Division of Cardiac Surgery, The Johns Hopkins Medical Institutions, Baltimore, MD 21287, USA.
J Thorac Cardiovasc Surg. 2011 Oct;142(4):902-910.e1. doi: 10.1016/j.jtcvs.2011.06.027.
Ubiquitin carboxyl-terminal esterase-L1 (UCHL1) is a protein highly selectively expressed in neurons and has been linked to neurodegenerative disease in humans. We hypothesize that UCHL1 would be an effective serum biomarker for brain injury as tested in canine models of hypothermic circulatory arrest (HCA) and cardiopulmonary bypass (CPB).
Dogs were exposed to CPB (n = 14), 1 hour of HCA (1h-HCA; n = 11), or 2 hours of HCA (2h-HCA; n = 20). Cerebrospinal fluid and serum were collected at baseline, 8 hours, and 24 hours after treatment. UCHL1 levels were measured using a sandwich enzyme-linked immunosorbent assay. Neurologic function and histopathology were scored at 24 hours, and UCHL1 immunoreactivity was examined at 8 hours.
Baseline UCHL1 protein levels in cerebrospinal fluid and serum were similar for all groups. In serum, UCHL1 levels were elevated at 8 hours after treatment for 2h-HCA subjects compared with baseline values (P < .01) and also compared with CPB dogs at 8 hours (P < .01). A serum UCHL1 level above 3.9 ng/(mg total protein) at 8 hours had the best discriminatory power for predicting functional disability. In cerebrospinal fluid, UCHL1 was elevated in all groups at 8 hours after treatment compared with baseline (P < .01). However, UCHL1 levels in cerebrospinal fluid remained elevated at 24 hours only in 2h-HCA subjects (P < .01). Functional and histopathologic scores were closely correlated (Pearson coefficient, 0.66; P < .01) and were significantly worse in 2h-HCA animals.
This is the first report associating elevated serum UCHL1 with brain injury. The novel neuronal biomarker UCHL1 is increased in serum 8 hours after severe neurologic insult in 2h-HCA animals compared with CPB animals. These results support the potential for use in cardiac surgery patients and form the basis for clinical correlation in humans.
泛素羧基末端水解酶-L1(UCHL1)是一种在神经元中高度选择性表达的蛋白质,与人类的神经退行性疾病有关。我们假设 UCHL1 将成为一种有效的血清生物标志物,用于测试低温循环停止(HCA)和心肺旁路(CPB)犬模型中的脑损伤。
将狗暴露于 CPB(n = 14)、1 小时 HCA(1h-HCA;n = 11)或 2 小时 HCA(2h-HCA;n = 20)。在治疗后基线、8 小时和 24 小时采集脑脊液和血清。使用夹心酶联免疫吸附测定法测量 UCHL1 水平。在 24 小时时进行神经功能和组织病理学评分,并在 8 小时时检查 UCHL1 免疫反应性。
所有组的脑脊液和血清中 UCHL1 蛋白水平的基线值相似。在血清中,与基线值相比,2h-HCA 组在治疗后 8 小时时 UCHL1 水平升高(P <.01),与 CPB 犬相比在 8 小时时也升高(P <.01)。8 小时时血清 UCHL1 水平超过 3.9 ng/(mg 总蛋白)具有预测功能障碍的最佳区分能力。在脑脊液中,与基线相比,所有组在治疗后 8 小时时 UCHL1 均升高(P <.01)。然而,只有 2h-HCA 组的脑脊液 UCHL1 水平在 24 小时时仍升高(P <.01)。功能和组织病理学评分密切相关(Pearson 系数,0.66;P <.01),2h-HCA 动物的评分明显更差。
这是首次将血清 UCHL1 升高与脑损伤相关联的报告。与 CPB 动物相比,在 2h-HCA 动物严重神经损伤后 8 小时,新型神经元生物标志物 UCHL1 在血清中增加。这些结果支持在心脏手术患者中使用的潜力,并为人类的临床相关性奠定了基础。