EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The effects of protein kinase inhibitors on N-methyl-D-aspartate (NMDA)-receptor-mediated, voltage-dependent calcium channel (VDCC)-mediated, and 100-Hz long-term potentiation (LTP) were studied in area CA1 of rat hippocampal slices. 2. A 25-Hz tetanus induced a quickly developing potentiation that was blocked by the NMDA antagonist D,L-2-amino-5-phosphonovaleric acid (APV) and was not affected by the L-type VDCC inhibitor nifedipine, suggesting that it was mediated by NMDA receptors (NMDA-LTP). 3. Application of a 200-Hz tetanus in APV induced a slowly developing NMDA-receptor-independent potentiation that was blocked by nifedipine and thus named VDCC-LTP. NMDA- and VDCC-LTP reached comparable magnitudes despite their different induction parameters and developmental kinetics. 4. Bath perfusion of the broad-spectrum serine/threonine kinase inhibitor 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H-7) blocked NMDA-LTP but not VDCC-LTP, whereas the tyrosine kinase inhibitors genistein and lavendustin A blocked VDCC-LTP but not NMDA-LTP. These results suggest a differential involvement of H-7-sensitive serine/threonine kinases and tyrosine kinases in the two forms of LTP. 5. Tetanization of 200 Hz in control media resulted in a compound potentiation twice as large as NMDA- or VDCC-LTP, implying that the two forms of LTP did not facilitate or reduce each other's expression. The often-used 100-Hz tetanus (1 s twice) induced a potentiation that was comparable in size with the 200-Hz compound LTP. Nifedipine, genistein, and lavendustin A reduced the 100-Hz LTP by approximately 50%, suggesting that this LTP is also a compound potentiation consisting of NMDA- and VDCC-mediated components and their corresponding signal transduction pathways.
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PMID:Two forms of long-term potentiation in area CA1 activate different signal transduction cascades. 893 Feb 53

Protein phosphorylation and dephosphorylation are believed to functionally couple neuronal activity and synaptic plasticity. Our previous results indicated that postsynaptic Ca2+/calmodulin (CaM) signaling pathways play an important role in setting synaptic strength, and calcineurin (CaN) activity limits synaptic responses during basal synaptic transmission and long-term potentiation expression. The inhibition of postsynaptic CaN activity by FK-506 or an autoinhibitory peptide induced synaptic potentiation in hippocampal slices, which occludes tetanus-induced LTP. FK-506-induced synaptic potentiation was expressed in adult but not young rats. To elucidate mechanisms underlying CaN-inhibited synaptic potentiation, we co-injected certain agents affecting Ca2+ signaling pathways with CaN inhibitors into CA1 neurons. Synaptic potentiation induced by FK-506 was significantly attenuated by co-injecting BAPTA, heparin/dantrolene (inhibitors of intracellular Ca2+ release), a CaM-binding peptide, or CaM-KII/PKC pseudosubstrate peptides. These results indicate that postsynaptic CaN activity can downregulate evoked synaptic transmission by weakening intracellular Ca2+ signals and downstream protein kinase activities.
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PMID:Postsynaptic calcineurin activity downregulates synaptic transmission by weakening intracellular Ca2+ signaling mechanisms in hippocampal CA1 neurons. 916 21

Attenuation of paired-pulse facilitation associated with synaptic potentiation mediated by postsynaptic mechanisms. J. Neurophysiol. 78: 2707-2716, 1997. The relationship between paired-pulse facilitation (PPF) and synaptic potentiation induced by various protocols and their cellular and molecular mechanisms were examined by extracellular field potential and current- or voltage-clamp recordings at CA1 synapses in rat hippocampal slices. Microelectrodes were used for both intracellular recordings and injections of modulators of calcium (Ca2+) and Ca2+/calmodulin (CaM) signaling pathways into postsynaptic neurons. Basal synaptic transmission was not accompanied by changes in PPF. Tetanic stimulation induced long-term potentiation (LTP) of synaptic transmission and attenuated PPF. Experiments stimulating two independent Schaffer collateral/commisural(S/C) pathways showed that PPF attenuation and tetanus-LTP were pathway specific. Postsynaptic injections of pseudosubstrate inhibitors of CaM-dependent protein kinase II and protein kinase C (CaM-KII/PKC), [Ala286]CaMKII286-302 plus PKC19-31, almost completely attenuated tetanus-LTP and reversed PPF attenuation but did not affect synaptic transmission and PPF under basal conditions. Postsynaptic injections of heparin and dantrolene (inhibitors of IP3 and ryanodine receptors at intracellular Ca2+ stores) prevented tetanus-LTP induction and PPF attenuation. Postsynaptic injections of calcineurin (CaN) inhibitors, CaN autoinhibitory peptide (CaN-AIP) or FK-506, enhanced synaptic transmission and decreased PPF. CaN-inhibited synaptic potentiation and PPF attenuation were unaffected by (-)-a-Amino-5-phosphonopentanoic, but blocked by coinjecting 1, 2-bis(2-aminophenoxy)-ethane-N,N,N',N'-tetraacetic acid, heparin plus dantrolene, calmodulin-binding peptide, or [Ala286]CaMKII281-302 plus PKC19-31. PPF attenuation associated with tetanus-LTP or CaN-inhibited synaptic potentiation resulted from smaller increases in the potentiation of the second synaptic responses (R2) compared with the potentiation of the first responses (R1). Our results indicate that PPF attenuation is associated with synaptic potentiation mediated by postsynaptic mechanisms, and postsynaptic Ca2+/CaM signaling pathways play a dual role in synaptic plasticity. CaN activity limits synaptic transmission under basal conditions, whereas the activation of Ca2+-dependent protein kinases enhances synaptic transmission and attenuates PPF at central synapses.
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PMID:Attenuation of paired-pulse facilitation associated with synaptic potentiation mediated by postsynaptic mechanisms. 935 20

Whereas much is now known about the behavioral importance of the lateral nucleus of the amygdala for the storage of implicit memories of fear, little is known in molecular terms about the signal transduction pathways required for long-term potentiation (LTP) in this nucleus. Using brain slices containing the amygdala, we have studied LTP in the pathway from external capsule to the lateral nucleus, a pathway that mediates information from the auditory cortex important for fear conditioning. We found the induction of LTP is postsynaptic; it is dependent on postsynaptic depolarization, on the influx of Ca2+ into the postsynaptic cell and, at least in part, on the activation of N-methyl-D-aspartate (NMDA) receptors. The LTP is associated with a decrease of paired-pulse facilitation (PPF) and is blocked by bath application but not blocked by postsynaptic injection of inhibitors of the cyclic adenosine monophosphate-dependent (cAMP-dependent) protein kinase (PKA). Consistent with the possibility that the expression might involve PKA presynaptically, the adenylyl cyclase activator forskolin induced synaptic potentiation of this pathway that also was associated with a decrease of PPF, and this potentiation occluded the tetanus-induced LTP.
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PMID:Postsynaptic induction and PKA-dependent expression of LTP in the lateral amygdala. 969 61

Long-term potentiation (LTP) is the form of synaptic plasticity most commonly associated with learning and memory. Studies using protein kinase inhibitors have suggested functional roles for several kinases in the induction of LTP in the CA1 region of the hippocampus, though the precise role of any given kinase has yet to be fully established. Here we report that the selective calcium/calmodulin-dependent protein kinase (CaMK) inhibitor KN-62 has two distinct actions on LTP. As reported previously, KN-62 (3 microM) prevented the induction of LTP. Here we show that KN-62 also prevents the setting of a molecular switch, initiated by the synaptic activation of (S)-alpha-methyl-4-carboxyphenylglycine (MCPG)-sensitive metabotropic glutamate (mGlu) receptors. There are two aspects of this work which might be considered surprising. First, the setting of the molecular switch was prevented by a concentration of KN-62 (1 microM) subthreshold for the inhibition of the induction of LTP per se. Second, the setting of the molecular switch, by the delivery of a tetanus (100 Hz, 1 s) in the presence of a specific NMDA receptor antagonist (R)-2-amino-5-phosphonopentanoate (AP5), reduced the sensitivity of LTP to KN-62, such that at a concentration of 3 microM it no longer blocked induction (though at 10 microM it did). This conditioning effect of a tetanus, delivered in the presence of AP5, was prevented by MCPG (200 microM). These data reveal unexpected complexities in the involvement of KN-62-sensitive processes (presumably CaMKII) in the induction of LTP. They suggest that activation of KN-62-sensitive processes leads to (at least) two phosphorylation steps with fundamentally different roles in synaptic plasticity within a single synapse. They also raise the possibility that CaMKII is an integral part of the MCPG-sensitive molecular switch mechanism.
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PMID:Involvement of calcium/calmodulin-dependent protein kinases in the setting of a molecular switch involved in hippocampal LTP. 970 94

Persistent potentiations of the chemical and electrotonic components of the eighth nerve (NVIII) EPSP recorded in vivo in the goldfish reticulospinal neuron, the Mauthner cell, can be evoked by afferent tetanization or local dendritic application of an endogenous transmitter, dopamine (3-hydroxytyramine). These modifications are attributable to the activation of distinct intracellular kinase cascades. Although dopamine-evoked potentiation (DEP) is mediated by the cAMP-dependent protein kinase (PKA), tetanization most likely activates a Ca2+-dependent protein kinase via an increased intracellular Ca2+ concentration. We present evidence that the eighth nerve tetanus that induces LTP does not act by triggering dopamine release, because it is evoked in the presence of a broad spectrum of dopamine antagonists. To test for interactions between these pathways, we applied the potentiating paradigms sequentially. When dopamine was applied first, tetanization produced additional potentiation of the mixed synaptic response, but when the sequence was reversed, DEP was occluded, indicating that the synapses potentiated by the two procedures belong to the same or overlapping populations. Experiments were conducted to determine interactions between the underlying regulatory mechanisms and the level of their convergence. Inhibiting PKA does not impede tetanus-induced LTP, and chelating postsynaptic Ca2+ with BAPTA does not block DEP, indicating that the initial steps of the induction processes are independent. Pharmacological and voltage-clamp analyses indicate that the two pathways converge on functional AMPA/kainate receptors for the chemically mediated EPSP and gap junctions for the electrotonic component or at intermediaries common to both pathways. A cellular model incorporating these interactions is proposed on the basis of differential modulation of synaptic responses via receptor-protein phosphorylation.
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PMID:Plasticity of first-order sensory synapses: interactions between homosynaptic long-term potentiation and heterosynaptically evoked dopaminergic potentiation. 1002 49

Perfusion of hippocampal slices with an inhibitor nitric oxide (NO) synthase blocked induction of long-term potentiation (LTP) produced by a one-train tetanus and significantly reduced LTP by a two-train tetanus, but only slightly reduced LTP by a four-train tetanus. Inhibitors of heme oxygenase, the synthetic enzyme for carbon monoxide (CO), significantly reduced LTP by either a two-train or four-train tetanus. These results suggest that NO and CO are both involved in LTP but may play somewhat different roles. One possibility is that NO serves a phasic, signaling role, whereas CO provides tonic, background stimulation. Another possibility is that NO and CO are phasically activated under somewhat different circumstances, perhaps involving different receptors and second messengers. Because NO is known to be activated by stimulation of NMDA receptors during tetanus, we investigated the possibility that CO might be activated by stimulation of metabotropic glutamate receptors (mGluRs). Consistent with this idea, long-lasting potentiation by the mGluR agonist tACPD was blocked by inhibitors of heme oxygenase but not NO synthase. Potentiation by tACPD was also blocked by inhibitors of soluble guanylyl cyclase (a target of both NO and CO) or cGMP-dependent protein kinase, and guanylyl cyclase was activated by tACPD in hippocampal slices. However, biochemical assays indicate that whereas heme oxygenase is constitutively active in hippocampus, it does not appear to be stimulated by either tetanus or tACPD. These results are most consistent with the possibility that constitutive (tonic) rather than stimulated (phasic) heme oxygenase activity is necessary for potentiation by tetanus or tACPD, and suggest that mGluR activation stimulates guanylyl cyclase phasically through some other pathway.
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PMID:On the respective roles of nitric oxide and carbon monoxide in long-term potentiation in the hippocampus. 1048 62

Previous work has shown that mice missing the alpha-isoform of calcium-calmodulin-dependent protein kinase II (alpha-CaMKII) have a deficiency in CA1 hippocampal long-term potentiation (LTP). Follow-up studies on subsequent generations of these mutant mice in a novel inbred background by our laboratories have shown that whereas a deficiency in CA1 LTP is still present in alpha-CaMKII mutant mice, it is different both quantitatively and qualitatively from the deficiency first described. Mice of a mixed 129SvOla/SvJ;BALB/c;C57B1/6 background derived from brother/sister mating of the alpha-CaMKII mutant line through multiple generations (>10) were produced by use of in vitro fertilization. Although LTP at 60 min post-tetanus was clearly deficient in these (-/-) alpha-CaMKII mice (42.6%, n = 33) compared with (+/+) alpha-CaMKII control animals (81.7%, n = 17), alpha-CaMKII mutant mice did show a significant level of LTP. The amount of LTP observed in alpha-CaMKII mutants was normally distributed, blocked by APV (2.7%, n = 8), and did not correlate with age. Although this supports a role for alpha-CaMKII in CA1 LTP, it also suggests that a form of alpha-CaMKII-independent LTP is present in mice that could be dependent on another kinase, such as the beta-isoform of CaMKII. A significant difference in input/output curves was also observed between (-/-) alpha-CaMKII and (+/+) alpha-CaMKII animals, suggesting that differences in synaptic transmission may be contributing to the LTP deficit in mutant mice. However, tetani of increasing frequency (50, 100, and 200 Hz) did not reveal a higher threshold for potentiation in (-/-) alpha-CaMKII mice compared with (+/+) alpha-CaMKII controls.
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PMID:CA1 long-term potentiation is diminished but present in hippocampal slices from alpha-CaMKII mutant mice. 1045 59

Previous results have suggested that cGMP is involved in hippocampal long-term potentiation (LTP), perhaps as the presynaptic effector of a retrograde messenger. However, other studies have failed to replicate some of those results, making the role of cGMP uncertain. We therefore reexamined this question and identified several variables that can affect the contribution of cGMP. First, brief perfusion with 8-Br-cGMP before weak tetanic stimulation produced long-lasting potentiation in the CA1 region of hippocampal slices, but more prolonged perfusion with 8-Br-cGMP before the tetanus did not produce long-lasting potentiation. Second, the activity-dependent long-lasting potentiation by cGMP analogs was reduced when NMDA receptors were completely blocked, indicating that NMDA receptor activation contributes to, but is not required for, the potentiation. The amount of reduction of the potentiation differed with different protocols, and in some cases could be complete. Third, LTP produced by strong tetanic stimulation in the stratum radiatum of CA1 (which expresses eNOS) was blocked by inhibitors of soluble guanylyl cyclase or cGMP-dependent protein kinase, but LTP in the stratum oriens (which does not express eNOS) was not. The results of these experiments should help to explain some of the discrepant findings from previous studies, and, in addition, may provide insights into the mechanisms and functional role of the cGMP-dependent component of LTP.
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PMID:The specific role of cGMP in hippocampal LTP. 1045 67

To study how the late phase of long-term potentiation (LTP) in hippocampus arises, we examined the resulting LTP for its time course and its dependence on protein synthesis and different second-messenger kinases by applying various conditioning tetani. We find that one high-frequency train (100 Hz) produces a form of LTP that lasts longer than 1 hr but less than 3 hr (the early phase of LTP, or E-LTP). It is blocked by inhibitors of calcium/calmodulin kinase II (Cam kinase II) but is not affected by an inhibitor of cAMP-dependent protein kinase [protein kinase A (PKA) and the protein synthesis inhibitor anisomycin] nor is it occluded by the cAMP activator forskolin. In contrast, when three high-frequency trains are used, the resulting potentiation persists for at least 6-10 hr. The L-LTP induced by three trains differs from the E-LTP in that it requires new protein synthesis, is blocked by an inhibitor of cAMP-dependent protein kinase, and is occluded by forskolin. These results indicate that the two mechanistically distinctive forms of LTP, a transient, early component (E-LTP) and a more enduring form (L-LTP), can be recruited selectively by changing the number of conditioning tetanic trains. Repeated tetani induce a PKA and protein synthesis-dependent late component that adds to the amplitude and duration of the potentiation induced by a single tetanus.
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PMID:Recruitment of long-lasting and protein kinase A-dependent long-term potentiation in the CA1 region of hippocampus requires repeated tetanization. 1046 87

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