Eugene and Marilyn Glick Eye Institute, Department of Ophthalmology (S.P.B.S.P., K.S., R.S.S., B.P., T.S., T.W.C.), Department of Pharmacology and Toxicology (R.S.S., B.P., T.S., M.L.F., M.R.K., T.W.C.), Department of Biochemistry and Molecular Biology (M.R.K., T.W.C.), Herman B Wells Center for Pediatric Research, Department of Pediatrics (F.S., M.L.F., M.R.K.), and Melvin and Bren Simon Cancer Center (M.L.F., M.R.K., T.W.C.), Indiana University School of Medicine, Indianapolis, Indiana; and Apexian Pharmaceuticals (J.H.W.), Indianapolis, Indiana.
Eugene and Marilyn Glick Eye Institute, Department of Ophthalmology (S.P.B.S.P., K.S., R.S.S., B.P., T.S., T.W.C.), Department of Pharmacology and Toxicology (R.S.S., B.P., T.S., M.L.F., M.R.K., T.W.C.), Department of Biochemistry and Molecular Biology (M.R.K., T.W.C.), Herman B Wells Center for Pediatric Research, Department of Pediatrics (F.S., M.L.F., M.R.K.), and Melvin and Bren Simon Cancer Center (M.L.F., M.R.K., T.W.C.), Indiana University School of Medicine, Indianapolis, Indiana; and Apexian Pharmaceuticals (J.H.W.), Indianapolis, Indiana
J Pharmacol Exp Ther. 2018 Oct;367(1):108-118. doi: 10.1124/jpet.118.248088. Epub 2018 Aug 3.
Ocular neovascular diseases like wet age-related macular degeneration are a major cause of blindness. Novel therapies are greatly needed for these diseases. One appealing antiangiogenic target is reduction-oxidation factor 1-apurinic/apyrimidinic endonuclease 1 (Ref-1/APE1). This protein can act as a redox-sensitive transcriptional activator for nuclear factor (NF)-B and other proangiogenic transcription factors. An existing inhibitor of Ref-1's function, APX3330, previously showed antiangiogenic effects. Here, we developed improved APX3330 derivatives and assessed their antiangiogenic activity. We synthesized APX2009 and APX2014 and demonstrated enhanced inhibition of Ref-1 function in a DNA-binding assay compared with APX3330. Both compounds were antiproliferative against human retinal microvascular endothelial cells (HRECs; GI APX2009: 1.1 M, APX2014: 110 nM) and macaque choroidal endothelial cells (Rf/6a; GI APX2009: 26 M, APX2014: 5.0 M). Both compounds significantly reduced the ability of HRECs and Rf/6a cells to form tubes at mid-nanomolar concentrations compared with control, and both significantly inhibited HREC and Rf/6a cell migration in a scratch wound assay, reducing NF-B activation and downstream targets. Ex vivo, APX2009 and APX2014 inhibited choroidal sprouting at low micromolar and high nanomolar concentrations, respectively. In the laser-induced choroidal neovascularization mouse model, intraperitoneal APX2009 treatment significantly decreased lesion volume by 4-fold compared with vehicle ( < 0.0001, ANOVA with Dunnett's post-hoc tests), without obvious intraocular or systemic toxicity. Thus, Ref-1 inhibition with APX2009 and APX2014 blocks ocular angiogenesis in vitro and ex vivo, and APX2009 is an effective systemic therapy for choroidal neovascularization in vivo, establishing Ref-1 inhibition as a promising therapeutic approach for ocular neovascularization.
眼部新生血管疾病,如湿性年龄相关性黄斑变性,是导致失明的主要原因。这些疾病急需新的治疗方法。还原氧化因子 1-嘌呤嘧啶内切酶 1(Ref-1/APE1)是一种很有吸引力的抗血管生成靶点。该蛋白可作为核因子(NF)-B 和其他促血管生成转录因子的氧化还原敏感转录激活因子。一种现有的 Ref-1 功能抑制剂,APX3330,先前已显示出抗血管生成作用。在这里,我们开发了改进的 APX3330 衍生物,并评估了它们的抗血管生成活性。我们合成了 APX2009 和 APX2014,并在 DNA 结合测定中证明与 APX3330 相比,它们对 Ref-1 功能的抑制作用增强。两种化合物对人视网膜微血管内皮细胞(HRECs;GI APX2009:1.1 M,APX2014:110 nM)和猕猴脉络膜内皮细胞(Rf/6a;GI APX2009:26 M,APX2014:5.0 M)均具有增殖抑制作用。与对照相比,两种化合物均在中纳摩尔浓度下显著降低了 HRECs 和 Rf/6a 细胞形成管状结构的能力,并且两种化合物均显著抑制了 HREC 和 Rf/6a 细胞在划痕伤口测定中的迁移,从而减少了 NF-B 的激活和下游靶标。在离体实验中,APX2009 和 APX2014 分别以低微摩尔和高纳摩尔浓度抑制脉络膜发芽。在激光诱导的脉络膜新生血管化小鼠模型中,与载体相比,腹腔内给予 APX2009 治疗使病变体积减少了 4 倍(<0.0001,ANOVA 与 Dunnett 事后检验),而没有明显的眼内或全身毒性。因此,APX2009 和 APX2014 抑制 Ref-1 可阻断体外和离体眼部血管生成,APX2009 是体内脉络膜新生血管化的有效系统治疗方法,证实了 Ref-1 抑制作为治疗眼部新生血管化的有前途的方法。
