低温停循环和体外循环中脑损伤的转录组学特征。
Hawley H. Seiler Resident Award. Transcriptional profile of brain injury in hypothermic circulatory arrest and cardiopulmonary bypass.
机构信息
Division of Cardiac Surgery, The Johns Hopkins Medical Institutions, Baltimore, Maryland 21287, USA.
出版信息
Ann Thorac Surg. 2010 Jun;89(6):1965-71. doi: 10.1016/j.athoracsur.2010.02.051.
BACKGROUND
Little is known about the molecular mechanisms of neurologic complications after hypothermic circulatory arrest (HCA) with cardiopulmonary bypass (CPB). Canine genome sequencing allows profiling of genomic changes after HCA and CPB alone. We hypothesize that gene regulation will increase with increased severity of injury.
METHODS
Dogs underwent 2-hour HCA at 18 degrees C (n = 10), 1-hour HCA (n = 8), or 2-hour CPB at 32 degrees C alone (n = 8). In each group, half were sacrificed at 8 hours and half at 24 hours after treatment. After neurologic scoring, brains were harvested for genomic analysis. Hippocampal RNA isolates were analyzed using canine oligonucleotide expression arrays containing 42,028 probes.
RESULTS
Consistent with prior work, dogs that underwent 2-hour HCA experienced severe neurologic injury. One hour of HCA caused intermediate clinical damage. Cardiopulmonary bypass alone yielded normal clinical scores. Cardiopulmonary bypass, 1-hour HCA, and 2-hour HCA groups historically demonstrated increasing degrees of histopathologic damage (previously published). Exploratory analysis revealed differences in significantly regulated genes (false discovery rate < 10%, absolute fold change > or = 1.2), with increases in differential gene expression with injury severity. At 8 hours and 24 hours after insult, 2-hour HCA dogs had 502 and 1,057 genes regulated, respectively; 1-hour HCA dogs had 179 and 56 genes regulated; and CPB alone dogs had 5 and 0 genes regulated.
CONCLUSIONS
Our genomic profile of canine brains after HCA and CPB revealed 1-hour and 2-hour HCA induced markedly increased gene regulation, in contrast to the minimal effect of CPB alone. This adds to the body of neurologic literature supporting the safety of CPB alone and the minimal effect of CPB on a normal brain, while illuminating genomic results of both.
背景
低温体外循环(CPB)停循环(HCA)后神经并发症的分子机制知之甚少。犬基因组测序允许单独进行 HCA 和 CPB 后的基因组变化分析。我们假设基因调控将随着损伤程度的增加而增加。
方法
狗在 18°C(n = 10)、1 小时 HCA(n = 8)或单独 32°C CPB(n = 8)下进行 2 小时 HCA。每组中,一半在治疗后 8 小时和一半在 24 小时时被处死。在进行神经评分后,从大脑中采集基因组分析样本。使用包含 42028 个探针的犬寡核苷酸表达阵列分析海马 RNA 分离物。
结果
与之前的工作一致,进行 2 小时 HCA 的狗经历了严重的神经损伤。1 小时 HCA 导致中等临床损伤。单独 CPB 产生正常的临床评分。CPB、1 小时 HCA 和 2 小时 HCA 组在历史上表现出逐渐增加的组织病理学损伤(已发表)。探索性分析显示,差异调节基因(错误发现率<10%,绝对倍数变化>或=1.2)存在差异,随着损伤程度的增加,差异基因表达增加。在损伤后 8 小时和 24 小时,2 小时 HCA 狗分别有 502 和 1057 个基因受到调节;1 小时 HCA 狗分别有 179 和 56 个基因受到调节;而单独 CPB 狗分别有 5 和 0 个基因受到调节。
结论
我们对犬脑 HCA 和 CPB 后的基因组图谱进行了分析,发现 1 小时和 2 小时 HCA 引起了明显的基因调节增加,而单独 CPB 的影响最小。这增加了支持单独 CPB 安全性的神经学文献的数量,并阐明了正常大脑中 CPB 的最小影响,同时也阐明了两者的基因组结果。
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