Mondragon Albert A, Betts-Obregon Brandi S, Moritz Robert J, Parvathaneni Kalpana, Navarro Mary M, Kim Hong Seok, Lee Chi Fung, LeBaron Richard G, Asmis Reto, Tsin Andrew T
Department of Biology, The University of Texas at San Antonio, One UTSA Circle BSB 1.03.36, San Antonio, TX, 78249, USA.
Apoptosis. 2015 Jan;20(1):29-37. doi: 10.1007/s10495-014-1052-6.
Diabetes is a pandemic disease with a higher occurrence in minority populations. The molecular mechanism to initiate diabetes-associated retinal angiogenesis remains largely unknown. We propose an inflammatory pathway of diabetic retinopathy in which macrophages in the diabetic eye provide TGFβ to retinal endothelial cells (REC) in the retinal microvasculature. In response to TGFβ, REC synthesize and secrete a pro-apoptotic BIGH3 (TGFβ-Induced Gene Human Clone 3) protein, which acts in an autocrine loop to induce REC apoptosis. Rhesus monkey retinal endothelial cells (RhREC) were treated with dMCM (cell media of macrophages treated with high glucose and LDL) and assayed for apoptosis (TUNEL), BIGH3 mRNA (qPCR), and protein (Western blots) expressions. Cells were also treated with ΤGFβ1 and 2 for BIGH3 mRNA and protein expression. Inhibition assays were carried out using antibodies for TGFβ1 and for BIGH3 to block apoptosis and mRNA expression. BIGH3 in cultured RhREC cells were identified by immunohistochemistry (IHC). Distribution of BIGH3 and macrophages in the diabetic mouse retina was examined with IHC. RhRECs treated with dMCM or TGFβ showed a significant increase in apoptosis and BIGH3 protein expression. Recombinant BIGH3 added to RhREC culture medium led to a dose-dependent increase in apoptosis. Antibodies (Ab) directed against BIGH3 and TGFβ, as well as TGFβ receptor blocker resulted in a significant reduction in apoptosis induced by either dMCM, TGFβ or BIGH3. IHC showed that cultured RhREC constitutively expressed BIGH3. Macrophage and BIGH3 protein were co-localized to the inner retina of the diabetic mouse eye. Our results support a novel inflammatory pathway for diabetic retinopathy. This pathway is initiated by TGFβ released from macrophages, which promotes synthesis and release of BIGH3 protein by REC and REC apoptosis.
糖尿病是一种在少数族裔人群中发病率较高的大流行病。引发糖尿病相关视网膜血管生成的分子机制在很大程度上仍不清楚。我们提出了一种糖尿病视网膜病变的炎症途径,即糖尿病眼中的巨噬细胞向视网膜微血管中的视网膜内皮细胞(REC)提供转化生长因子β(TGFβ)。作为对TGFβ的反应,REC合成并分泌一种促凋亡的BIGH3(TGFβ诱导基因人类克隆3)蛋白,该蛋白在自分泌环中发挥作用以诱导REC凋亡。用dMCM(用高糖和低密度脂蛋白处理的巨噬细胞的细胞培养基)处理恒河猴视网膜内皮细胞(RhREC),并检测其凋亡情况(TUNEL法)、BIGH3 mRNA(定量聚合酶链反应)和蛋白(蛋白质印迹法)表达。细胞还用TGFβ1和2处理以检测BIGH3 mRNA和蛋白表达。使用针对TGFβ1和BIGH3的抗体进行抑制试验以阻断凋亡和mRNA表达。通过免疫组织化学(IHC)鉴定培养的RhREC细胞中的BIGH3。用IHC检查糖尿病小鼠视网膜中BIGH3和巨噬细胞的分布。用dMCM或TGFβ处理的RhREC显示凋亡和BIGH3蛋白表达显著增加。添加到RhREC培养基中的重组BIGH3导致凋亡呈剂量依赖性增加。针对BIGH3和TGFβ的抗体以及TGFβ受体阻滞剂导致由dMCM、TGFβ或BIGH3诱导的凋亡显著减少。IHC显示培养的RhREC组成性表达BIGH3。巨噬细胞和BIGH3蛋白共定位于糖尿病小鼠眼的视网膜内层。我们的结果支持糖尿病视网膜病变的一种新的炎症途径。该途径由巨噬细胞释放的TGFβ启动,其促进REC合成和释放BIGH3蛋白并导致REC凋亡。