The 3D data were used to quantify and characterize the size and shape of the boutons based on their volumes (V) and surface areas (A), and the latter were compared with conventional 2D analyses. Various geometric models were fitted to the V-A relationship, one of which provided a reasonable approximation to the data. The results demonstrate that this approach is useful for quantifying and characterizing the size and shape of mf expansions and raise the possibility of detecting and analyzing in real time activity-dependent modifications in presynaptic structure.

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Tzu-Ping Yu

Orphanin FQ/Nociceptin Inhibits Synaptic Transmission and Long-Term Potentiation in Rat Dentate Gyrus Through Postsynaptic Mechanisms

Orphanin FQ inhibits synaptic transmission and long-term potentiation in rat hippocampus

γ-Aminobutyric acid type A receptors modulate cAMP-mediated long-term potentiation and long-term depression at monosynaptic CA3–CA1 synapses

Requirement of a critical period of GABAergic receptor blockade for induction of a cAMP‐mediated long‐term depression at CA3‐CA1 synapses

Three‐dimensional quantification of mossy‐fiber. Presynaptic boutons in living hippocampal slices using confocal microscopy

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