Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.10.2 (focal adhesion kinase)
 44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ras is a universal eukaryotic intracellular protein integrating extracellular signals from multiple receptor types. To investigate its role in the adult central nervous system, constitutively activated V12-Ha-Ras was expressed selectively in neurons of transgenic mice via a synapsin promoter. Ras-transgene protein expression increased postnatally, reaching a four- to fivefold elevation at day 40 and persisting at this level, thereafter. Neuronal Ras was constitutively active and a corresponding activating phosphorylation of mitogen-activated kinase was observed, but there were no changes in the activity of phosphoinositide 3-kinase, the phosphorylation of its target kinase Akt/PKB, or expression of the anti-apoptotic proteins Bcl-2 or Bcl-X(L). Neuronal Ras activation did not alter the total number of neurons, but induced cell soma hypertrophy, which resulted in a 14.5% increase of total brain volume. Choline acetyltransferase and tyrosine hydroxylase activities were increased, as well as neuropeptide Y expression. Degeneration of motorneurons was completely prevented after facial nerve lesion in Ras-transgenic mice. Furthermore, neurotoxin-induced degeneration of dopaminergic substantia nigra neurons and their striatal projections was greatly attenuated. Thus, the Ras signaling pathway mimics neurotrophic effects and triggers neuroprotective mechanisms in adult mice. Neuronal Ras activation might become a tool to stabilize donor neurons for neural transplantation and to protect neuronal populations in neurodegenerative diseases.
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PMID:Transgenic activation of Ras in neurons promotes hypertrophy and protects from lesion-induced degeneration. 1113 81

Neuronal cell membranes are particularly rich in gangliosides, which play important roles in brain physiology and pathology. Previously, we reported that gangliosides could act as microglial activators and are thus likely to participate in many neuronal diseases. In the present study we provide evidence that JAK-STAT inflammatory signaling mediates gangliosides-stimulated microglial activation. Both in rat primary microglia and murine BV2 microglial cells, gangliosides stimulated nuclear factor binding to GAS/ISRE elements, which are known to be STAT-binding sites. Consistent with this, gangliosides rapidly activated JAK1 and JAK2 and induced phosphorylation of STAT1 and STAT3. In addition, gangliosides increased transcription of the inflammation-associated genes inducible nitric-oxide synthase, ICAM-1, and MCP-1, which are reported to contain STAT-binding elements in their promoter regions. AG490, a JAK inhibitor, reduced induction of these genes, nuclear factor binding activity, and activation of STAT1 and -3 in gangliosides-treated microglia. AG490 also inhibited gangliosides-induced release of nitric oxide, an inflammation hallmark. Furthermore, AG490 markedly reduced activation of ERK1/2 MAPK, indicating that ERKs act downstream of JAK-STAT signaling during microglial activation. However, AG490 did not affect activation of p38 MAPK. We also report that the sialic acid residues present on gangliosides may be one of the essential components in activation of JAK-STAT signaling. The present study indicates that JAK-STAT signaling is an early event in gangliosides-induced brain inflammatory responses.
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PMID:JAK-STAT signaling mediates gangliosides-induced inflammatory responses in brain microglial cells. 1219 95

Neuronal damage and death are consistent pathologic findings in the brains of patients with ADC, and multiple cell model systems have demonstrated neurotoxicity through the effects of HIV-1 infection in macrophages and microglia. Brain MRI studies (1H-MRS) indicate that reversible neuronal cell dysfunction occurs early during the course of HIV-1 infection, long before overt symptoms of ADC appear. Epidemiologic studies suggest that a high viral load in the CNS is a major risk factor for ADC and that HAART may significantly reduce, but not eliminate, the risk of developing ADC. Targeted adjunctive therapies administered early are likely necessary to maximize CNS protection against HIV, and rational approaches to such therapy are rapidly evolving through in vitro analysis of the mechanisms of HIV-associated neurotoxicity. Soluble factors released by infected cells may directly or indirectly damage neurons and induce apoptosis at the level of NMDA subtype of glutamate receptors, and NMDA receptor antagonists represent a major therapeutic option currently under intense clinical investigation. Likewise, drugs with antioxidant or free radical scavenging effects offer another rational approach to adjunctive therapy and are also under intense clinical scrutiny. Finally, agents that inhibit neuronal death-signaling pathways (e.g., p38 MAPK inhibitors) and that stimulate cell survival pathways (e.g., Akt/PKB) may represent the next investigational step in designing anti-ADC therapies.
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PMID:Neuropathogenesis of central nervous system HIV-1 infection. 1224 93

Neuronal dystrophy is a pathological hallmark of Alzheimer's disease (AD) that is not observed in other neurodegenerative disorders that lack amyloid deposition. Treatment of cortical neurons with fibrillar amyloid beta (Abeta) peptides induces progressive neuritic dystrophy accompanied by a marked loss of synaptophysin immunoreactivity (Grace et al., 2002). Here, we report that fibrillar Abeta-induced neuronal dystrophy is mediated by the activation of focal adhesion (FA) proteins and the formation of aberrant FA structures adjacent to Abeta deposits. In the AD brain, activated FA proteins are observed associated with the majority of senile plaques. Clustered integrin receptors and activated paxillin (phosphorylated at Tyr-31) and focal adhesion kinase (phosphorylated at Tyr-297) are mainly detected in dystrophic neurites surrounding Abeta plaque cores, where they colocalize with hyperphosphorylated tau. Deletion experiments demonstrated that the presence of the LIM domains in the paxillin C terminus and the recruitment of the protein-Tyr phosphatase (PTP)-PEST to the FA complex are required for Abeta-induced neuronal dystrophy. Therefore, both paxillin and PTP-PEST appear to be critical elements in the generation of the dystrophic response. Paxillin is a scaffolding protein to which other FA proteins bind, leading to the formation of the FA contact and initiation of signaling cascades. PTP-PEST plays a key role in the dynamic regulation of focal adhesion contacts in response to extracellular cues. Thus, in the AD brain, fibrillar Abeta may induce neuronal dystrophy by triggering a maladaptive plastic response mediated by FA protein activation and tau hyperphosphorylation.
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PMID:Aberrant activation of focal adhesion proteins mediates fibrillar amyloid beta-induced neuronal dystrophy. 1253 9

Nitric oxide (NO) donors such as glyceryl trinitrate cause headache, which suggests involvement of NO in trigeminovascular sensory processing. Sensory transmission at first-order synapses is believed to involve glutamate and the question arises as to whether it is also involved in trigeminovascular sensation and whether it might interact with nitrergic mechanisms. We investigated these questions at the first central synapse in the trigeminovascular sensory system of the cat. Neuronal action potentials in the trigeminal nucleus were recorded while the superior sagittal sinus (SSS) or facial receptive field (RF) were stimulated electrically. Drugs, including the neuronal excitant glutamate, were applied to neurons via microiontophoresis. Results were obtained from 152 neurons activated with A-delta latencies by SSS stimulation and by glutamate. The NO donor S-nitrosoglutathione (SNOG, 50 nA) was applied iontophoretically to 41 neurons during SSS stimulation and 13 neurons during pulsatile glutamate ejection. Responses to both modes of stimulation were enhanced by SNOG; the proportion of neurons enhanced was 56% to SSS stimulation and 59% to glutamate. The inhibitor of nitric oxide synthase (NOS), N(omega)-propyl-L-arginine (p-ARG, 50 nA) was applied iontophoretically to 17 neurons during stimulation of SSS and to 10 neurons during pulsatile glutamate ejection. Responses to both stimuli were suppressed by p-ARG: The proportion of neurons suppressed were: to SSS stimulation 59% and to glutamate 80%. Microiontophoretic ejection of eletriptan (50 nA) reversibly suppressed responses of neurons to SSS stimulation, to RF electrical stimulation and to pulsatile iontophoretic application of glutamate. This suppression of responses was antagonised by the concurrent local iontophoretic application of the 5-HT1B/1D receptor antagonist GR127935 or by concurrent iontophoretic application of the selective 5-HT1D receptor antagonist BRL155732. These results suggest that glutamatergic mechanisms are important in sensory transmission in the trigeminovascular system and that they can be modulated by nitrergic and serotonergic mechanisms.
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PMID:Nitrergic and glutamatergic neuronal mechanisms at the trigeminovascular first-order synapse. 1516 37

Neuronal and glial cells organizing the central nervous system are generated from common neural precursor cells present in the neuroepithelium during development. We tried to clarify functions of a cell surface microdomain, lipid raft, in neuroepithelial cells (NECs). NECs are suggested to adhere to fibronectin substratum dependently on integrin molecules. We found that beta1 integrin, a component of fibronectin receptors, was distributed in lipid rafts. Methyl-beta-cyclodextrin (MBCD), an inhibitor of lipid raft formation, inhibited the integrin-fibronectin interaction-dependent adhesion of NECs. However, inhibition of synthesis of glycosphingolipids (GSL), components of lipid rafts, did not affect NEC adhesion. Leukaemia inhibitory factor (LIF), an interleukin 6 type cytokine, induces astrocyte differentiation of NECs via activation of a transcription factor STAT3. We detected gp130, JAK1 and Ras but not STAT3 and ERK2 molecules in lipid rafts of NECs. Disruption of lipid rafts by MBCD inhibited LIF-induced ERK activation but not STAT3 activation. It is thus suggested that LIF-downstream molecules have differential lipid raft-dependency in terms of activation upon LIF-stimulation. In this study, we found functions of lipid rafts in cell adhesion and signal transduction in NECs. This is the first report that characterized functions of lipid rafts in embryonic neural precursor cells.
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PMID:Roles of lipid rafts in integrin-dependent adhesion and gp130 signalling pathway in mouse embryonic neural precursor cells. 1533 Aug 57

Neuronal cells undergo apoptosis when deprived of neurotrophic factors due to injury, trauma, or neurodegenerative disease. This study examined cell death in the retina after chronic elevation of intraocular pressure (IOP) in an experimental rat model of human glaucomatous disease. Three episcleral veins on the ocular surface of rats were cauterized. Activation of several cell death programs represented by Fas ligand, FADD (Fas Associated Death Domain/Mort1) and the caspase cascade (caspase-8 and -3) and survival programs represented by phosphorylated protein kinase B (PKB/Akt), Bcl-2 associated death domain (BAD), and cAMP responsive element binding protein (CREB) were examined using immunohistochemistry and Western blotting. Following injury, two major events occurred simultaneously in the retina: activation of programmed cell death pathways and activation of survival mechanisms to maintain the cellular homeostasis of the retina. At the later stage of injury, markers of an activated cell death program appeared to be concentrated in the retinal ganglion cells. In conclusion, we suggest that endogenous cell survival factors triggered at the early stage of injury play a critical role in control of the death or survival of retinal ganglion cells and that the manipulation of this decision phase is one of the therapeutic targets for glaucoma.
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PMID:Retinal ganglion cell death is delayed by activation of retinal intrinsic cell survival program. 1613 21

Neuronal migration is a pivotal step for architectural and functional brain development. Migrating neurons exhibit various morphological changes, based on cytoskeletal organization. In addition to many genetic studies revealing the involvement of several cytoskeletal and signaling molecules in cortical neuronal migration (e.g. doublecortin, Lis1, Filamin A, cyclin-dependent kinase 5, Reelin and Dab1), cell biological studies and recently developed techniques, including in utero electroporation, have uncovered detailed functions of these molecules as well as novel molecules, such as Rho family GTPases, focal adhesion kinase, c-jun N-terminal kinase and p27(kip1). In this review, we introduce the molecular pathways underlying cortical neuronal migration and morphological changes, with particular focus on recent findings for the regulatory mechanisms of actin cytoskeleton and microtubules.
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PMID:Molecular pathways regulating cytoskeletal organization and morphological changes in migrating neurons. 1807 53

Leptin, a hormone produced by adipose tissue, reduces food intake and boosts energy expenditure via activation of the JAK2-STAT3 signalling pathway in adult mammal hypothalamic neurons. It is found in blood early after birth, peaking around postnatal day (P) 10. The hypothalamus of neonatal mice administered intraperitoneal leptin (3 mg/kg of body weight) was investigated for phospho-STAT3-positive cells to gain insights into the timing of maturation of the leptin signal transduction system. Leptin responsiveness was first detected in arcuate nucleus, where it was faint at P1 and evident from P5. It was then identified in medial preoptic area, anterior hypothalamus, retrochiasmatic area, dorsomedial nucleus and premammillary nucleus from P7, and in ventromedial nucleus and lateral hypothalamus from P11. From P13 onwards, hypothalamic P-STAT3 staining was indistinguishable from that of adult mice. Significant hypothalamic STAT3 activation was also detected by Western blotting at P11 and P15. The level of activation seen in adults was comparable to that observed at P15 although, remarkably, leptin-induced feeding reduction is observed only after the fourth postnatal week. Neuronal and glial markers and double-labelling immunohistochemistry showed that leptin-stimulated hypothalamic cells that had already reached their final position in a given area or nucleus were neurons; however, leptin responsiveness preceded positivity for the neuronal markers, suggesting a not fully differentiated status. Interestingly, leptin also increased P-STAT3 and c-Fos immunoreactivity in a distinctive and transient (from P5 to P13) cell population found in the dorsal part of the third ventricle and in subependymal position. These cells did not express mature or immature neuronal or glial markers. Their ultrastructural appearance, though suggestive of differentiating cells, was not conclusive for a specific phenotype.
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PMID:Leptin-dependent STAT3 phosphorylation in postnatal mouse hypothalamus. 1848 33

Neuronal cell death caused by pathophysiological over-activation of glutamate receptors and the subsequent CaII overloading, has been implicated in neurodegeneration after stroke, cerebral trauma and epileptic seizures. Recent findings suggest that certain progesterone metabolites (neurosteroids) such as allopregnanolone and dehydroepiandrosterone can protect neuronal cells from such insults. In the present study, murine P19 cells were induced to differentiate into postmitotic neurons expressing specific neuronal markers, including GABA(A) and NMDA receptors. Activation of NMDA receptors in P19-N neurons resulted in excitotoxic cell death, which involved suppression of the phosphorylation of the survival kinase PKB/Akt. Allopregnanolone and DHEA induced a rapid and prolonged phosphorylation of the Akt kinase and they were able to reverse the NMDA-induced suppression of the PI3-K/Akt pathway. The specificity of the neuroprotective effects of these neurosteroids was confirmed by the phosphatidylinositol 3-kinase (PI3-K) inhibitor wortmannin, as well as by the GABA(A) receptor antagonist, bicuculline. The neurotoxic effect of NMDA on P19-N neurons was directly correlated with increased CaII entry, since the addition of EGTA or BAPTA-AM, significantly suppressed the NMDA-induced decrease of phospho-Akt and subsequent neuronal death. These results suggest that neurosteroids are able to act as survival factors on P19-N neurons, promoting the activation of the PI3-K/Akt pathway through a calcium-entry dependent mechanism.
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PMID:Induction of Akt by endogenous neurosteroids and calcium sequestration in P19 derived neurons. 1852


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