Reshef Ayelet, Shirvan Anat, Shohami Esther, Grimberg Hagit, Levin Galit, Cohen Avi, Trembovler Victoria, Ziv Ilan
NST NeuroSurvival Technologies Ltd., Petach-Tikva, Israel.
J Neurotrauma. 2008 Jun;25(6):569-80. doi: 10.1089/neu.2007.0341.
Traumatic brain injury (TBI) remains a frequent and major challenge in neurological and neurosurgical practice. Apoptosis may play a role in cerebral tissue damage induced by the traumatic insult, and thus its detection and inhibition may advance patient care. DDC (N,N'-didansyl-L-cystine) is a novel fluorescent probe for detection of apoptotic cells. We now report on the performance of DDC in experimental TBI. Closed head injury was induced in mice by weight-drop. DDC was administered intravenously in vivo. Two hours later, animals were sacrificed, and brain tissue was subjected to fluorescent microcopy, for assessment of DDC uptake, in correlation with histopathological assessment of apoptosis by TUNEL and caspase substrates, and also in correlation with the neurological deficits, as assessed by Neurological Severity Score (NSS). Selective uptake of DDC was observed at the primary site of injury, and also at remote sites. Uptake was at the cellular level, with accumulation of DDC in the cytoplasm. Cells manifesting DDC uptake were confirmed as apoptotic cells by detection of the characteristic apoptotic DNA fragmentation (positive TUNEL staining) and detection of activated caspases. The damaged region stained by DDC fluorescence correlated with the severity of neuronal deficits. Our study confirms the role of apoptosis in TBI, and proposes DDC as a useful tool for its selective targeting and detection in vivo. Such imaging of apoptosis, following future radiolabeling of DDC, may advance care for patients with head injury, by allowing real-time evaluation of the extent of tissue damage, assessment of novel therapeutic strategies, and optimization of treatment for the individual patient.
创伤性脑损伤(TBI)仍然是神经科和神经外科临床实践中常见且重大的挑战。细胞凋亡可能在创伤性损伤所致的脑组织损伤中发挥作用,因此对其进行检测和抑制可能会改善患者的治疗效果。DDC(N,N'-双丹磺酰-L-胱氨酸)是一种用于检测凋亡细胞的新型荧光探针。我们现在报告DDC在实验性TBI中的表现。通过重物撞击诱导小鼠闭合性颅脑损伤。在体内静脉注射DDC。两小时后,处死动物,对脑组织进行荧光显微镜检查,以评估DDC的摄取情况,并与通过TUNEL和半胱天冬酶底物对凋亡进行的组织病理学评估相关联,同时也与通过神经严重程度评分(NSS)评估的神经功能缺损相关联。在损伤的原发部位以及远处部位均观察到了DDC的选择性摄取。摄取发生在细胞水平,DDC在细胞质中积累。通过检测特征性的凋亡DNA片段化(TUNEL染色阳性)和活化的半胱天冬酶,证实摄取DDC的细胞为凋亡细胞。DDC荧光染色的损伤区域与神经元缺损的严重程度相关。我们的研究证实了细胞凋亡在TBI中的作用,并提出DDC作为一种在体内对其进行选择性靶向和检测的有用工具。在未来对DDC进行放射性标记后,这种凋亡成像可能会通过实时评估组织损伤程度、评估新的治疗策略以及为个体患者优化治疗方案,从而改善头部受伤患者的治疗效果。
