Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We present evidence that direct activation of neuronal second messenger pathways in PC12 cells by opening voltage-dependent calcium channels mimics cell adhesion molecule (CAM)-induced differentiation of these cells. PC12 cells were cultured on monolayers of control 3T3 cells or 3T3 cells expressing transfected N-cadherin in the presence of KCl or a calcium channel agonist Bay K 8644. Both potassium depolarization and agonist-induced activation of calcium channels promoted substantial neurite outgrowth from PC12 cells cultured on control 3T3 monolayers and increased neurite outgrowth from those cultured on N-cadherin-expressing 3T3 monolayers. The potassium-induced response could be inhibited by L- and N-type calcium channel antagonists and by kinase inhibitor K-252b but was unaffected by pertussis toxin. In contrast activators of protein kinase C did not stimulate neurite outgrowth, and the neurite outgrowth response induced by activation of protein kinase A was not inhibited by calcium channel antagonists or pertussis toxin. These studies support the postulate that CAM-induced neuronal differentiation involves a specific transmembrane signaling pathway and suggest that activation of this pathway after CAM binding may be more important for the neurite outgrowth response than CAM-dependent adhesion per se.
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PMID:Direct activation of second messenger pathways mimics cell adhesion molecule-dependent neurite outgrowth. 137 46

Monolayers of control 3T3 fibroblasts and 3T3 cells expressing transfected NCAM or N-cadherin have been used as a culture substratum for rat hippocampal neurons. Both NCAM and N-cadherin are expressed in the hippocampus through embryonic day 17 (E17) to postnatal day 4 (PND4); however, whereas E17 neurons responded to transfected NCAM by extending considerably longer neurites, PND4 neurons responded very poorly. The converse was true for responsiveness to N-cadherin. These data demonstrate a switch in neuronal responsiveness to NCAM and N-cadherin in the developing hippocampus. NCAM-dependent neurite outgrowth from E17 neurons was largely dependent on the presence of alpha 2-8-linked polysialic acid (PSA) on neuronal NCAM. NCAM-dependent neurite outgrowth could be fully inhibited by pertussis toxin or a combination of L- and N-type calcium channel antagonists thus providing direct evidence concerning the nature of the second messenger pathway activated in primary neurons by cell adhesion molecules (CAMs).
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PMID:A developmentally regulated switch in neuronal responsiveness to NCAM and N-cadherin in the rat hippocampus. 142 59

We have used monolayers of control 3T3 cells and 3T3 cells expressing transfected human neural cell adhesion molecule (NCAM) or chick N-cadherin as a culture substrate for PC12 cells. NCAM and N-cadherin in the monolayer directly promote neurite outgrowth from PC12 cells via a G-protein-dependent activation of neuronal calcium channels. In the present study we show that ganglioside GM1 does not directly activate this pathway in PC12 cells. However, the presence of GM1 (12.5-100 micrograms/ml) in the co-culture was associated with a potentiation of NCAM and N-cadherin-dependent neurite outgrowth. Treatment of PC12 cells with GM1 (100 micrograms/ml) for 90 min led to trypsin-stable increases in both beta-cholera toxin binding to PC12 cells and an enhanced neurite outgrowth response to N-cadherin. The ganglioside response could be fully inhibited by treatment with pertussis toxin. These data are consistent with exogenous gangliosides enhancing neuritic growth by promoting cell adhesion molecule-induced calcium influx into neurons.
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PMID:Ganglioside modulation of neural cell adhesion molecule and N-cadherin-dependent neurite outgrowth. 157 68

We present evidence that the morphoregulatory activities of neural cell adhesion molecule (NCAM) and N-cadherin involve activation of intracellular second messenger pathways. PC12 cells were cultured on monolayers of control 3T3 cells or 3T3 cells expressing transfected N-cadherin or NCAM. NCAM and N-cadherin directly induced a transcription-independent change in the morphology of PC12 cells from an adrenal to neuronal phenotype and also specifically increased Thy-1, but not L1/NILE or low affinity NGF receptor, immunoreactivity. The morphological response was more rapid and, in the case of N-cadherin, more substantial than that induced by NGF. It could be fully inhibited by pertussis toxin and a combination of L- and N-type Ca2+ channel antagonists, but not by broad-specificity kinase inhibitors. It was blocked, however, by the kinase inhibitor K-252b. These studies suggest that cell adhesion molecules directly alter cell phenotype and provide direct evidence for transmembrane signaling mediating both the morphological and biochemical responses induced by NCAM and N-cadherin.
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PMID:Morphoregulatory activities of NCAM and N-cadherin can be accounted for by G protein-dependent activation of L- and N-type neuronal Ca2+ channels. 168 May 64

The signaling mechanisms underlying neurite growth induced by cadherins and integrins are incompletely understood. In our experiments, we have examined these mechanisms using purified N-cadherin and laminin (LN). We find that unlike the neurite growth induced by fibroblastic cells expressing transfected N-cadherin (Doherty, P., and F.S. Walsh. 1992. Curr. Opin. Neurobiol. 2:595-601), growth induced by purified N-cadherin in chick ciliary ganglion (CG), sensory, or forebrain neurons is not sensitive to inhibition by pertussis toxin. Using fura-2 imaging of single cells, we show that soluble N-cadherin induces Ca2+ increases in CG neuron cell bodies, and, importantly, in growth cones. In contrast, N-cadherin can induce Ca2+ decreases in glial cells. N-cadherin-induced neuronal Ca2+ responses are sensitive to Ni2+, but are relatively insensitive to diltiazem and omega-conotoxin. Similarly, neurite growth induced by purified N-cadherin is inhibited by Ni2+, but is unaffected by diltiazem and conotoxin. Soluble LN also induced small Ca2+ responses in CG neurons. LN-induced neurite growth, like that induced by N-cadherin, is insensitive to diltiazem and conotoxin, but is highly sensitive to Ni2+ inhibition. K+ depolarization experiments suggest that voltage-dependent Ca2+ influx pathways in CG neurons (cell bodies and growth cones) are largely blocked by the combination of diltiazem and Ni2+. Our results demonstrate that cadherin signaling involves cell type-specific Ca2+ changes in responding cells, and in particular, that N-cadherin can cause Ca2+ increases in neuronal growth cones. Our findings are consistent with the current idea that distinct neuronal transduction pathways exist for cell adhesion molecules compared with integrins, but suggest that the involvement of Ca2+ signals in both of these pathways is more complex than previously appreciated.
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PMID:Ca2+ influx and neurite growth in response to purified N-cadherin and laminin. 796 2

We present evidence that the neurite out-growth stimulated by the binding of Thy-1 antibodies to PC12 cells is mediated by calcium influx through both N- and L-type calcium channels. PC12 cells cultured on a noncellular substratum in the presence of NGF, or on a cellular substratum in the absence of NGF, responded to soluble Thy-1 antibody by extending longer neurites. The response required bivalent antibody and could be blocked by removing Thy-1 from the surface of PC12 cells with phosphatidylinositol specific phospholipase C. The response could also be blocked by reducing extracellular calcium to 0.25 mM, or by antagonists of L- and N-type calcium channels. Additionally, the response could be fully inhibited by preloading PC12 cells with BAPTA/AM which buffers changes in intracellular calcium. A heterotrimeric G-protein is also implicated in the pathway as the response could be fully inhibited by pertussis toxin. These data suggest that antibody-induced clustering of Thy-1 stimulates neurite outgrowth by activating a second messenger pathway that has previously been shown to underlie cell adhesion molecule (NCAM, N-cadherin, and L1), but not integrin or NGF-dependent neurite outgrowth.
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PMID:Thy-1 antibody-triggered neurite outgrowth requires an influx of calcium into neurons via N- and L-type calcium channels. 810 Feb 30

Embryonic chick spinal neurons have been cultured over sections of human foetal muscle to determine which cell adhesion molecules present in embryonic muscle are important in promoting neurite outgrowth. Using blocking antibodies against the major cell adhesion molecules, neural cell adhesion molecule (NCAM), N-cadherin and the beta 1 subunit of the integrins, neurite outgrowth was significantly blocked only by anti-integrin antibodies. In addition other agents that block neurite outgrowth stimulated by NCAM, N-cadherin and L1, such as the calcium channel antagonists verapamil and omega-conotoxin and pertussis toxin which inactivates G-proteins also had no effect. This suggests that in this culture system integrins are able to promote neurite outgrowth whereas NCAM and N-cadherin are not.
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PMID:Neurite outgrowth of spinal neurons on tissue sections of embryonic muscle is largely integrin dependent. 826 67

In peripheral nerves, Schwann cells (SCs) form contacts with axons, other SCs, and extracellular matrix components that are critical for their migration, differentiation, and response to injury. Here, we report that lysophosphatidic acid (LPA), an extracellular signaling phospholipid, regulates the morphology and adhesion of cultured SCs. Treatment with LPA induces f-actin rearrangements resulting in a "wreath"-like structure, with actin loops bundled peripherally by short orthogonal filaments. The latter appear to anchor the SC to a laminin substrate, because they colocalize with the focal adhesion proteins, paxillin and vinculin. SCs also respond to LPA treatment by forming extensive cell-cell junctions containing N-cadherin, resulting in cell clustering. Pharmacological blocking experiments indicate that LPA-induced actin rearrangements and focal adhesion assembly involve Rho pathway activation via a pertussis toxin-insensitive G-protein. The transcript encoding LP(A1), the canonical G-protein-coupled receptor for LPA, is upregulated after sciatic nerve transection, and SCs cultured from lp(A1)-null mice exhibit greatly diminished morphological responses to LPA. Cultured SCs can release an LPA-like factor implicating SCs as a potential source of endogenous, signaling LPA. These data, together with the previous demonstration of LPA-mediated SC survival, implicate endogenous receptor-mediated LPA signaling in the control of SC development and function.
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PMID:Regulation of Schwann cell morphology and adhesion by receptor-mediated lysophosphatidic acid signaling. 1154 17

Early growth and differentiation of the pancreatic endoderm is regulated by soluble factors from the pancreatic mesenchyme. Previously, we demonstrated that N-cadherin-deficient mice lack a dorsal pancreas, due to a critical role of N-cadherin in dorsal pancreatic mesenchymal cell survival. Here, we show that restoring cardiac and circulatory function in N-cadherin null mice by cardiac-specific expression of N-cadherin, rescues formation of the dorsal pancreas, indicating that the phenotype is secondary to defects related to cardiac/vascular function. Based on this observation, we demonstrate that soluble factors present in plasma, such as sphingosine-1-phosphate, rescue formation of the dorsal pancreas in N-cadherin-deficient mice. We also show that sphingosine-1-phosphate indirectly promotes budding of the pancreatic endoderm by stimulating pancreatic mesenchymal cell proliferation. Finally, we identify sphingosine-1-phosphate receptors within the mesenchyme and show that pertussis toxin blocks the sphingosine-1-phosphate-induced actions, suggesting the involvement of G-protein-coupled sphingosine-1-phosphate receptors. Thus, we propose a new model where blood vessel-derived sphingosine-1-phosphate stimulates growth and budding of the dorsal pancreatic endoderm by induction of mesenchymal cell proliferation.
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PMID:Vascular function and sphingosine-1-phosphate regulate development of the dorsal pancreatic mesenchyme. 1568 81

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