Nerve growth factor synthesis and its regulatory mechanisms: an approach to therapeutic induction of nerve growth factor synthesis.

S Furukawa, Y Furukawa
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Abstract

Nerve growth factor (NGF) is a protein necessary for the differentiation and maintenance of peripheral sympathetic neurons, certain sensory neurons, and cholinergic neurons of the basal forebrain. NGF is synthesized in target areas of NGF-responsive neurons. This protein binds to specific cell surface receptors on the nerve terminals and is retrogradely transported to the cell bodies of the neurons, during which various physiological functions are expressed. In spite of its physiological importance, the regulatory mechanisms of NGF synthesis are unknown. We approached this problem from an in vitro cellular aspect and in turn applied the knowledge obtained to in vivo studies on the regulation of NGF synthesis. Nonneuronal cells, such as astroglial cells, fibroblast cells, and Schwann cells, synthesize and secrete NGF in cultures. NGF synthesis by these cells is growth dependent, suggesting that the expression of some genes relevant to cell growth is associated with upregulation of NGF synthesis. To elucidate neuronal influences, we tested various neurotransmitters and found that catecholamines and their analogues have stimulatory effects on NGF synthesis of nonneuronal cells. From the results of a structure-activity relationship, alkylcatechol compounds with an alkyl group at position 4 of the catechol ring show a potent stimulatory activity in vitro. Evidence that NGF has a potent protective activity on neuronal degeneration both in the central nervous system (CNS) and peripheral nervous system (PNS) is accumulating. NGF is a macromolecule that cannot pass through the blood-brain barrier, suggesting a limited availability of this protein for therapeutic use in diseases with neuronal degeneration in the CNS. We considered that compounds with a low molecular weight that elicit stimulatory activity on NGF synthesis are much more useful and practical for therapeutic purposes. Therefore, we investigated alkylcatechol compounds and their diacetyl derivatives, and found them to be able to induce NGF synthesis in the rat PNS in vivo. This is the first step in developing an agent capable of inducing NGF synthesis for therapeutic use in the future. The physiological and/or therapeutic significance of NGF induction is discussed.

神经生长因子合成及其调控机制:治疗性诱导神经生长因子合成的途径。
神经生长因子(NGF)是外周交感神经元、某些感觉神经元和基底前脑胆碱能神经元分化和维持所必需的蛋白质。神经生长因子在神经生长因子反应神经元的靶区合成。该蛋白与神经末梢上特定的细胞表面受体结合,并逆行转运至神经元细胞体,在此过程中表达各种生理功能。尽管其在生理上具有重要意义,但NGF合成的调控机制尚不清楚。我们从体外细胞的角度来解决这个问题,并反过来将所获得的知识应用于NGF合成调节的体内研究。非神经元细胞,如星形胶质细胞、成纤维细胞和雪旺细胞,在培养物中合成和分泌NGF。这些细胞的NGF合成依赖于生长,这表明一些与细胞生长相关的基因的表达与NGF合成的上调有关。为了阐明神经元的影响,我们测试了各种神经递质,发现儿茶酚胺及其类似物对非神经元细胞的NGF合成有刺激作用。从构效关系的结果来看,在邻苯二酚环4位有烷基的烷基邻苯二酚化合物在体外表现出强烈的刺激活性。越来越多的证据表明,NGF对中枢神经系统(CNS)和周围神经系统(PNS)的神经元变性具有有效的保护作用。NGF是一种不能通过血脑屏障的大分子,这表明这种蛋白在中枢神经系统神经元变性疾病的治疗中应用有限。我们认为,低分子量的化合物可以刺激NGF的合成,在治疗方面更有用和实用。因此,我们研究了烷基儿茶酚类化合物及其二乙酰衍生物,发现它们能够在体内诱导大鼠PNS合成NGF。这是开发一种能够诱导NGF合成用于未来治疗用途的药物的第一步。讨论了NGF诱导的生理和/或治疗意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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