排序方式: 共有18条查询结果,搜索用时 10 毫秒
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Tamar Pirtskhalava Adam C. Gower Husheng Ding Nino Giorgadze Allyson K. Palmer Yuji Ikeno Gene B. Hubbard Marc Lenburg Steven P. O'Hara Nicholas F. LaRusso Jordan D. Miller Carolyn M. Roos Grace C. Verzosa Nathan K. LeBrasseur Jonathan D. Wren Joshua N. Farr Sundeep Khosla Michael B. Stout Sara J. McGowan Heike Fuhrmann‐Stroissnigg Aditi U. Gurkar Jing Zhao Debora Colangelo Akaitz Dorronsoro Yuan Yuan Ling Amira S. Barghouthy Diana C. Navarro Tokio Sano Paul D. Robbins Laura J. Niedernhofer James L. Kirkland 《Aging cell》2015,14(4):644-658
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Erik Mire Mélanie Hocine Elsa Bazellières Thomas Jungas Alice Davy Sophie Chauvet Fanny Mann 《Current biology : CB》2018,28(11):1768-1782.e4
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Eph受体家族及其配体的信号转导途径及功能 总被引:5,自引:1,他引:4
Eph受体是已知最大的酪氨酸蛋白激酶受体家族,Eph受体和其膜附着型配体(ephrin)在发育过程中呈现不同的表达模式,近来研究证明,Eph受体和其配体在包括神经网络形成,神经管和轴旁中胚层的成型(patterning),细胞迁移导向和轴突路径导引,血管形成等许多的发育过程中起重要作用.Eph受体及其配体也与肿瘤发生有关,因此深入分析这些分子尤其在肿瘤细胞生长中的功能而应用于治疗具有重要的临床意义. 相似文献
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Carol Mason 《Developmental neurobiology》2010,70(11):781-794
The circuit for binocular vision and stereopsis is established at the optic chiasm, where retinal ganglion cell (RGC) axons diverge into the ipsilateral and contralateral optic tracts. In the mouse retina, ventrotemporal (VT) RGCs express the guidance receptor EphB1, which interacts with the repulsive guidance cue ephrin‐B2 on radial glia at the optic chiasm to direct VT RGC axons ipsilaterally. RGCs in the ventral retina also express EphB2, which interacts with ephrin‐B2, whereas dorsal RGCs express low levels of EphB receptors. To investigate how growth cones of RGCs from different retinal regions respond upon initial contact with ephrin‐B2, we utilized time‐lapse imaging to characterize the effects of ephrin‐B2 on growth cone collapse and axon retraction in real time. We demonstrate that bath application of ephrin‐B2 induces rapid and sustained growth cone collapse and axon retraction in VT RGC axons, whereas contralaterally‐projecting dorsotemporal RGCs display moderate growth cone collapse and little axon retraction. Dose response curves reveal that contralaterally‐projecting ventronasal axons are less sensitive to ephrin‐B2 treatment compared to VT axons. Additionally, we uncovered a specific role for Rho kinase signaling in the retraction of VT RGC axons but not in growth cone collapse. The detailed characterization of growth cone behavior in this study comprises an assay for the study of Eph signaling in RGCs, and provides insight into the phenomena of growth cone collapse and axon retraction in general. © 2010 Wiley Periodicals, Inc. Develop Neurobiol 70: 781–794, 2010 相似文献
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Fournier AE Nakamura F Kawamoto S Goshima Y Kalb RG Strittmatter SM 《The Journal of cell biology》2000,149(2):411-422
Axonal growth cone collapse is accompanied by a reduction in filopodial F-actin. We demonstrate here that semaphorin 3A (Sema3A) induces a coordinated rearrangement of Sema3A receptors and F-actin during growth cone collapse. Differential interference contrast microscopy reveals that some sites of Sema3A-induced F-actin reorganization correlate with discrete vacuoles, structures involved in endocytosis. Endocytosis of FITC-dextran by the growth cone is enhanced during Sema3A treatment, and sites of dextran accumulation colocalize with actin-rich vacuoles and ridges of membrane. Furthermore, the Sema3A receptor proteins, neuropilin-1 and plexin, and the Sema3A signaling molecule, rac1, also reorganize to vacuoles and membrane ridges after Sema3A treatment. These data support a model whereby Sema3A stimulates endocytosis by focal and coordinated rearrangement of receptor and cytoskeletal elements. Dextran accumulation is also increased in retinal ganglion cell (RGC) growth cones, in response to ephrin A5, and in RGC and DRG growth cones, in response to myelin and phorbol-ester. Therefore, enhanced endocytosis may be a general principle of physiologic growth cone collapse. We suggest that growth cone collapse is mediated by both actin filament rearrangements and alterations in membrane dynamics. 相似文献
16.
《Cell Adhesion & Migration》2013,7(4):360-365
The Eph receptor tyrosine kinases and their ephrin ligands direct axon pathfinding and neuronal cell migration, and mediate many other cell-cell communication events. The Ephs and ephrins both localize to the plasma membrane and, upon cell-cell contact, form extensive signaling assemblies at the contact sites. Recent structural, biochemical and cell-biological studies revealed that these assemblies are generated not only via Eph-ephrin interactions, but also via homotypic interactions between neighboring receptor molecules. In addition, Eph-Eph interactions mediate receptor pre-clustering, which ensures fast and efficient activation once ligands come into contact range. Here we summarize the current knowledge about the homotypic Eph-Eph interactions and discuss how they could modulate the initiation of Eph/ephrin signaling. 相似文献
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The Eph receptor tyrosine kinases and their ephrin ligands direct axon pathfinding and neuronal cell migration, and mediate many other cell-cell communication events. The Ephs and ephrins both localize to the plasma membrane and, upon cell-cell contact, form extensive signaling assemblies at the contact sites. Recent structural, biochemical and cell-biological studies revealed that these assemblies are generated not only via Eph-ephrin interactions, but also via homotypic interactions between neighboring receptor molecules. In addition, Eph-Eph interactions mediate receptor pre-clustering, which ensures fast and efficient activation once ligands come into contact range. Here we summarize the current knowledge about the homotypic Eph-Eph interactions and discuss how they could modulate the initiation of Eph/ephrin signaling. 相似文献
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