基于适配体的蛋白质组学分析揭示心血管疾病中的新型候选生物标志物和途径。
Aptamer-Based Proteomic Profiling Reveals Novel Candidate Biomarkers and Pathways in Cardiovascular Disease.
作者信息
Ngo Debby, Sinha Sumita, Shen Dongxiao, Kuhn Eric W, Keyes Michelle J, Shi Xu, Benson Mark D, O'Sullivan John F, Keshishian Hasmik, Farrell Laurie A, Fifer Michael A, Vasan Ramachandran S, Sabatine Marc S, Larson Martin G, Carr Steven A, Wang Thomas J, Gerszten Robert E
机构信息
From Division of Pulmonary and Critical Care Medicine, Department of Medicine (D.N.) and the Cardiovascular Research Center (D.N., S.S., D.S., M.J.K., X.S., M.D.B., J.F.O., L.A.F., R.E.G.), Massachusetts General Hospital, Harvard Medical School, Boston; Broad Institute of MIT and Harvard, Cambridge, MA (E.W.K., H.K., S.A.C., R.E.G.); Cardiovascular Division, Brigham and Women's Hospital, Boston, MA (M.D.B., M.S.S.); Cardiology Division, Massachusetts General Hospital, Harvard Medical School, Boston (M.A.F., M.S.S., R.E.G.); Preventive Medicine Section, Department of Medicine, Boston University School of Medicine, MA (R.S.V.); Department of Biostatistics, Boston University School of Public Health, MA (M.G.L.); The National Heart, Lung, and Blood Institute's Framingham Heart Study, Framingham, MA (M.G.L.); Division of Cardiovascular Medicine, Vanderbilt University, Nashville, TN (T.J.W.); and Division of Cardiovascular Medicine, Beth Israel Deaconess Medical Center, Boston, MA (R.E.G.).
出版信息
Circulation. 2016 Jul 26;134(4):270-85. doi: 10.1161/CIRCULATIONAHA.116.021803.
BACKGROUND
Single-stranded DNA aptamers are oligonucleotides of ≈50 base pairs in length selected for their ability to bind proteins with high specificity and affinity. Emerging DNA aptamer-based technologies may address limitations of existing proteomic techniques, including low sample throughput, which have hindered proteomic analyses of large cohorts.
METHODS
To identify early biomarkers of myocardial injury, we applied an aptamer-based proteomic platform that measures 1129 proteins to a clinically relevant perturbational model of planned myocardial infarction (PMI), patients undergoing septal ablation for hypertrophic cardiomyopathy. Blood samples were obtained before and at 10 and 60 minutes after PMI, and protein changes were assessed by repeated-measures analysis of variance. The generalizability of our PMI findings was evaluated in a spontaneous myocardial infarction cohort (Wilcoxon rank-sum). We then tested the platform's ability to detect associations between proteins and Framingham Risk Score components in the Framingham Heart Study, performing regression analyses for each protein versus each clinical trait.
RESULTS
We found 217 proteins that significantly changed in the peripheral vein blood after PMI in a derivation cohort (n=15; P<5.70E-5). Seventy-nine of these proteins were validated in an independent PMI cohort (n=15; P<2.30E-4); >85% were directionally consistent and reached nominal significance. We detected many protein changes that are novel in the context of myocardial injury, including Dickkopf-related protein 4, a WNT pathway inhibitor (peak increase 124%, P=1.29E-15) and cripto, a growth factor important in cardiac development (peak increase 64%, P=1.74E-4). Among the 40 validated proteins that increased within 1 hour after PMI, 23 were also elevated in patients with spontaneous myocardial infarction (n=46; P<0.05). Framingham Heart Study analyses revealed 156 significant protein associations with the Framingham Risk Score (n=899), including aminoacylase 1 (β=0.3386, P=2.54E-22) and trigger factor 2 (β=0.2846, P=5.71E-17). Furthermore, we developed a novel workflow integrating DNA-based immunoaffinity with mass spectrometry to analytically validate aptamer specificity.
CONCLUSIONS
Our results highlight an emerging proteomics tool capable of profiling >1000 low-abundance analytes with high sensitivity and high precision, applicable both to well-phenotyped perturbational studies and large human cohorts, as well.
背景
单链DNA适配体是长度约为50个碱基对的寡核苷酸,因其能够以高特异性和亲和力结合蛋白质而被筛选出来。新兴的基于DNA适配体的技术可能会解决现有蛋白质组学技术的局限性,包括低样本通量,这些局限性阻碍了对大型队列的蛋白质组学分析。
方法
为了识别心肌损伤的早期生物标志物,我们将一个可测量1129种蛋白质的基于适配体的蛋白质组学平台应用于计划性心肌梗死(PMI)的临床相关扰动模型,即接受肥厚型心肌病间隔消融术的患者。在PMI前、PMI后10分钟和60分钟采集血样,并通过重复测量方差分析评估蛋白质变化。我们在一个自发性心肌梗死队列中评估了PMI研究结果的可推广性(Wilcoxon秩和检验)。然后,我们在弗雷明汉心脏研究中测试了该平台检测蛋白质与弗雷明汉风险评分成分之间关联的能力,对每种蛋白质与每个临床特征进行回归分析。
结果
我们在一个推导队列(n = 15;P < 5.70E - 5)中发现,PMI后外周静脉血中有217种蛋白质发生了显著变化。其中79种蛋白质在一个独立的PMI队列(n = 15;P < 2.30E - 4)中得到验证;超过85%的蛋白质在变化方向上一致并达到名义显著性。我们检测到许多在心肌损伤背景下新颖的蛋白质变化,包括Dickkopf相关蛋白4,一种WNT通路抑制剂(峰值增加124%,P = 1.29E - 15)和cripto,一种在心脏发育中重要的生长因子(峰值增加64%,P = 1.74E - 4)。在PMI后1小时内增加的40种经过验证的蛋白质中,有23种在自发性心肌梗死患者中也升高(n = 46;P < 0.05)。弗雷明汉心脏研究分析揭示了156种与弗雷明汉风险评分显著相关的蛋白质(n = 899),包括氨基酰化酶1(β = 0.3386,P = 2.54E - 22)和触发因子2(β = 0.2846,P = 5.71E - 17)。此外,我们开发了一种将基于DNA的免疫亲和与质谱相结合的新型工作流程,以分析验证适配体的特异性。
结论
我们的结果突出了一种新兴的蛋白质组学工具,它能够以高灵敏度和高精度对1000多种低丰度分析物进行分析,适用于特征明确的扰动研究和大型人类队列。
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