EC:2.7.11.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

K-252b, a protein kinase inhibitor, has been shown earlier to inhibit nerve growth factor actions on cholinergic neurons of the basal forebrain. In the present study, K-252b was found to prevent trophic actions of two other neurotrophins, brain-derived neurotrophic factor, and neurotrophin-3, on central cholinergic and dopaminergic neurons, peripheral sensory neurons, and PC12 pheochromocytoma cells, when used at greater than 2 microM concentration. Comparable actions of nonneurotrophin growth factors were not affected. Surprisingly, at 0.1-100 nM, K-252b selectively enhanced the trophic action of neurotrophin-3 on central cholinergic neurons, peripheral sensory neurons, and PC12 cells. In PC12 cells, K-252b potentiated the neurotrophin-3-induced tyrosine phosphorylation of trk, a protein kinase responsible for transmitting neurotrophin signals. Of the three structurally related nerve growth factor inhibitors, K-252a, K-252b, and staurosporine, only the first two also mediated neurotrophin-3 potentiation. These findings indicate that K-252b generally and selectively potentiates the neurotrophic action of neurotrophin-3 and suggest that this action involves trk-type neurotrophin receptors.
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PMID:K-252b selectively potentiates cellular actions and trk tyrosine phosphorylation mediated by neurotrophin-3. 162 41

Previous research has shown an increase in tyrosine hydroxylase in the ventral tegmental area following chronic morphine and chronic cocaine treatments. Chronic morphine treatment also increases levels of glial fibrillary acidic protein in this brain region. In the present study, we investigated the effects of infusing neurotropic factors (nerve growth factor, brain-derived neurotrophic factor, neurotrophin-3, neurotrophin-4 or ciliary neurotrophic factor) via midline intra-ventral tegmental area cannulae on these biochemical changes. Our studies examined the effects of neurotrophic factor infusion alone, neurotrophic factor infusion followed by morphine treatment, morphine treatment followed by neurotrophic factor infusion, and concurrent neurotrophic factor infusion and cocaine treatment. Brain-derived neurotrophic factor, which by itself tended to decrease tyrosine hydroxylase levels in the ventral tegmental area, prevented the characteristic increase in tyrosine hydroxylase following morphine and cocaine exposure and reversed the increase in rats pretreated with morphine. Neurotrophin-4 and neurotrophin-3 exerted similar effects. In addition, neurotrophin-4 prevented the morphine-induced increase in glial fibrillary acidic protein. In contrast, ciliary neurotrophic factor infusions alone resulted in an increase in tyrosine hydroxylase levels, with no additional increase induced by morphine or cocaine coadministration. Nerve growth factor alone had no effect on tyrosine hydroxylase or glial fibrillary acidic protein levels and did not affect morphine's ability to induce these proteins. We also looked at the effects of intra-ventral tegmental area infusion of neurotrophic factor on cAMP-dependent protein kinase and adenylyl cyclase activity in the nucleus accumbens, both of which are increased by chronic morphine or cocaine exposure. In general, regulation of cAMP-dependent protein kinase and adenylyl cyclase morphine by neurotrophic factors paralleled effects seen in the ventral tegmental area. Intra-ventral tegmental area infusion of brain-derived neurotrophic factor (or neurotrophin-4) alone tended to decrease cAMP-dependent protein kinase and adenylyl cyclase activity in the nucleus accumbens and prevented the morphine-induced increases in these enzymes. These effects were not seen with ciliary neurotrophic factor or nerve growth factor. These studies demonstrate novel interactions within the ventral tegmental area, and its target the nucleus accumbens, between neurotrophic factors and drugs of abuse, which have potentially important implications for the pathophysiology and treatment of drug addiction.
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PMID:Influence of neurotrophic factors on morphine- and cocaine-induced biochemical changes in the mesolimbic dopamine system. 854 3

Development of the nervous system depends on the correct pathfinding and target recognition by the growing tip of an axon, the growth cone. Diffusible or substrate-bound molecules present in the environment may serve as either attractants or repellents to influence the direction of growth-cone extension. Here we report that differences in cyclic-AMP-dependent activity in a neuron may result in opposite turning of the growth cone in response to the same guidance cue. A gradient of brain-derived neurotrophic factor normally triggers an attractive turning response of the growth cone of Xenopus spinal neurons in culture, but the same gradient induces repulsive turning of these growth cones in the presence of a competitive analogue of cAMP or of a specific inhibitor of protein kinase A. This cAMP-dependent switch of the turning response was also found for turning induced by acetylcholine, but not for the turning induced by neurotrophin-3 (NT-3). Thus, in the presence of other factors that modulate neuronal cAMP-dependent activity, the same guidance cue may trigger opposite turning behaviours of the growth cone during its pathfinding in the nervous system.
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PMID:cAMP-induced switching in turning direction of nerve growth cones. 923 Apr 36

Neurotrophin modulation of NMDA receptors in cultured murine and isolated rat neurons. J. Neurophysiol. 78: 2363-2371, 1997. Patch-clamp and calcium imaging techniques were used to assess the acute effects of the neurotrophins, brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3), and nerve growth factor (NGF), on the responses of cultured and acutely isolated hippocampal and cultured striatal neurons to the glutamate receptor agonist N-methyl--aspartic acid (NMDA). The effects of BDNF on NMDA-activated currents were examined in greater detail. Currents evoked by NMDA, and the accompanying changes in intracellular calcium, were enhanced by low concentrations of the neurotrophins (1-20 ng/ml). The potentiation by the neurotrophins was rapid in onset and offset (<1 s). The neurotrophins also reduced desensitization of these currents in most cells. The enhancement of NMDA-activated currents by BDNF was observed using both perforated and whole cell patch recording techniques and could be demonstrated in outside-out patches. Furthermore, its effects were not attenuated by pretreatment with the protein kinase inhibitors genistein or 1-(5-isoquinolynesulfony)2-methylpiperazine (H7). Therefore, the actions of BDNF do not appear to be mediated by phosphorylation. Similar enhancements were observed with NT-3 and NT-4 and with NGF despite the fact that hippocampal neurons lack TrkA receptors. All together this evidence suggests that the enhancement of NMDA-evoked currents is unlikely to be mediated through the activation of growth factor receptors. Modulation of NMDA responses by BDNF was dependent on the concentration of extracellular glycine. The most pronounced potentiation by BDNF was observed at low concentrations, whereas no potentiation was observed in saturating concentrations of glycine, suggesting that BDNF may have increased the affinity of the NMDA receptor for glycine. However, the competitive glycine-site antagonist 7-chloro-kynurenic acid blocked the enhancement by BDNF without shifting the dose-inhibition relationship for this antagonist, and Mg2+ consistently depressed the potentiation of NMDA-evoked currents by BDNF, indicating that BDNF does not alter glycine affinity. BDNF also reversibly increased the probability of opening of NMDA channels recorded from outside-out patches taken from cultured hippocampal neurons. Other unrelated peptides including dynorphin and somatostatin also caused a glycine-dependent enhancement of NMDA currents and depressed the currents in saturating concentrations of glycine. In contrast, a shortened analogue dynorphin (6-17), which lacks N-terminus glycine residues, and another peptide met-enkephalin were without effects on NMDA currents recorded in low concentrations of glycine. Our results suggest that neurotrophins and other peptides can serve as glycine-like ligands for the NMDA receptor.
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PMID:Neurotrophin modulation of NMDA receptors in cultured murine and isolated rat neurons. 935 88

This study reports that in purified cultures of postnatal cerebellar granule cells, BDNF significantly accelerated GABAA receptor alpha 6 subunit (GABAA alpha 6) mRNA expression, a marker for terminally differentiated cerebellar granule neurons, and also accelerated p21cip1 expression. p21cip1 is a general cyclin-dependent kinase (Cdk) inhibitor that can inhibit progression through the cell cycle. Alternatively, the expression of p27kip1, another Cdk inhibitor closely related to p21cip1, is not modified by BDNF. In cultured granule cells, the increase in p21cip1 expression induced by BDNF occurred after dividing granule cells had left the cell cycle and thus was not required to direct granule neuron precursors out of the cell cycle. p21cip1 may have an alterative function during granule neuron terminal differentiation, separate from its ability to regulate cell cycle exit. This report shows that, in vitro, BDNF accelerates granule cell gene expression and may thus modulate cerebellar granule cell differentiation.
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PMID:BDNF accelerates gene expression in cultured cerebellar granule neurons. 954 45

Neurotrophins are known to promote the survival, differentiation, and neurite outgrowth of developing neurons. Here we report that acutely applied brain-derived neurotrophic factor (BDNF) induces rapid growth cone collapse and neurite retraction of embryonic Xenopus spinal neurons in culture. The collapsing effect of BDNF depends on the activation of Trk receptor tyrosine kinase, requires an influx of extracellular Ca2+, and is regulated by cAMP-dependent activity. Elevation of intracellular cAMP levels ([cAMP]i) by forskolin or (Sp)-cAMP completely blocked the collapsing effect, whereas inhibition of protein kinase A (PKA) by (Rp)-cAMP potentiated the collapsing action. BDNF-induced growth cone collapse was only observed in 6 hr cultures but not in 24 hr cultures. However, inhibition of PKA by (Rp)-cAMP restored the collapsing response of these "old" neurons in 24 hr cultures, suggesting that embryonic Xenopus spinal neurons may upregulate their endogenous cAMP-dependent activity during development in culture, leading to the blockade of their collapsing response to BDNF. Taken together, our results suggest the presence of cross-talk between Ca2+- and cAMP-signaling pathways involved in the collapsing action of neurotrophins, in which the cAMP-pathway regulates the Ca2+-mediated signal transduction required for BDNF-induced collapse. By modulating the cAMP-dependent activity through the intrinsic programming or interaction with other factors present in the environment, a neuron thus could respond to the same extracellular factors with different morphological and cellular changes at different stages during development.
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PMID:cAMP-mediated regulation of neurotrophin-induced collapse of nerve growth cones. 963 63

Monoamine-activated alpha2-macroglobulin (alpha2M) was shown to reduce the dopamine concentration in corpus striatum of adult rat brains and inhibit other neuronal functions in vivo and in vitro. As brain-derived neurotrophic factor, neurotrophin-4, and neurotrophin-3 are important neurotrophic factors for dopaminergic neurons, the effect of monoamine-activated alpha2M on signal transduction by trkB and trkC was investigated. The results show that monoamine-activated alpha2M binds to trkB and inhibits brain-derived neurotrophic factor/neurotrophin-4-promoted autophosphorylation of trkB in a dose-dependent manner in both trkB-expressing NIH3T3 (NIH3T3-trkB) and human neuroblastoma SH-SY5Y cells. Monoamine-activated alpha2M also blocks tyrosine phosphorylation of phospholipase C-gamma1 and extracellular signal-regulated protein kinase (ERK)-1, which are key intracellular proteins involved in trkB signal transduction. Similarly, monoamine-activated alpha2M inhibits tyrosine phosphorylation of neurotrophin-3-induced trkC and its signal transduction in a dose-dependent manner in NIH3T3 cells expressing trkC (NIH3T3-trkC). In contrast to monoamine-activated alpha2M, normal alpha2M has little or no significant inhibitory effect on the phosphorylation of trkB and trkC. In addition, the retinoic acid-promoted tyrosine phosphorylation of phospholipase C-gamma1, ERK-1, and/or ERK-2 in SH-SY5Y cells was unaffected by monoamine-activated alpha2M; this suggests that the inhibitory effect of activated alpha2M on the neurotrophin-stimulated phosphorylation of intracellular signalling proteins may be specific. Taken together, the data indicate that activated alpha2M is a pan-trk inhibitor, which by virtue of its binding to trk receptors may block trk-mediated signal transduction in dopaminergic neurons and lead to reduction of dopamine concentration in corpus striatum.
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PMID:Inhibition of phosphorylation of TrkB and TrkC and their signal transduction by alpha2-macroglobulin. 964 68

In PC12 cells, it has been previously reported that nerve growth factor stimulates neuropeptide Y (NPY) gene expression. In the current study we examined the signalling pathways involved in this effect by transiently expressing in PC12 cells the receptor (TrkB) for the related neurotrophin, brain-derived neurotrophic factor (BDNF). BDNF caused a 3-fold induction of luciferase expression from a transiently co-transfected plasmid possessing the firefly luciferase gene under the control of the NPY promoter. This effect of BDNF was completely blocked by either a Y484F mutation in TrkB (which blocks high-affinity Shc binding to TrkB) or by a Y785F substitution [which blocks the binding, phosphorylation and activation of phospholipase Cgamma (PLCgamma)]. Activation of the NPY promoter by neurotrophin-3 in PC12 cells overexpressing TrkC was also completely blocked by a naturally occurring kinase insert which prevents the high-affinity binding of Shc and PLCgamma. NPY promoter activation by BDNF was blocked by PD98059, suggesting a role for mitogen-activated protein kinase (MAP kinase). Stimulation of NPY gene expression by PMA, but not by BDNF, was blocked by Ro-31-8220, a protein kinase C inhibitor, excluding a role for this serine/threonine protein kinase in the effect of BDNF. In addition, BDNF did not cause an elevation in cytosolic Ca2+ concentration. Taken together, our results suggest that stimulation of the NPY promoter by BDNF requires the simultaneous activation of two distinct pathways; one involves Shc and MAP kinase, and the other appears to be PLCgamma-independent but requires an intact tyrosine-785 on TrkB and so may involve an effector of TrkB signalling that remains to be identified.
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PMID:Stimulation of neuropeptide Y gene expression by brain-derived neurotrophic factor requires both the phospholipase Cgamma and Shc binding sites on its receptor, TrkB. 967 6

Hepatocyte growth factor/scatter factor (HGF) was recently reported to function as a neurotrophic factor in the CNS. To investigate the intracellular signal pathways after activation of the HGF receptor c-Met in primary cultured rat neocortical cells, in vitro kinase assays were performed. HGF stimulation enhances the phosphorylation of endogenous 80- and 45-kDa substrates. Studies with protein kinase inhibitors and phorbol 12-myristate 13-acetate showed that protein kinase C (PKC) is activated intracellularly. The 80-kDa protein was identified to be the major PKC substrate MARCKS. Although four PKC subspecies, PKC alpha, PKC epsilon, PKC gamma, and PKC lambda, were expressed in the cells, only PKC alpha, PKC epsilon, and PKC gamma were selectively translocated in the plasma membrane after HGF stimulation. As expected from these three PKC subspecies, phosphorylation of phospholipase C gamma1 (PLC gamma1) but not phosphatidylinositol 3-kinase was enhanced, although the stimulation of brain-derived neurotrophic factor induced phosphorylation of phosphatidylinositol 3-kinase. In contrast to the neocortical cells, HGF did not enhance phosphorylation of PLC gamma1 in primary astrocytes. We also found that activated PKC(s) served as a major mitogen-activated protein kinase activator in this pathway. These findings suggest that HGF exerts neurotrophic effects through selective phosphorylation of PLC gamma1 and activation of distinct PKC subspecies in neocortical cells, most likely neurons.
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PMID:Selective activation of phospholipase C gamma1 and distinct protein kinase C subspecies in intracellular signaling by hepatocyte growth factor/scatter factor in primary cultured rat neocortical cells. 968 49

Casein kinase 2 is present in the brain, including the hippocampus. It is associated with long-term potentiation and is known to be involved in phosphorylation of proteins potentially important for neuroplasticity, but regulation of its activity in neuronal cells is not yet known. In the present work, it was found that brain-derived neurotrophic factor and neurotrophin-4 control the activity of casein kinase 2 in hippocampal slices of adult rat. It is shown that: (i) treatment of slices for 4 h with the neurotrophins results in a five-fold increase in the activity of cytosolic casein kinase 2; (ii) this effect does not require protein synthesis. In addition, using calcium chelators, phospholipase inhibitors and protein kinase inhibitors, evidence is provided that: (i) neurotrophin-induced activation of casein kinase 2 is dependent on the availability of intracellular calcium due to stimulation of phospholipase C; (ii) both a tyrosine kinase(s) and a serine/threonine kinase(s) convey the signal of calcium. Since there is now accumulating evidence for involvement of brain-derived neurotrophic factor, intracellular calcium, tyrosine kinases and serine/threonine kinases in the regulation of synaptic plasticity, it is suggested that the signalling cascade detected here might contribute to control of synaptic strength in the hippocampus.
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PMID:Neurotrophin-induced activation of casein kinase 2 in rat hippocampal slices. 969 14

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