Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.1 (ERK)
 95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The neurotransmitter serotonin (5HT) possesses developmental functions in vertebrates and invertebrates. Rodent embryos express 5HT receptors even before neural development, but the role of this neurochemical seems to be particularly important during axonal morphogenesis and differentiation and in neural crest cell migration. Moreover, 5HT inhibitors are teratogenic in mammals, inducing brain and heart abnormalities. The aim of this study was to investigate the effects of nonphysiological concentrations of 5HT (5HT excess as well as deprivation) on developing rat neural cells using the micromass method. This simple and rapid micromass method allows the culture of mesencephalic cells capable of achieving and maintaining a significant degree of differentiation. Mesencephalic cells from 13 d post coitum (pc) rat were cultured and exposed to exogenous 5HT (1, 10, 50, or 100 microM) or to the specific 5HT2 receptor inhibitor mianserin (0.5, 5, 25, or 50 microM) during the whole culture period (5 d). The micromass morphology, the cytoskeletal organization, the pathological apoptosis, and the differentiative capability of cultured mesencephalic cells have been analyzed. The results show that 10-100 microM 5HT and 0.5-50 microM mianserin are able to disrupt the normal micromass morphology; 5HT and mianserin are unable to interfere with the cytoskeletal structures; mianserin (but not 5HT) induces pathological apoptosis on micromass cells at concentration levels of 0.5-50 microM; 5HT (but not mianserin) alters the neural differentiation at concentration levels of 10-100 microM. In conclusion, our results demonstrate that an excess of 5HT inhibits the capability of mesencephalic neurons to differentiate as shown by the alterations of the expression of the neuronal differentiative proteins glial-derived neurotrophic factor and Neu-N; on the other hand, the blocking of 5HT2 receptors induces apoptosis in differentiating neurons.
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PMID:Effects of excess and deprivation of serotonin on in vitro neuronal differentiation. 1472 75

Early disturbances in breathing control, including apneas of prematurity and apparently life-threatening events, account for some cases of sudden infant death syndrome and for a rare disorder called congenital central hypoventilation syndrome (CCHS). Data suggesting a genetic basis for CCHS have been obtained. Recently, we found heterozygous de novo mutations of the PHOX2B gene in 18 of 29 individuals with CCHS. Most mutations consisted of five to nine alanine expansions within a 20-residue polyalanine tract, probably resulting from nonhomologous recombination. Other mutations, generally inherited from one of the parents, in the coding regions of genes involved in the endothelin and RET signaling pathways and in the brain-derived-neurotrophic factor (BDNF) gene have been found in a few CCHS patients. Interestingly, all these genes are involved in the development of neural crest cells. Targeted disruption of these genes in mice has provided information on the pathophysiological mechanisms underlying CCHS. Despite the identification of these genes involved in breathing control, none of the genetically engineered mice developed to date replicate the full human CCHS respiratory phenotype. Recent insights into the genetic basis for CCHS may shed light on the genetics of other early disturbances in breathing control, such as apnea of prematurity and sudden infant death syndrome.
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PMID:Genetics and early disturbances of breathing control. 1473 59

The goal of this study was to investigate if a three dimensional matrix, loaded homogeneously with Schwann cells and the neurotrophic factor LIF (leukemia inhibitory factor), enhances regeneration in a biodegradable nerve guidance channel as compared to non-structured cell suspensions. Therefore a 10 mm nerve gap in the buccal branch of the rat's facial nerve was bridged with tubular PCL (poly-epsilon-caprolactone) conduits filled with no matrix, Schwann cells, the three dimensional fibrin/Schwann cell matrix or the fibrin/Schwann cell matrix added with LIF Four weeks after the nerve defects were bridged histological and morphometric analyses of the implants were performed. In conclusion, the three dimensional fibrin/Schwann cells matrix enhanced the quantity and the quality of peripheral nerve regeneration through PCL conduits. The application of LIF prevented hyperneurotization. Therefore, tissue engineered fibrin/Schwann cells matrices are new invented biocompatible and biodegradable devices for enhancing peripheral nerve regeneration as compared to non-structured cell suspensions without neurotrophic factors.
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PMID:Fibrin/Schwann cell matrix in poly-epsilon-caprolactone conduits enhances guided nerve regeneration. 1506 7

Secretion of gonadotropin-releasing hormone (GnRH) at the median eminence is the essential activator of the reproductive axis. The mechanisms by which embryonic GnRH neurons migrate from the olfactory placode to the preoptic area and then elaborate neurites that course through the hypothalamus to terminate at the median eminence are largely unknown. We investigated the hypothesis that GnRH neurite outgrowth is promoted by brain-derived neurotrophic factor (BDNF) because GnRH neurites course through BDNF-rich areas of the forebrain during their development. Confocal microscopy revealed that most (86%) cultured embryonic GnRH cells tagged with a green fluorescent protein reporter were immunoreactive for TrkB. In primary cultures of E12.5 olfactory tissue, treatment with BDNF induced a dose-dependent increase in neurite outgrowth, but had no discernible effect on branching. BDNF induced phosphorylation of Ca(2+)/cAMP response element-binding protein (pCREB) in both GnRH and non-GnRH cells in these cultures. This was not associated with phosphorylation of ERK in GnRH-immunoreactive cells, though BDNF treatment did stimulate pERK in neighbouring non-GnRH cells. Promotion of neurite outgrowth is unlikely therefore to result from activation of the Ras-MAPK/ERK pathway. We conclude that the developing GnRH secretory system is directly sensitive to BDNF and that this polypeptide functions as a neurotrophic factor for GnRH neurons.
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PMID:Neurotrophic effects of BDNF on embryonic gonadotropin-releasing hormone (GnRH) neurons. 1523 43

Pancreatic carcinoma cells exhibit a pronounced tendency to invade along and into intra- and extrapancreatic nerves, even at early stages of the disease. The neurotrophic factor glial cell line-derived neurotrophic factor (GDNF) has been shown to promote pancreatic cancer cell invasion. Here, we demonstrate that pancreatic carcinoma cell lines, such as PANC-1, expressed the RET and GDNF family receptor alpha receptor components for GDNF and that primary pancreatic tumor samples, derived from carcinomas with regional lymph node metastasis, exhibited marked expression of the mRNA encoding the RET51 isoform. Moreover, GDNF was an efficacious and potent chemoattractant for pancreatic carcinoma cells as examined in in vitro and in vivo model systems. Treatment of PANC-1 cells with GDNF resulted in activation of the monomeric GTPases N-Ras, Rac1, and RhoA, in activation of the mitogen-activated protein kinases extracellular signal-regulated kinase (ERK) and c-Jun NH(2)-terminal kinase (JNK) and in activation of the phosphatidylinositol 3-kinase/Akt pathway. Both inhibition of the Ras-Raf-MEK (mitogen-activated protein/ERK kinase)-ERK cascade by either stable expression of dominant-negative H-Ras(N17) or addition of the MEK1 inhibitor PD98059 as well as inhibition of the phosphatidylinositol 3-kinase pathway by LY294002 prevented GDNF-induced migration and invasion of PANC-1 cells. These results demonstrate that pancreatic tumor cell migration and possibly perineural invasion in response to GDNF is critically controlled by activation of the Ras-Raf-MEK-ERK and the phosphatidylinositol 3-kinase pathway.
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PMID:Activation of phosphatidylinositol 3-kinase and extracellular signal-regulated kinase is required for glial cell line-derived neurotrophic factor-induced migration and invasion of pancreatic carcinoma cells. 1528 35

Little is known about postnatal enteric nervous system (ENS) development, but some reports suggest that the postnatal bowel may contain neural stem cells. Therefore, we created an in vitro model of desegregation using an enzymatic and mechanical tissue technique. This approach yielded a group of cells from the small intestine of lactating and adult mice, which ex vivo attach to the culture dish; actively proliferate; and express nestin, vimentin, and the pro-neural transcription factors neurogenin-2 (ngn-2), Sox-10, and Mash-1. In the conditions grown, double immunostains suggest that they differentiate into various cell types, particularly neurons, smooth muscle, and glia including 04 protein-positive cells. They also express the neurotrophic-protein tyrosine kinase (Trk) receptors TrkA, TrkB, and TrkC; the low-affinity neurotrophin receptor p75NTR; and the glial-derived neurotrophic factor receptors (GFR)alpha-1, GFRalpha-2, and GFRalpha-3. The neurons expressed several sensory and motor neurotransmitters present in the central and enteric nervous systems, including calcitonin gene-related peptide, neuropeptideY, peptideYY, substance P, vasoactive intestinal polypeptide, and galanin; along with glia, these neurons formed elaborate intercellular connections. They also express c-KIT, CD34, CD20, and CD45RO, suggesting they either have a hematogenous origin or may differentiate toward hematogenous lines. These findings suggest that these cells may be enteric neural stem cells (ENSCs); may normally be present in the small intestine; and may have the capacity to proliferate and differentiate into neurons, glia, and smooth muscle. Further identification and purification of intestinal ENSCs will provide a means to study the regulation of their differentiation and should give insight into the mechanisms involved in development and remodeling of the ENS. The possible therapeutic application of postnatal stem cells such as ENSCs needs to be evaluated, including their use for transplantation in the central nervous system.
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PMID:Cultured nestin-positive cells from postnatal mouse small bowel differentiate ex vivo into neurons, glia, and smooth muscle. 1557 54

RET is the receptor for glial-derived neurotrophic factor growth factors. It is a paradigm of a single gene that causes different types of human cancer when targeted by different genetic alterations. Like other receptor tyrosine kinases, once activated, RET recruits a variety of signaling molecules that mediate biological responses. Here we review data on the signaling pathways that lead to RET-mediated cell transformation and recent evidence that manipulation of RET holds promise for thyroid cancer treatment.
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PMID:Dysfunction of the RET receptor in human cancer. 1558 57

Glial-cell-line-derived neurotrophic factor (GDNF) exerts its effect through a multi-component receptor system consisting of GFRalpha1, RET and NCAM. Two highly homologous alternatively spliced GFRalpha1 isoforms (GFRalpha1a and GFRalpha1b) have previously been identified. In this study, isoform specific real-time PCR assays were used to quantify the expression levels of GFRalpha1, RET and NCAM isoforms in murine embryonic and adult tissues. The expression levels of GFRalpha1b were found to be comparable to that of GFRalpha1a in peripheral tissues. However, GFRalpha1a was the predominant isoform expressed in the whole brain. The co-expressions of GFRalpha1 and the co-receptors were developmentally regulated and differentially expressed in some tissues. Microarray analyses of GFRalpha1 isoforms transfected cells stimulated with NTN showed distinct and non-overlapping gene profiles. These observations are consistent with the emerging view that the combinatorial interactions of the spliced isoforms of GFRalpha, RET and NCAM may contribute to the pleiotropic biological responses.
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PMID:Tissue expression of alternatively spliced GFRalpha1, NCAM and RET isoforms and the distinct functional consequence of ligand-induced activation of GFRalpha1 isoforms. 1597

At this large and varied meeting on neuropharmacotherapy, progress was reported on the newer more selective antipsychotics. The selective D(2) dopamine receptor partial agonist, aripiprazole (Otsuka Pharmaceutical Co Ltd) was recently proved effective over the medium term. The atypical antipsychotics generally, such as clozapine, have a good side effect profile and better patient compliance, even in Parkinson's disease (PD). Reboxetine (Pharmacia & Upjohn AB), having a far greater selectivity for norepinephrine reuptake inhibition than for serotonin or dopamine reuptake, is of particular value in treating depression. Paroxetine (Novo Nordisk A/S), a selective serotonin reuptake inhibitor (SSRI), has just completed a multicenter clinical trial, being effective in about 50% of cases of post-traumatic stress disorder. A meta-analysis of trials of other uptake inhibitors showed that ability to block serotonin (rather than norepinephrine) uptake correlated well with efficacy. Bipolar and other disorders were hoped to benefit from more selective agents in the future, the potential for which has been revealed through basic neurobiology, with, for example, only non-alpha7 nicotinic receptor subunits being expressed by those interneurons mediating nicotinic responses. An open label, 30-day study of a pyrrolopyrimidine, the corticotrophin releasing factor (CRF) type 1 receptor inhibitor, NBI-30775 (Neurocrine Biosciences Inc/Janssen Pharmaceutica NV) produced good antidepressant effects, but has had to be abandoned as a product due to indications of potential liver damage. Similarly, although glial-derived neurotrophic factor (GDNF) had proved ineffective in a 1999 trial for PD, due to failure to access the striatum, there was however much evidence to suggest that small molecule agonists of the TRK-B receptor should be effective. Of these, quinones such as L-783281 (Merck Research Laboratories) appear to activate all TRK subtypes by a common intracellular, rather than receptormediated action, which may limit their usefulness. Although such agents would have many potential applications, it is likely that highly selective receptor activation will be needed.
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PMID:CINP 2000 - Collegium Internationale Neuro-Psychopharmacologicum 22nd Congress. 1604 59

Endothelins play a role in the regulation of astrocytic functions in brain pathologies such as hyperplasia and neurotrophic factor production. The present study examined the effects of endothelins on production of neurotrophin-3, a member of the neurotrophin family of neurotrophic factors, in cultured astrocytes and rat brain. Quantitative reverse transcription-PCR analysis of mRNA copy numbers showed that cultured astrocytes expressed comparable numbers of neurotrophin-3 and neurotrophin-4/5 mRNA copies to nerve growth factor and brain-derived neurotrophic factor. Endothelin-1 (100 nM) and Ala1,3,11,15-endothelin-1 (an endothelinB receptor agonist, 100 nM) caused a transient increase in neurotrophin-3 mRNA levels, but not in neurotrophin-4/5 levels, in cultured astrocytes. The increases in mRNA levels were accompanied with that in extracellular release of neurotrophin-3. The effects of endothelin-1 on neurotrophin-3 mRNA levels were reduced by BQ788, an endothelinB receptor antagonist. I.c.v. administration of 500 pmol/day Ala1,3,11,15-endothelin-1 increased mRNA and peptide levels of neurotrophin-3 in rat caudate putamen and cerebrum. On the other hand, neurotrophin-3 production in hippocampus was not affected by Ala1,3,11,15-endothelin-1. Immunohistochemical examination of Ala1,3,11,15-endothelin-1-infused rats showed that neurotrophin-3 was mainly expressed in glial fibrillary acidic protein-positive astrocytes in caudate putamen and cerebrum. endothelin-induced increases in neurotrophin-3 expression in cultured astrocytes were inhibited by chelation of intracellular Ca2+ and PD98095 (an ERK inhibitor). These results suggest that endothelin is an extracellular signal that stimulates astrocytic neurotrophin-3 production in brain pathologies.
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PMID:Endothelins stimulate the expression of neurotrophin-3 in rat brain and rat cultured astrocytes. 1618 40


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