Jakobsson Joel, Gad Helge, Andersson Fredrik, Löw Peter, Shupliakov Oleg, Brodin Lennart
Department of Neuroscience, Karolinska Institutet, S-171 77 Stockholm, Sweden.
Proc Natl Acad Sci U S A. 2008 Apr 29;105(17):6445-50. doi: 10.1073/pnas.0710267105. Epub 2008 Apr 22.
Epsin has been suggested to act as an alternate adaptor in several endocytic pathways. Its role in synaptic vesicle recycling remains, however, unclear. Here, we examined the role of epsin in this process by using the lamprey reticulospinal synapse as a model system. We characterized a lamprey ortholog of epsin 1 and showed that it is accumulated at release sites at rest and also at clathrin-coated pits in the periactive zone during synaptic activity. Disruption of epsin interactions, by presynaptic microinjection of antibodies to either the epsin-N-terminal homology domain (ENTH) or the clathrin/AP2 binding region (CLAP), caused profound loss of vesicles in stimulated synapses. CLAP antibody-injected synapses displayed a massive accumulation of distorted coated structures, including coated vacuoles, whereas in synapses perturbed with ENTH antibodies, very few coated structures were found. In both cases coated pits on the plasma membrane showed a shift to early intermediates (shallow coated pits) and an increase in size. Moreover, in CLAP antibody-injected synapses flat clathrin-coated patches occurred on the plasma membrane. We conclude that epsin is involved in clathrin-mediated synaptic vesicle endocytosis. Our results support a model, based on in vitro studies, suggesting that epsin coordinates curvature generation with coat assembly and further indicating that epsin limits clathrin coat assembly to the size of newly formed vesicles. We propose that these functions of epsin 1 provide an additional mechanism for generation of uniformly sized synaptic vesicles.
有人提出 epsin 在几种内吞途径中作为一种替代衔接蛋白发挥作用。然而,其在突触小泡循环中的作用仍不清楚。在这里,我们以七鳃鳗网状脊髓突触为模型系统,研究了 epsin 在这一过程中的作用。我们鉴定了七鳃鳗 epsin 1 的直系同源物,并表明它在静息时聚集在释放位点,在突触活动期间也聚集在活动区周围的网格蛋白包被小窝中。通过向突触前显微注射针对 epsin 氨基末端同源结构域(ENTH)或网格蛋白/AP2 结合区域(CLAP)的抗体来破坏 epsin 的相互作用,会导致受刺激突触中的小泡大量丢失。注射 CLAP 抗体的突触显示出大量扭曲的包被结构堆积,包括包被液泡,而在用 ENTH 抗体干扰的突触中,发现的包被结构很少。在这两种情况下,质膜上的包被小窝都显示出向早期中间体(浅包被小窝)的转变和尺寸的增加。此外,在注射 CLAP 抗体的突触中,质膜上出现了扁平的网格蛋白包被斑块。我们得出结论,epsin 参与网格蛋白介导的突触小泡内吞作用。我们的结果支持了一个基于体外研究的模型,该模型表明 epsin 将曲率产生与包被组装协调起来,并进一步表明 epsin 将网格蛋白包被组装限制在新形成小泡的大小。我们提出,epsin 1 的这些功能为产生大小均匀的突触小泡提供了一种额外的机制。