CONICET - Universidad de Buenos Aires, Instituto de Biología Celular y Neurociencias "Prof. E. De Robertis" (IBCN), Paraguay 2155. 2o Piso.Ciudad de Buenos Aires (1121), Argentina; Universidad de Buenos Aires, Facultad de Medicina, Departamento de Biología Celular, Histología, Embriología y Genética, Ciudad de Buenos Aires, Argentina.
CONICET - CIC, Instituto Multidisciplinario de Biologia Celular (IMBICE). La Plata, Buenos Aires, Argentina.
Exp Eye Res. 2019 Jan;178:46-60. doi: 10.1016/j.exer.2018.09.007. Epub 2018 Sep 18.
The Eph and ephrins are involved in the genesis of topographic ordered connections at the visual system. Previously we demonstrated that tectal EphA3 stimulates axon growth of nasal retinal ganglion cells (RGCs) toward the caudal tectum preventing them from branching in the rostral tectum. Now we investigated whether tectal EphA3 plays this role by modulating the axonal EphA4 forward signaling or throughout axonal ephrin-As reverse signaling. For this purpose we used cultures of nasal retinal explants and dissociated retinal neurons from chicken embryos. We treated them with clustered EphA3-Fc, Fc (control), PI-PLC (sheds ephrin-As) or KYL (inhibits ephrin-As-mediated EphA4 activation). We achieved in vitro and in vivo electroporations of chicken embryo retinas with wild type EphA4, Ki-EphA4 (kinase inactive dominant negative EphA4) or EGFP in pMES expression vector. We performed immunocytochemistry, immunoprecipitation and Western blot against Eph/ephrin-As system. Our results showed that: 1) shedding of ephrin-As and the inhibition of ephrin-A-mediated EphA4 activity increase axon length and decrease axonal interstitial filopodia density of nasal RGCs; and 2) a dominant negative form of EphA4 increases axon growth in vitro and induces nasal RGC axons to grow passing throughout their target area in the caudal tectum meanwhile overexpression of EphA4 produces the opposite effects. All together, these results demonstrate that ephrin-A-mediated EphA4 forward signaling decreases the level of axon growth and increases the density of axonal interstitial filopodia of nasal RGCs. Besides, our results showed that: 3) EphA3 ectodomain increases axon growth and decreases the density of axonal interstitial filopodia and branching in vitro and in vivo and 4) EphA3 ectodomain diminishes the ephrin-A2/EphA4 colocalization, and the EphA4 and ephexin1 phosphorylation. All together, these results show that the EphA3 ectodomain produces the opposite effects than the EphA4 forward signaling, by decreasing this signaling pathway throughout competing with EphA4 for ephrin-As binding. Furthermore, it is proposed that tectal EphA3 participates in the establishment of retinotectal mapping throughout this mechanism and that EphAs can regulate axon growth and branching by modulating other EphA receptors forward signaling.
Eph 和 Ephrins 参与了视觉系统中拓扑有序连接的形成。以前我们证明,顶盖 EphA3 刺激鼻视网膜神经节细胞 (RGC) 的轴突生长向尾侧顶盖,防止它们在头侧顶盖分支。现在我们研究了顶盖 EphA3 是否通过调节轴突 EphA4 的正向信号转导或通过轴突 Ephrin-As 的反向信号转导来发挥这种作用。为此,我们使用了鸡胚胎鼻视网膜外植体和分离的视网膜神经元培养物。我们用聚集 EphA3-Fc、Fc(对照)、PI-PLC(脱落 Ephrin-As)或 KYL(抑制 Ephrin-As 介导的 EphA4 激活)处理它们。我们用野生型 EphA4、Ki-EphA4(激酶失活的显性负 EphA4)或 pMES 表达载体中的 EGFP 在鸡胚视网膜上进行了体内和体外电穿孔。我们对 Eph/ephrin-As 系统进行了免疫细胞化学、免疫沉淀和 Western blot 分析。我们的结果表明:1)Ephrin-As 的脱落和 Ephrin-A 介导的 EphA4 活性的抑制增加了鼻 RGC 的轴突长度并降低了轴突间质丝状伪足的密度;2)EphA4 的显性负形式增加了体外轴突生长,并诱导鼻 RGC 轴突穿过其在尾侧顶盖的靶区生长,同时 EphA4 的过表达产生了相反的效果。总的来说,这些结果表明 Ephrin-A 介导的 EphA4 正向信号转导降低了轴突生长水平,并增加了鼻 RGC 轴突间质丝状伪足的密度。此外,我们的结果表明:3)EphA3 外显子增加了体外和体内的轴突生长并减少了轴突间质丝状伪足和分支的密度,4)EphA3 外显子减少了 EphA3 和 EphA4 的共定位以及 EphA4 和 ephexin1 的磷酸化。总的来说,这些结果表明 EphA3 外显子通过与 EphA4 竞争 Ephrin-As 结合来减少这种信号通路,从而产生与 EphA4 正向信号转导相反的效果。此外,据推测,顶盖 EphA3 通过这种机制参与了视网膜顶盖映射的建立,并且 EphAs 可以通过调节其他 EphA 受体的正向信号转导来调节轴突生长和分支。
