McRobb Lucinda S, Lee Vivienne S, Simonian Margaret, Zhao Zhenjun, Thomas Santhosh George, Wiedmann Markus, Raj Jude V Amal, Grace Michael, Moutrie Vaughan, McKay Matthew J, Molloy Mark P, Stoodley Marcus A
a Department of Clinical Medicine, Faculty of Medicine and Health Sciences, Macquarie University, Sydney, New South Wales, Australia.
c Department of Biological Chemistry, David Geffen School of Medicine, University of California Los Angeles (UCLA), Los Angeles, California.
Radiat Res. 2017 Jan;187(1):66-78. doi: 10.1667/RR14518.1. Epub 2017 Jan 5.
Stereotactic radiosurgery (SRS) is an established treatment for brain arteriovenous malformations (AVMs) that drives blood vessel closure through cellular proliferation, thrombosis and fibrosis, but is limited by a delay to occlusion of 2-3 years and a maximum treatable size of 3 cm. In this current study we used SRS as a priming tool to elicit novel protein expression on the endothelium of irradiated AVM vessels, and these proteins were then targeted with prothrombotic conjugates to induce rapid thrombosis and vessel closure. SRS-induced protein changes on the endothelium in an animal model of AVM were examined using in vivo biotin labeling of surface-accessible proteins and comparative proteomics. LC-MS/MS using SWATH acquisition label-free mass spectrometry identified 280 proteins in biotin-enriched fractions. The abundance of 56 proteins increased after irradiation of the rat arteriovenous fistula (20 Gy, ≥1.5-fold). A large proportion of intracellular proteins were present in this subset: 29 mitochondrial and 9 cytoskeletal. Three of these proteins were chosen for further validation based on previously published evidence for surface localization and a role in autoimmune stimulation: cardiac troponin I (TNNI3); manganese superoxide dismutase (SOD2); and the E2 subunit of the pyruvate dehydrogenase complex (PDCE2). Immunostaining of AVM vessels confirmed an increase in abundance of PDCE2 across the vessel wall, but not a measurable increase in TNNI3 or SOD2. All three proteins co-localized with the endothelium after irradiation, however, more detailed subcellular distribution could not be accurately established. In vitro, radiation-stimulated surface translocation of all three proteins was confirmed in nonpermeabilized brain endothelial cells using immunocytochemistry. Total protein abundance increased modestly after irradiation for PDCE2 and SOD2 but decreased for TNNI3, suggesting that radiation primarily affects subcellular distribution rather than protein levels. The novel identification of these proteins as surface exposed in response to radiation raises important questions about their potential role in radiation-induced inflammation, fibrosis and autoimmunity, but may also provide unique candidates for vascular targeting in brain AVMs and other vascular tissues.
立体定向放射外科手术(SRS)是治疗脑动静脉畸形(AVM)的一种既定方法,它通过细胞增殖、血栓形成和纤维化促使血管闭合,但受限于2至3年的闭塞延迟以及3厘米的最大可治疗尺寸。在本研究中,我们将SRS用作引发工具,以诱导照射后的AVM血管内皮上出现新的蛋白质表达,然后用促血栓形成缀合物靶向这些蛋白质,以诱导快速血栓形成和血管闭合。使用可及表面蛋白的体内生物素标记和比较蛋白质组学,研究了SRS诱导的AVM动物模型内皮上的蛋白质变化。使用SWATH采集无标记质谱的液相色谱-串联质谱(LC-MS/MS)在生物素富集级分中鉴定出280种蛋白质。大鼠动静脉瘘照射(20 Gy,≥1.5倍)后,56种蛋白质的丰度增加。该亚组中存在很大比例的细胞内蛋白质:29种线粒体蛋白和9种细胞骨架蛋白。根据先前发表的关于表面定位和自身免疫刺激作用的证据,选择其中三种蛋白质进行进一步验证:心肌肌钙蛋白I(TNNI3);锰超氧化物歧化酶(SOD2);丙酮酸脱氢酶复合体E2亚基(PDCE2)。对AVM血管的免疫染色证实,整个血管壁上PDCE2的丰度增加,但TNNI3或SOD2没有可测量的增加。然而,照射后所有三种蛋白质均与内皮共定位,但无法准确确定更详细的亚细胞分布。在体外,使用免疫细胞化学在未通透的脑内皮细胞中证实了所有三种蛋白质的辐射刺激表面易位。照射后,PDCE2和SOD2的总蛋白丰度适度增加,而TNNI3则降低,这表明辐射主要影响亚细胞分布而非蛋白质水平。这些蛋白质作为辐射后表面暴露的新发现,引发了关于它们在辐射诱导的炎症、纤维化和自身免疫中的潜在作用的重要问题,但也可能为脑AVM和其他血管组织中的血管靶向提供独特的候选物。
