用纳米技术处理重悬液激活保存红细胞中的糖酵解过程

IF 0.5 Q4 BIOLOGY Regulatory Mechanisms in Biosystems Pub Date : 2023-01-20 DOI:10.15421/022302
A. Belousov, E. Malygon, T. Kalynychenko, E. Belousova, V. Yavorskiy, M. Anoshyna
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引用次数: 0

摘要

目前,纳米技术的使用为影响厌氧糖酵解过程和保存红细胞中单磷酸己糖反应的活性开辟了新的机会。检测含有CPDA-1防腐剂的供体红细胞的成分。0.9%氯化钠和5%葡萄糖的改性溶液用作再悬浮溶液。通过Belousov方法用磁铁矿纳米颗粒(ICNB品牌)处理溶液。用分光光度法测定2,3-DPG、ATP、还原型谷胱甘肽和谷胱甘肽过氧化物酶的含量。这项研究为延长保存红细胞的保质期和功能活性开辟了新的可能性。研究表明,ATP和还原型谷胱甘肽可靠增加,2,3-DPG和谷胱甘肽过氧化物酶减少。研究发现,在用改良生理盐水的试验中,厌氧糖酵解的激活不如在用葡萄糖溶液的试验中明显。相反,戊糖-葡萄糖氧化循环占主导地位。对所得数据的综合分析表明,改性的再悬浮溶液具有膜保护作用。膜保护作用是由于ATP和还原型谷胱甘肽的增加,这确保了细胞处于平衡状态的氧化还原电位。磁铁矿纳米颗粒(ICNB)改变了氢质子在再悬浮溶液中的迁移率和取向。由于范德华力,这使红细胞微环境的水性部分极化,这是ATP磷酸残基水解激活以及调节厌氧糖酵解和戊糖磷酸循环的细胞内酶转换为活性状态的主要原因。结果,跨膜代谢和代谢发生变化,红细胞的能量状态发生变化,酶被激活。所有这些都对保存的红细胞的能量供应以及在2至6ºС的储存条件下保存其功能活性产生了重大影响。
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Glycolysis process activation in preserved red blood cells by nanotechnological treatment of resuspending solutions
Currently, the use of nanotechnology opens up new opportunities to influence the processes of anaerobic glycolysis and the activity of hexose monophosphate reactions in preserved erythrocytes. Components containing donor red blood cells on CPDA-1 preservative were examined. Modified solutions of 0.9% NaCl and with 5% glucose were used as resuspending solutions. The solutions were treated with magnetite nanoparticles (ICNB brand) by the Belousov method. The amounts of 2,3-DPG, ATP, reduced glutathione, and glutathione peroxidase were determined by spectrophotometry. This study opens up new possibilities for increasing the shelf life and functional activity of preserved erythrocytes. The study showed a reliable increase in ATP and reduced glutathione, a decrease in 2,3-DPG and glutathione peroxidase. It was found that the activation of anaerobic glycolysis was less pronounced in tests with modified physiological saline than in tests with glucose solution. On the contrary, the pentose glucose oxidation cycle prevailed. A comprehensive analysis of the data obtained indicates the membrane-protective effect of the modified resuspending solutions. The membrane-protective effect is due to an increase in ATP and reduced glutathione, which ensures the redox potential of the cell in an equilibrium state. Magnetite nanoparticles (ICNB) change the mobility and orientation of hydrogen protons in resuspending solutions. This polarizes the aqueous sector of the erythrocyte microenvironment due to van der Waals forces, which is the main reason for activation of ATP phosphate residue hydrolysis and switching of intracellular enzymes regulating anaerobic glycolysis and pentose phosphate cycle into the active state. As a result, transmembrane metabolism and metabolism change, the energy state of erythrocytes changes, and enzymes are activated. All this has a significant impact on the energy supply of preserved red blood cells and preservation of their functional activity under storage conditions at 2 to 6 ºС.
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CiteScore
0.90
自引率
0.00%
发文量
25
审稿时长
10 weeks
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