Rediscovering good old friend IGF-I in the new millenium: possible usefulness in Alzheimer's disease and stroke

Sylvain Doré, Satyabrata Kar, When-Hua Zheng, Rémi Quirion
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引用次数: 34

Abstract

Much research has been done over the past two decades on the role of insulin-like growth factors I and II (IGF) in the maintenance of normal body homeostasis, especially in regard to various endocrine functions, growth and aging. For example, IGF-I is a well established promoter of tissue growth and has been used in the clinics for the treatment of growth related disorders, even being abused by athletes to enhance performance in competitions. In contrast, comparatively limited attention has been given to the potential significance of the IGFs in the central nervous system. Over the past few years, we have studied the trophic as well as neuromodulatory roles of the IGFs in the brain. IGF-I and IGF-II are potent modulators of acetylcholine release; IGF-I inhibiting release while IGF-II is a potent stimulant. Moreover, only the internalization of the IGF-I receptor complex was blocked by an inhibitor of phosphotyrosylation. This is in accordance with the differential nature of the IGF-I and IGF-II receptors, the former being a tyrosine kinase receptor while the later is a single transmembrane domain protein bearing binding sites for 6-mannose phosphate containing residues. The activation of IGF-I receptors protected neurons against cell death induced by amyloidogenic derivatives likely by an intracellular mechanism distinct from those involved in the regulation of acetylcholine release and neuronal growth. The stimulation of IGF-I receptors can activate intracellular pathways implicating a PI3/Akt kinase and CREB phosphorylation or modulate the production of free radicals. The effects, particularly those of IGF-I on key markers of the Alzheimer's (AD) brains namely cholinergic dysfunction, neuronal amyloid toxicity, tau phosphorylation and glucose metabolism suggest the potential usefulness of this growth factor in the treatment of neurodegenerative diseases. However, the poor bioavailability, enzymatic stability and brain penetration of IGF-I hamper progress in this regard. The recent development of a small, non-peptidyl mimetic of insulin able to directly activate the insulin receptor [Zhang, B., Salituro, G., Szalkowski, D., Li, Z., Zhang, Y., Royo, I., Vilella, D., Diez, M.T., Pelaez, F., Ruby, C., Kendall, R.L., Mao, X., Griffin, P., Calaycay, J., Zierath, J.R., Heck, J. V., Smith, R.G., Moller, D.E., 1999. Science, 284, 974–977] suggests that a similar strategy could be used for IGF-I and the IGF-I receptor leading to the characterization of IGF-I mimics of potential clinical usefulness.

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在新千年中重新发现老朋友igf - 1:可能对阿尔茨海默病和中风有用
在过去的二十年里,人们对胰岛素样生长因子I和II (IGF)在维持正常体内平衡中的作用进行了大量的研究,特别是在各种内分泌功能、生长和衰老方面。例如,igf - 1是一种公认的组织生长促进剂,已被用于治疗与生长有关的疾病,甚至被运动员滥用以提高比赛成绩。相比之下,对igf在中枢神经系统中的潜在意义的关注相对有限。在过去的几年里,我们研究了igf在大脑中的营养和神经调节作用。IGF-I和IGF-II是乙酰胆碱释放的有效调节剂;抑制igf - 1的释放,而igf - 2是一种有效的兴奋剂。此外,只有IGF-I受体复合物的内化被磷酸化酪氨酸化抑制剂阻断。这与IGF-I和IGF-II受体的不同性质是一致的,前者是酪氨酸激酶受体,而后者是含有6-甘露糖磷酸残基结合位点的单一跨膜结构域蛋白。igf - 1受体的激活保护神经元免受淀粉样蛋白衍生物诱导的细胞死亡,其细胞内机制可能与乙酰胆碱释放和神经元生长的调节机制不同。刺激IGF-I受体可以激活细胞内PI3/Akt激酶和CREB磷酸化通路或调节自由基的产生。这些影响,特别是igf - 1对阿尔茨海默氏症(AD)大脑关键标志物的影响,即胆碱能功能障碍、神经元淀粉样蛋白毒性、tau磷酸化和葡萄糖代谢,表明这种生长因子在治疗神经退行性疾病中的潜在用途。然而,igf - 1较差的生物利用度、酶稳定性和脑渗透阻碍了这方面的进展。Science, 284, 974-977]表明,类似的策略可以用于IGF-I和IGF-I受体,从而确定IGF-I模拟物的潜在临床用途。
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