Morphochemical changes in brain structures in the course of chronic haloperidol treatment and the correction of these changes with tuftsin.

L M Gershtein, M T Dobrynina, A V Sergutina
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引用次数: 3

Abstract

The systemic injection of haloperidol (4 wk, 0.5 mg/kg/d) caused the increase of protein concentration and content, and the activity level of aminopeptidase in the cytoplasm of the neurons of associated type (layer III). The nucleus of these cells decreased both in sizes and in the content of proteins. In the neurons of efferent-projectory type (layer V), the decrease of studied peculiarities as compared with control level was observed. Tuftsin (300 micrograms/kg/d) injection after chronic haloperidol treatment causes the restoring action on changed parameters in sensomotor cortex. In caudate nucleus, tuftsin influence caused further reduction of neuron's cytoplasmic area and significant reduction in protein content. The received results testify to the morphobiochemical heterogenity of investigated brain structures, which is displayed both in the case of haloperidol treatment and in the case of its correction by neuropeptide tuftsin. Chronic haloperidol administration to animals can develop a model of certain symptoms and syndromes of parkinsonism. Its most pronounced manifestation is an imbalance in the neuromediator systems, especially the dopaminergic one (Mettler and Crandall, 1959; Colls, 1984; Funk et al., 1986). The research was performed in conjunction with the physiologists, whose experiments have shown that after chronic haloperidol administration, changes in animal behavior are developed that are typical for bradikinesia, and the motor regimen of integration is disturbed (Popova and Kachalova, 1991; Dovedova and Povova, 1993). Regulatory drugs, especially the tetrapeptide tuftsin, seem to correct such disturbances.

氟哌啶醇慢性治疗过程中脑结构的形态化学变化及氟哌啶醇对这些变化的纠正。
全身注射氟哌啶醇(4周,0.5 mg/kg/d)可引起相关型(ⅲ层)神经元细胞质中蛋白质浓度和含量升高,氨基肽酶活性水平升高,细胞核大小减小,蛋白质含量降低。在传入-投射型(V层)神经元中,与对照水平相比,所研究的特性有所降低。氟哌啶醇慢性治疗后注射塔夫辛(300微克/kg/d)对感觉运动皮层变化参数有恢复作用。在尾状核中,簇叶素的影响导致神经元胞质面积进一步减少,蛋白质含量显著降低。收到的结果证明了所研究的脑结构的形态生化异质性,这在氟哌啶醇治疗和神经肽簇的情况下都显示出来。长期氟哌啶醇给药动物可形成帕金森病某些症状和综合征的模型。其最显著的表现是神经介质系统的失衡,尤其是多巴胺能系统(Mettler and Crandall, 1959;科尔斯,1984;Funk et al., 1986)。这项研究是与生理学家一起进行的,生理学家的实验表明,在长期服用氟哌啶醇后,动物的行为发生了典型的缓动症变化,运动整合方案受到干扰(Popova和Kachalova, 1991;Dovedova and Povova, 1993)。调节药物,尤其是四肽簇,似乎可以纠正这种干扰。
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