UMLS:C0344329 - FACTA Search

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Query: UMLS:C0344329 (collapse)
28,634 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The results of previous in vitro experiments indicate that a glycosylphosphatidylinositol (GPI)-anchored protein may play an important role in the guidance of temporal retinal axons during the formation of the topographically ordered retinotectal projection. We have purified and cloned a GPI-anchored, 25 kDa glycoprotein that is a good candidate for a molecule involved in this process. During the time of innervation by retinal ganglion cells, this protein is gradedly expressed in the posterior part of the developing tectum. In two different in vitro assay systems, the recombinant protein induces growth cone collapse and repulsion of retinal ganglion cell axons. These phenomena are observed for axons of temporal as well as nasal origin, indicating that an additional activity may be necessary to confer the nasotemporal specificity observed in previous assays. We named the protein RAGS (for repulsive axon guidance signal). The sequence of RAGS shows significant homology to recently identified ligands for receptor tyrosine kinases of the Eph subfamily.
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PMID:In vitro guidance of retinal ganglion cell axons by RAGS, a 25 kDa tectal protein related to ligands for Eph receptor tyrosine kinases. 763 26

Previous experiments identified AL-1 as a glycosylphosphatidylinositol (GPI)-linked ligand for the Eph-related receptor, REK7, and showed that a REK7-IgG fusion protein blocks axon bundling in co-cultures of cortical neurons on astrocytes, suggesting a role for REK7 and AL-1 in axon fasciculation. Subsequent identification of RAGS, the chick homologue of AL-1, as a repellent axon guidance molecule in the developing chick visual system led to speculation that AL-1, expressed on astrocytes, provides a repellent stimulus for cortical axons, inducing them to bundle as an avoidance mechanism. Using a growth cone collapse assay to test this hypothesis, we show that a soluble AL-1-IgG fusion protein is a potent collapsing factor for embryonic rat cortical neurons. The response is strongly correlated with REK7 expression, implicating REK7 as a receptor mediating AL-1-induced collapse. Morphological collapse is preceded by an AL-1-IgG-induced reorganization of the actin cytoskeleton that resembles the effects of cytochalasin D. This suggests a pathway whereby REK7 activation by AL-1 leads to perturbation of the actin cytoskeleton, possibly by an effect on actin polymerization, followed by growth cone collapse. We further show that AL-1-IgG causes collapse of rat hippocampal neurons and rat retinal ganglion cells. These data suggest a role for REK7 and AL-1 in the patterning of axonal connections in the developing cortex, hippocampus and visual system.
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PMID:AL-1-induced growth cone collapse of rat cortical neurons is correlated with REK7 expression and rearrangement of the actin cytoskeleton. 904 81

The transmembrane (TM) subfamily of Eph ligands and their receptors have been implicated in axon pathfinding and in pattern formation during embryogenesis. These functions are thought to involve repulsive interactions but this has not been demonstrated directly. In this study we used a growth cone collapse assay to determine if the TM ligands Lerk2 and HtkL have repellant guidance activity. We show that Lerk2, but not HtkL, is a collapsing factor for a subset of embryonic cortical neurons. Analysis of the effects of Lerk2 on both the morphology and the cytoskeleton of cortical neurons suggests a mechanism of action different from that of AL-1, a GPI-linked Eph ligand having similar repellant activity. Treatment with Lerk2 disrupts the organization of both the actin cytoskeleton and the microtubules and induces the formation of swellings in the center of the growth cone and along the axon. Measurement of the relative F-actin concentrations in the neurites and soma indicated that F-actin levels in the neurites decrease while those in the soma increase, with the net F-actin content of the neuron remaining unchanged. In contrast, we show that prolonged treatment with AL-1 leads to a net loss of F-actin, consistent with the hypothesis that AL-1 acts by perturbing actin polymerization. These results provide evidence that the ectodomain of Lerk2 functions as a repellant guidance cue and show that, despite overlapping specificities in vitro, the biological activities of related ligands are not necessarily overlapping. Further, TM and GPI-linked Eph ligands appear to exert repellant activity by different mechanisms, opening up the possibility that they may have different effects on growth cones in vivo.
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PMID:Lerk2 (ephrin-B1) is a collapsing factor for a subset of cortical growth cones and acts by a mechanism different from AL-1 (ephrin-A5). 926 8

The ephrins, ligands of Eph receptor tyrosine kinases, have been shown to act as repulsive guidance molecules and to induce collapse of neuronal growth cones. For the first time, we show that the ephrin-A5 collapse is mediated by activation of the small GTPase Rho and its downstream effector Rho kinase. In ephrin-A5-treated retinal ganglion cell cultures, Rho was activated and Rac was downregulated. Pretreatment of ganglion cell axons with C3-transferase, a specific inhibitor of the Rho GTPase, or with Y-27632, a specific inhibitor of the Rho kinase, strongly reduced the collapse rate of retinal growth cones. These results suggest that activation of Rho and its downstream effector Rho kinase are important elements of the ephrin-A5 signal transduction pathway.
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PMID:Ephrin-A5 induces collapse of growth cones by activating Rho and Rho kinase. 1076 20

In the embryonic visual system, EphA receptors are expressed on both temporal and nasal retinal ganglion cell axons. Only the temporal axons, however, are sensitive to the low concentrations of ephrin-A ligands found in the anterior optic tectum. The poor responsiveness of nasal axons to ephrin-A ligands, which allows them to traverse the anterior tectum and reach their targets in the posterior tectum, has been attributed to constitutive activation of the EphA4 receptor expressed in these axons. EphA4 is highly expressed throughout the retina, but is preferentially phosphorylated on tyrosine (activated) in nasal retina. In a screen for EphA4 ligands expressed in chicken embryonic retina, we have identified a novel ephrin, ephrin-A6. Like ephrin-A5, ephrin-A6 has high affinity for EphA4 and activates this receptor in cultured retinal cells. In the embryonic day 8 (E8) chicken visual system, ephrin-A6 is predominantly expressed in the nasal retina and ephrin-A5 in the posterior tectum. Thus, ephrin-A6 has the properties of a ligand that activates the EphA4 receptor in nasal retinal cells. Ephrin-A6 binds with high affinity to several other EphA receptors as well and causes growth cone collapse in retinal explants, demonstrating that it can elicit biological responses in retinal neurons. Ephrin-A6 expression is high at E6 and E8, when retinal axons grow to their tectal targets, and gradually declines at later developmental stages. The asymmetric distribution of ephrin-A6 in retinal cells, and the time course of its expression, suggest that this new ephrin plays a role in the establishment of visual system topography.
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PMID:Ephrin-A6, a new ligand for EphA receptors in the developing visual system. 1116 63

This paper examines a case of sudden systolic pressure fall, tachycardia, low pulse pressure, and high pulmonary artery wedge pressure due to acute aortic insufficiency which was induced by an Amplatz left (AL-1) guide catheter used for better guide support during percutaneous transluminal coronary angioplasty of the right coronary artery. AL guide catheters can cause acute aortic insufficiency, of which practitioners should be aware when sudden hemodynamic collapse occurs.
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PMID:Echocardiographically documented acute aortic insufficiency induced by Amplatz left guide catheter. 1243 49

The Eph family of receptor tyrosine kinases and their ligands, the ephrins, play important roles during development of the nervous system. Frequently they exert their functions through a repellent mechanism, so that, for example, an axon expressing an Eph receptor does not invade a territory in which an ephrin is expressed. Eph receptor activation requires membrane-associated ligands. This feature discriminates ephrins from other molecules sculpturing the nervous system such as netrins, slits and class 3 semaphorins, which are secreted molecules. While the ability of secreted molecules to guide axons, i.e. to change their growth direction, is well established in vitro, little is known about this for the membrane-bound ephrins. Here we set out to investigate--using Xenopus laevis retinal axons--the properties of substratum-bound and (artificially) soluble forms of ephrin-A5 (ephrin-A5-Fc) to guide axons. We find--as expected on the basis of chick experiments - that, when immobilised in the stripe assay, ephrin-A5 has a repellent effect such that retinal axons avoid ephrin-A5-Fc-containing lanes. Also, retinal axons react with repulsive turning or growth cone collapse when confronted with ephrin-A5-Fc bound to beads. However, when added in soluble form to the medium, ephrin-A5 induces growth cone collapse, comparable to data from chick. The analysis of growth cone behaviour in a gradient of soluble ephrin-A5 in the 'turning assay' revealed a substratum-dependent reaction of Xenopus retinal axons. On fibronectin, we observed a repulsive response, with the turning of growth cones away from higher concentrations of ephrin-A5. On laminin, retinal axons turned towards higher concentrations, indicating an attractive effect. In both cases the turning response occurred at a high background level of growth cone collapse. In sum, our data indicate that ephrin-As are able to guide axons in immobilised bound form as well as in the form of soluble molecules. To what degree this type of guidance is relevant for the in vivo situation remains to be shown.
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PMID:On the turning of Xenopus retinal axons induced by ephrin-A5. 1262 Sep 87

Ephrin-As are repulsive axonal guidance cues that regulate retinotectal projection. EphA tyrosine kinases, which are the receptors of ephrin-As, activate signaling cascades leading to cytosckeleton reorganization. Here, we address the role of cyclin-dependent kinase (Cdk) 5 in Eph receptor signaling induced by ephrin-A5. Ephrin-A5 induced a cell morphological response in PC-3M cells that endogenously express Cdk5 and EphA2, a receptor for ephrin-A5. This response was augmented by the transfection of p35, which is a neuronal regulator of Cdk5. While the morphological response of native PC-3M cells was not affected by olomoucine, an inhibitor of Cdk, the response was inhibited in the p35-transfected cells. In retinal ganglion cells, either olomoucine at 20 microM or Y-27632 at 10 microM, an inhibitor of Rho-kinase/ROKalpha/ROCKII, showed maximum inhibitory effect against ephrin-A5 (10 microg/ml)-induced growth cone collapse. Combined application of olomoucine and Y-27632 further suppressed the ephrin-A5-induced response. Ephrin-A5 evoked phosphorylation of Cdk5 at Tyr15 and tau, a substrate of Cdk5 in retinal growth cones. Recombinant herpes simplex virus expressing Cdk5 mutant (kinase-negative or Tyr15 to Ala) showed a dominant-negative effect on the ephrin-A5-induced growth cone collapse. These findings demonstrate that both Cdk5 and the Rho kinase pathway independently contribute to the downstream of ephrin-A-induced signaling in retinal ganglion cells.
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PMID:Cdk5/p35 and Rho-kinase mediate ephrin-A5-induced signaling in retinal ganglion cells. 1466 14

The interactions between Eph receptor tyrosine kinases and their ephrin ligands regulate cell migration and axon pathfinding. The EphA receptors are generally thought to become activated by ephrin-A ligands, whereas the EphB receptors interact with ephrin-B ligands. Here we show that two of the most widely studied of these molecules, EphB2 and ephrin-A5, which have never been described to interact with each other, do in fact bind one another with high affinity. Exposure of EphB2-expressing cells to ephrin-A5 leads to receptor clustering, autophosphorylation and initiation of downstream signaling. Ephrin-A5 induces EphB2-mediated growth cone collapse and neurite retraction in a model system. We further show, using X-ray crystallography, that the ephrin-A5-EphB2 complex is a heterodimer and is architecturally distinct from the tetrameric EphB2-ephrin-B2 structure. The structural data reveal the molecular basis for EphB2-ephrin-A5 signaling and provide a framework for understanding the complexities of functional interactions and crosstalk between A- and B-subclass Eph receptors and ephrins.
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PMID:Repelling class discrimination: ephrin-A5 binds to and activates EphB2 receptor signaling. 1511 47

In this study, we investigate the possible role of ephrin-Eph signaling in trigeminal motor axon projections. We find that EphA receptors are expressed at higher levels by rhombomere 2 (r2) trigeminal motor neurons than by r3 trigeminal motor neurons in the chick embryo. Mapping of rhombomere-specific axon projections shows that r2 and r3 trigeminal motor neurons project to different muscle targets, including the mandibular adductor and the intermandibularis muscles respectively. Ephrin-A5 is expressed in these muscles, especially in some regions of the intermandibularis muscle, and can cause growth cone collapse of both r2 and r3 motor axons in vitro. We demonstrate that in vivo overexpression of ephrin-A5 in the intermandibularis muscle, or overexpression of dominant-negative EphA receptors in trigeminal motor neurons leads to a reduction in branching of r3-derived motor axons specifically. Overexpression of full-length EphA receptors impairs the formation of r3 projections to the intermandibularis muscle. These findings indicate that ephrins and their Eph receptors play a role in trigeminal motor axon topographic mapping and in rhombomere 3-derived projections in particular.
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PMID:Ephrin-As play a rhombomere-specific role in trigeminal motor axon projections in the chick embryo. 1573 68

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