Kofke William A, Ren Yue, Augoustides John G, Li Hongzhe, Nathanson Katherine, Siman Robert, Meng Qing Cheng, Bu Weiming, Yandrawatthana Sukanya, Kositratna Guy, Kim Cecilia, Bavaria Joseph E
Department of Anesthesiology and Critical Care, University of Pennsylvania, Philadelphia, PA, United States.
Department of Biostatistics and Epidemiology, University of Pennsylvania, Philadelphia, PA, United States.
Front Neurol. 2018 Jun 26;9:497. doi: 10.3389/fneur.2018.00497. eCollection 2018.
Neuroprotection studies are generally unable to demonstrate efficacy in humans. Our specific hypothesis is that multiple pathophysiologic pathways, of variable importance, contribute to ischemic brain damage. As a corollary to this, we discuss the broad hypothesis that a multifaceted approach will improve the probability of efficacious neuroprotection. But to properly test this hypothesis the nature and importance of the multiple contributing pathways needs elucidation. Our aim is to demonstrate, using functional genomics, in human cardiac surgery procedures associated with cerebral ischemia, that the pathogenesis of perioperative human ischemic brain damage involves the function of multiple variably weighted proteins involving several pathways. We then use these data and literature to develop a proposal for rational design of human neuroprotection protocols. Ninety-four patients undergoing deep hypothermic circulatory arrest (DHCA) and/or aortic valve replacement surgery had brain damage biomarkers, S100β and neurofilament H (NFH), assessed at baseline, 1 and 24 h post-cardiopulmonary bypass (CPB) with analysis for association with 92 single nucleotide polymorphisms (SNPs) (selected by co-author WAK) related to important proteins involved in pathogenesis of cerebral ischemia. At the nominal significance level of 0.05, changes in S100β and in NFH at 1 and 24 h post-CPB were associated with multiple SNPs involving several prospectively determined pathophysiologic pathways, but were not individually significant after multiple comparison adjustments. Variable weights for the several evaluated SNPs are apparent on regression analysis and, notably, are dissimilar related to the two biomarkers and over time post CPB. Based on our step-wise regression model, at 1 h post-CPB, SOD2, SUMO4, and GP6 are related to relative change of NFH while TNF, CAPN10, NPPB, and SERPINE1 are related to the relative change of S100B. At 24 h post-CPB, ADRA2A, SELE, and BAX are related to the relative change of NFH while SLC4A7, HSPA1B, and FGA are related to S100B. In support of the proposed hypothesis, association SNP data suggest function of specific disparate proteins, as reflected by genetic variation, may be more important than others with variation at different post-insult times after human brain ischemia. Such information may support rational design of post-insult time-sensitive multifaceted neuroprotective therapies.
神经保护研究通常无法在人体中证明其疗效。我们的具体假设是,多种具有不同重要性的病理生理途径会导致缺血性脑损伤。由此推论,我们讨论了一个宽泛的假设,即多方面的方法将提高有效神经保护的可能性。但要正确验证这一假设,需要阐明多种促成途径的性质和重要性。我们的目标是,利用功能基因组学,在与脑缺血相关的心脏手术过程中证明,围手术期人类缺血性脑损伤的发病机制涉及多种不同权重的蛋白质的功能,这些蛋白质涉及多个途径。然后,我们利用这些数据和文献,为合理设计人类神经保护方案提出建议。94例接受深低温停循环(DHCA)和/或主动脉瓣置换手术的患者,在基线、体外循环(CPB)后1小时和24小时对脑损伤生物标志物S100β和神经丝H(NFH)进行评估,并分析其与92个单核苷酸多态性(SNP)(由合著者WAK选择)的相关性,这些SNP与脑缺血发病机制中涉及的重要蛋白质有关。在名义显著性水平为0.05时,CPB后1小时和24小时S100β和NFH的变化与涉及多个预先确定的病理生理途径的多个SNP相关,但在多重比较调整后个体并不显著。在回归分析中,几个评估的SNP的权重不同,值得注意的是,与两种生物标志物以及CPB后的时间不同相关。基于我们的逐步回归模型,CPB后1小时,超氧化物歧化酶2(SOD2)、小泛素样修饰蛋白4(SUMO4)和糖蛋白6(GP6)与NFH的相对变化相关,而肿瘤坏死因子(TNF)、钙蛋白酶10(CAPN10)、脑钠肽(NPPB)和丝氨酸蛋白酶抑制剂E1(SERPINE1)与S100B的相对变化相关。CPB后24小时,肾上腺素能受体2A(ADRA2A)、选择素E(SELE)和凋亡蛋白BAX(BAX)与NFH的相对变化相关,而溶质载体家族4成员7(SLC4A7)、热休克蛋白A1B(HSPA1B)和纤维蛋白原α链(FGA)与S100B相关。为支持所提出的假设,关联SNP数据表明,基因变异所反映的特定不同蛋白质的功能,在人类脑缺血后的不同损伤后时间,可能比其他蛋白质的变异更重要。这些信息可能支持对损伤后时间敏感的多方面神经保护疗法的合理设计。
