Elevated cyclic-AMP represses expression of exchange protein activated by cAMP (EPAC1) by inhibiting YAP-TEAD activity and HDAC-mediated histone deacetylation

Ligand-induced activation of Exchange Protein Activated by cAMP-1 (EPAC1) is implicated in numerous physiological and pathological processes, including cardiac fibrosis where changes in EPAC1 expression have been detected. However, little is known about how EPAC1 expression is regulated. Therefore, we investigated regulation of EPAC1 expression by cAMP in cardiac fibroblasts.Elevation of cAMP using forskolin, cAMP-analogues or adenosine A2B-receptor activation significantly reduced EPAC1 mRNA and protein levels and inhibited formation of F-actin stress fibres. Inhibition of actin polymerisation with cytochalasin-D, latrunculin-B or the ROCK inhibitor, Y-27632, mimicked effects of cAMP on EPAC1 mRNA and protein levels. Elevated cAMP also inhibited activity of an EPAC1 promoter-reporter gene, which contained a consensus binding element for TEAD, which is a target for inhibition by cAMP. Inhibition of TEAD activity using siRNA-silencing of its co-factors YAP and TAZ, expression of dominant-negative TEAD or treatment with YAP-TEAD inhibitors, significantly inhibited EPAC1 expression. However, whereas expression of constitutively-active YAP completely reversed forskolin inhibition of EPAC1-promoter activity it did not rescue EPAC1 mRNA levels. Chromatin-immunoprecipitation detected a significant reduction in histone3-lysine27-acetylation at the EPAC1 proximal promoter in response to forskolin stimulation. HDAC1/3 inhibition partially reversed forskolin inhibition of EPAC1 expression, which was completely rescued by simultaneously expressing constitutively active YAP.Taken together, these data demonstrate that cAMP downregulates EPAC1 gene expression via disrupting the actin cytoskeleton, which inhibits YAP/TAZ-TEAD activity in concert with HDAC-mediated histone deacetylation at the EPAC1 proximal promoter. This represents a novel negative feedback mechanism controlling EPAC1 levels in response to cAMP elevation.     

YAP/TAZ对发育和肿瘤的调控及其功能的研究进展

Hippo通路是一种在进化中形成的保守的蛋白激酶级联通路,它与发育中器官的大小和肿瘤的形成有关。Hippo通路的中枢是从肿瘤抑制子Hippo到原癌蛋白YAP/TAZ的激酶级联反应。YAP/TAZ是Hippo通路下游的主要的效应分子,它们广泛表达于多种组织器官中。在哺乳动物细胞中,Hippo通路激酶级联反应通过对YAP/TAZ磷酸化作用,促使其从细胞核转入细胞质中,从而抑制了YAP/TAZ的功能作用。TEAD家族转录子被鉴定为YAP/TAZ发挥生物学功能的重要调节因子。YAP/TAZ的失调引起的相关的基因的表达改变,将会影响细胞的增殖,分化,以及凋亡,从而会影响器官的大小以及肿瘤的形成。本文综述Hippo通路的最新进展,重点关注的是该通路中的YAP/TAZ调控的缺失对发育缺陷和肿瘤的影响。这将为我们研究再生医学,组织工程技术,肿瘤的干预防治提供新的思路与策略。