Study of the role of neurotrophic factors in the regulation of regeneration processes in damaged somatic nerves under the action of semax peptide preparation

Marina V. Parchaykina, Tatyana P. Kuzmenko, Elena V. Chudaikina, Maria Yu. Gladysheva, Elvira S. Revina, Viktor V. Revin
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Abstract

The content of neurotrophic factors in damaged somatic nerves under the action of the drug «Semax» was studied and their role in the regulation of regenerative processes in injured nerve conductors was established. It has been shown that intramuscular administration of the drug is accompanied by a significant increase in the level of NGF and NT-3 both in the proximal and distal parts of the nerve. At the same time, there are no significant changes in the quantitative content of neuroregulin-1 against the background of its use. The data obtained suggest that one of the mechanisms of action of Semax is its ability to interact with Schwann cells and stimulate the release of NGF and NT-3, which facilitate the regeneration of damaged axons and do not affect the synthesis of neuroregulin-1. In addition, the study of the quantitative content of individual protein fractions showed that the drug «Semax» has the most pronounced effect on the level of neurofilament-H in both segments of the nerve conductor, which indicates the important role and activation of the mitogen-activated protein kinase (MAPK / ERK) signalling pathway, which regulates processes of cytoskeletal protein synthesis and axon growth. Nevertheless, it was shown that in the variant of the experiment using Semax, there was a decrease in the level of GAP-43, which is a key marker of axonal growth, both in the proximal and distal segments of the nerve. The data obtained most likely indicate that the intramuscular administration of the drug does not affect the processes of axon growth, but is aimed at maintaining the survival of neurons and accelerated restoration of the functional state of nerve fibres, which is also confirmed by the appearance of an action potential and the ability of the nerve to conduct it against the background of the use of the Semax drug.
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神经营养因子在semax肽制剂作用下对受损体神经再生过程的调控作用研究
研究了在药物“Semax”作用下受损体神经中神经营养因子的含量,并确定了它们在受损神经传导体再生过程中的调节作用。研究表明,肌内给药可使神经近端和远端NGF和NT-3水平显著升高。同时,在其使用的背景下,神经调节素-1的定量含量没有明显变化。所获得的数据表明,Semax的作用机制之一是它能够与雪旺细胞相互作用,刺激NGF和NT-3的释放,促进受损轴突的再生,而不影响神经调节蛋白1的合成。此外,对单个蛋白组分的定量含量的研究表明,药物«Semax»对神经传导两段的神经丝- h水平的影响最为显著,这表明丝裂原活化蛋白激酶(MAPK / ERK)信号通路的重要作用和激活,其调节细胞骨架蛋白合成和轴突生长过程。然而,研究表明,在使用Semax的实验变体中,神经近端和远端节段的GAP-43水平下降,而GAP-43是轴突生长的关键标志。所获得的数据很可能表明,肌内给药不影响轴突的生长过程,而是旨在维持神经元的存活和加速神经纤维功能状态的恢复,这也被动作电位的出现和神经在使用Semax药物的背景下传导它的能力所证实。
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