Coroniti Roberta, Fario Rafal, Nuno Didier J, Otvos Laszlo, Scolaro Laura, Surmacz Eva
Sbarro Institute for Cancer Research and Molecular Medicine, Temple University Philadelphia, PA, USA.
Department of Biology, Temple University Philadelphia, PA, USA.
Front Mol Biosci. 2016 Oct 13;3:67. doi: 10.3389/fmolb.2016.00067. eCollection 2016.
Experimental and clinical data suggest that pro-angiogenic, pro-inflammatory and mitogenic cytokine leptin can be implicated in ocular neovascularization and other eye pathologies. At least in part, leptin action appears to be mediated through functional interplay with vascular endothelial growth factor (VEGF). VEGF is a potent regulator of neoangiogenesis and vascular leakage with a proven role in conditions such as proliferative diabetic retinopathy, age-related macular degeneration and diabetic macular edema. Accordingly, drugs targeting VEGF are becoming mainstream treatments for these diseases. The crosstalk between leptin and VEGF has been noted in different tissues, but its involvement in the development of eye pathologies is unclear. Leptin is coexpressed with VEGF during ocular neovascularization and can potentiate VEGF synthesis and angiogenic function. However, whether or not VEGF regulates leptin expression or signaling has never been studied. Consequently, we addressed this aspect of leptin/VEGF crosstalk in ocular models, focusing on therapeutic exploration of underlying mechanisms. Here we show, for the first time, that in retinal (RF/6A) and corneal (BCE) endothelial cells, VEGF (100 ng/mL, 24 h) stimulated leptin mRNA synthesis by 70 and 30%, respectively, and protein expression by 56 and 28%, respectively. In parallel, VEGF induced RF/6A and BCE cell growth by 33 and 20%, respectively. In addition, VEGF upregulated chemotaxis and chemokinesis in retinal cells by ~40%. VEGF-dependent proliferation and migration were significantly reduced in the presence of the leptin receptor antagonist, Allo-aca, at 100-250 nmol/L concentrations. Furthermore, Allo-aca suppressed VEGF-dependent long-term (24 h), but not acute (15 min) stimulation of the Akt and ERK1/2 signaling pathways. The efficacy of Allo-aca was validated in the rat laser-induced choroidal neovascularization model where the compound (5 μg/eye) significantly reduced pathological vascularization with the efficacy similar to that of a standard treatment (anti-VEGF antibody, 1 μg/eye). Cumulatively, our results suggest that chronic exposure to VEGF upregulates leptin expression and function. As leptin can in turn activate VEGF, the increased abundance of both cytokines could amplify pro-angiogenic and pro-inflammatory environement in the eye. Thus, combined therapies targeting ObR and VEGF should be considered in the treatment of ocular diseases.
实验和临床数据表明,促血管生成、促炎和有丝分裂的细胞因子瘦素可能与眼部新生血管形成及其他眼部病变有关。至少在一定程度上,瘦素的作用似乎是通过与血管内皮生长因子(VEGF)的功能性相互作用介导的。VEGF是新生血管形成和血管渗漏的有效调节因子,在增殖性糖尿病视网膜病变、年龄相关性黄斑变性和糖尿病性黄斑水肿等病症中已被证实发挥作用。因此,靶向VEGF的药物正成为这些疾病的主流治疗方法。瘦素与VEGF之间的相互作用在不同组织中已有报道,但其在眼部病变发展中的作用尚不清楚。在眼部新生血管形成过程中,瘦素与VEGF共同表达,并且可以增强VEGF的合成和血管生成功能。然而,VEGF是否调节瘦素的表达或信号传导从未被研究过。因此,我们在眼部模型中研究了瘦素/VEGF相互作用的这一方面,重点探索其潜在机制的治疗应用。在此,我们首次表明,在视网膜(RF/6A)和角膜(BCE)内皮细胞中,VEGF(100 ng/mL,24小时)分别刺激瘦素mRNA合成增加70%和30%,蛋白质表达分别增加56%和28%。同时,VEGF分别诱导RF/6A和BCE细胞生长增加33%和20%。此外,VEGF使视网膜细胞的趋化性和化学运动性上调约40%。在存在100 - 250 nmol/L浓度的瘦素受体拮抗剂Allo-aca的情况下,VEGF依赖性增殖和迁移显著降低。此外,Allo-aca抑制VEGF依赖性长期(24小时)但不抑制急性(15分钟)对Akt和ERK1/2信号通路的刺激。Allo-aca的疗效在大鼠激光诱导脉络膜新生血管模型中得到验证,该化合物(5 μg/眼)显著减少病理性血管生成,其疗效与标准治疗(抗VEGF抗体,1 μg/眼)相似。总体而言,我们的结果表明,长期暴露于VEGF会上调瘦素的表达和功能。由于瘦素反过来可以激活VEGF,两种细胞因子丰度的增加可能会放大眼部的促血管生成和促炎环境。因此,在眼部疾病的治疗中应考虑联合靶向ObR和VEGF的疗法。
