Alenkvist Ida, Gandasi Nikhil R, Barg Sebastian, Tengholm Anders
Department of Medical Cell Biology, Uppsala University Biomedical Centre, Uppsala, Sweden.
Department of Medical Cell Biology, Uppsala University Biomedical Centre, Uppsala, Sweden
Diabetes. 2017 Oct;66(10):2610-2622. doi: 10.2337/db17-0050. Epub 2017 Jul 5.
Epac is a cAMP-activated guanine nucleotide exchange factor that mediates cAMP signaling in various types of cells, including β-cells, where it is involved in the control of insulin secretion. Upon activation, the protein redistributes to the plasma membrane, but the underlying molecular mechanisms and functional consequences are unclear. Using quantitative high-resolution microscopy, we found that cAMP elevation caused rapid binding of Epac2A to the β-cell plasma membrane, where it accumulated specifically at secretory granules and rendered them more prone to undergo exocytosis. cAMP-dependent membrane binding required the high-affinity cyclic nucleotide-binding (CNB) and Ras association domains, but not the disheveled-Egl-10-pleckstrin domain. Although the N-terminal low-affinity CNB domain (CNB-A) was dispensable for the translocation to the membrane, it was critical for directing Epac2A to the granule sites. Epac1, which lacks the CNB-A domain, was recruited to the plasma membrane but did not accumulate at granules. We conclude that Epac2A controls secretory granule release by binding to the exocytosis machinery, an effect that is enhanced by prior cAMP-dependent accumulation of the protein at the plasma membrane.
Epac是一种cAMP激活的鸟嘌呤核苷酸交换因子,介导包括β细胞在内的各种类型细胞中的cAMP信号传导,它参与胰岛素分泌的控制。激活后,该蛋白重新分布到质膜,但潜在的分子机制和功能后果尚不清楚。使用定量高分辨率显微镜,我们发现cAMP升高导致Epac2A快速结合到β细胞质膜,在那里它特异性地聚集在分泌颗粒上,并使它们更容易发生胞吐作用。cAMP依赖性膜结合需要高亲和力的环核苷酸结合(CNB)和Ras结合结构域,但不需要无序-Egl-10-普列克底物蛋白结构域。虽然N端低亲和力CNB结构域(CNB-A)对于转运到膜上是可有可无的,但它对于将Epac2A引导到颗粒部位至关重要。缺乏CNB-A结构域的Epac1被募集到质膜,但不会在颗粒处积累。我们得出结论,Epac2A通过与胞吐机制结合来控制分泌颗粒的释放,这种作用通过该蛋白先前在质膜上的cAMP依赖性积累而增强。
