改变你的想法:记忆和疾病Change Your Mind: Memory and Disease |
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课程网址: | http://videolectures.net/mitworld_insel_tsai_ressler_flatow_mind/ |
主讲教师: | Li-Huei Tsai, Ira Flatow, Thomas R. Insel, Kerry Ressler |
开课单位: | 国立精神卫生研究所 |
开课时间: | 2013-05-03 |
课程语种: | 英语 |
中文简介: | 我们如何将我们的朋友与敌人区分开来?痴呆症如何破坏记忆?过去的经验如何能够以破坏性的力量侵入现在?科学家正在关注这些神经学难题的生化根源。 Thomas Insel描述了一小组神经肽对动物社会行为的深远影响,从蠕虫到人类。催产素是一种开启母性行为和认知的激素,它在确定社会记忆方面发挥了重要作用。用于产生催产素的基因被淘汰的小鼠似乎不记得他们早在30分钟前遇到的动物--Insel描述为“密集的社交健忘症”。大脑杏仁核的一个区域特别富含催产素受体,当肽被注入附近的心室,动物的社交互动更接近正常行为。催产素是一种有用的工具,用于询问电路,使人们能够确定“谁对我很重要,我为谁而死,谁与我结对,谁会照顾我,”Insel说。 阿尔茨海默氏病(AD)在全世界范围内折磨着2千万人,从字面上堵塞和纠缠海马体开始,海马体是学习和记忆所必需的大脑部分。 Li-Huei Tsai和其他研究人员发现了“令人信服的证据”,即一种小蛋白质在激活AD可怕的记忆萎缩方面可能至关重要。通过操纵特定的酶,Tsai设法在动物模型“阿尔茨海默氏病的所有病理标志”,并在人类阿尔茨海默病患者的斑块和缠结的来源零。 Tsai预见到抑制这些酶的药物干预措施。但是,她说,即使在我们成功阻止有害过程之后,一项重大任务仍然存在 - 我们如何才能恢复学习并找回AD患者失去的记忆? 为什么只有一些暴露于惊人事件的人会发展为创伤后应激障碍(PTSD)?克里·雷斯勒(Kerry Ressler)的研究认为,某种学习必须发生在大脑的杏仁核 - 它的恐惧反应中心 - 不能轻易消除。研究人员追踪了一种分子因素,这种因素在“了解恐惧或恐惧消失后”增加。他相信,如果这种分子被某种方式阻止做其工作,那么患有创伤后应激障碍的人就无法消除恐惧。在偶然的医学趋同中,药物D-环丝氨酸已被批准多年来用于治疗结核病,证明非常有效地增强分子的作用,并减少对各种类型的恐惧。一个例子:当人们担心高度时,他们乘坐电梯乘坐D-环丝氨酸,他们报告说他们的恐惧症显着,持久地减少了 |
课程简介: | How do we distinguish our friends from foes? How does dementia destroy memory? And how can past experience invade the present with destructive force? Scientists are closing in on the biochemical roots of these neurological puzzles. Thomas Insel describes the profound impact of a small group of neuropeptides on social behavior in animals, from worms to humans. Oxytocin, the hormone which turns on maternal behavior and cognition, turns out to play a large role in determining social memories. Mice whose genes for producing oxytocin are knocked out can’t seem to remember animals they’ve met 30 minutes earlier – what Insel describes as “dense social amnesia.” An area of the brain’s amygdala is particularly rich in oxytocin receptors, and when the peptide is injected into a nearby ventricle, the animals’ social interactions revert more closely to normal behavior. Oxytocin is a useful tool for interrogating the circuitry that enables humans to determine “who’s important to me, who I’d die for, who I’m pair-bonded with, who will take care of me,” says Insel. Alzheimer’s Disease (AD), which afflicts 20 million people worldwide, begins by literally clogging and tangling the hippocampus, the part of the brain essential for learning and memory. Li-Huei Tsai and other researchers have found “compelling evidence” that a small protein may be critically important in activating AD’s awful atrophy of memory. By manipulating specific enzymes, Tsai has managed to model in animals “all the pathological hallmarks of Alzheimer’s Disease,” and zero in on the source of the plaques and tangles seen in human Alzheimer’s patients. Tsai foresees drug interventions that inhibit these enzymes. But, she says, a big task remains “even after we’re successful in halting a deleterious process--how can we restore learning and retrieve lost memory in AD patients?” Why is it that only some people exposed to a shocking event develop post-traumatic stress disorder (PTSD)? Kerry Ressler’s research posits that some kind of learning must take place in the brain’s amygdala -- its fear response center—that cannot readily be extinguished. Researchers have tracked down a molecular factor that increases “after learning of fear or extinction of fear.” He believes that if this molecule is somehow blocked from doing its job, then someone suffering from PTSD cannot extinguish fear. In a fortuitous medical convergence, the drug D-cycloserine, which has been approved for years to treat tuberculosis, proves very effective in enhancing the effects of the molecule, and reducing fear of all kinds. One example: When people with fear of heights were given D-cycloserine as they took rides in elevators, they reported a significant, long-lasting reduction in their phobias. |
关 键 词: | 神经肽; 社交健忘症; 创伤后应激障碍 |
课程来源: | 视频讲座网 |
最后编审: | 2019-06-03:cjy |
阅读次数: | 65 |