Paredes Daniel, Acosta Sandra, Gemma Carmelina, Bickford Paula C
Department of Neurosurgery and Brain Repair, USF Tampa FL.
Aging Dis. 2010 Dec 1;1(3):191-198.
Tumor necrosis factor alpha (TNF-α) is a multifunctional proinflammatory cytokine, which is a critical inflammatory mediator involved in aging and neurodegenerative diseases of aging. Previous work has shown that diets enriched with antioxidants reduce levels of the cytokine TNF-α and improve classical eyeblink conditioning performance. Therefore we tested the hypothesis that the proinflamatory cytokine TNF-α may be a critical factor that modulates classical conditioning behavior. If increased levels of endogenous cerebellar TNF-α negatively affect performance on the eyeblink conditioning task in aged rats, then exogenous administration of TNF-α in young rats should result in an impaired acquisition and/or retention of eyeblink conditioning memory. On the other hand, the reduction or blockage of the age-related increase in cerebellar TNF-α levels in aged rats should result in an improvement in memory. Young (3 month old) F344 rats were pretreated with an intracerebellar injection of recombinant rat (rr)TNF-α or denatured (rr)TNF-α prior to eyeblink conditioning coupled to microdialysis. The results showed that young rats treated with rrTNF-α have a decreased rate of learning compared to the control group. Norepinephrine which has been shown to play a critical role in cerebellar learning tasks presented a shift on training day one of young rats resembling that observed in aged rats. In a second experiment aged (22 month old) F344 rats were pretreated with intracerebellar microinjection of anti-rat TNF-α three times a week for 4 weeks prior to eyeblink conditioning training couple to microdialysis. Aged rats showed a better performance in the conditioned responses when compared to controls. The release of norepinephrine in this group reached basal levels sooner than the control group but not as early as the young rats. The results of these experiments demonstrate a critical correlation between TNF-α and the rate of learning and the pattern of NE release during eyeblink conditioning.
肿瘤坏死因子α(TNF-α)是一种多功能促炎细胞因子,是参与衰老及衰老相关神经退行性疾病的关键炎症介质。先前的研究表明,富含抗氧化剂的饮食可降低细胞因子TNF-α的水平,并改善经典眨眼条件反射性能。因此,我们检验了以下假设:促炎细胞因子TNF-α可能是调节经典条件反射行为的关键因素。如果老年大鼠内源性小脑TNF-α水平升高对眨眼条件反射任务的表现产生负面影响,那么给年轻大鼠外源性施用TNF-α应该会导致眨眼条件反射记忆的获取和/或保持受损。另一方面,降低或阻断老年大鼠小脑中与年龄相关的TNF-α水平升高应会改善记忆。在进行与微透析相结合的眨眼条件反射之前,对年轻(3个月大)的F344大鼠进行小脑内注射重组大鼠(rr)TNF-α或变性(rr)TNF-α预处理。结果表明,与对照组相比,用rrTNF-α处理的年轻大鼠学习速率降低。已证明在小脑学习任务中起关键作用的去甲肾上腺素在年轻大鼠训练的第一天出现了类似于老年大鼠的变化。在第二个实验中,在进行与微透析相结合的眨眼条件反射训练之前,对老年(22个月大)的F344大鼠每周进行3次小脑内微量注射抗大鼠TNF-α,持续4周。与对照组相比老年大鼠在条件反应中表现更好。该组去甲肾上腺素的释放比对照组更快达到基础水平,但不如年轻大鼠早。这些实验结果证明了TNF-α与眨眼条件反射期间的学习速率和去甲肾上腺素释放模式之间存在关键关联。