The Role of Glutamine in the Prevention of Ultraviolet-C-Induced Platelet Activation

IF 3.4 Q2 BIOCHEMICAL RESEARCH METHODS
M. Mushtaq, U. Kim
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引用次数: 2

Abstract

Background and Objectives. The primary function of platelets is to prevent bleeding. The use of UV-C light in the treatment of platelets has become a valuable method for preserving the efficacy of platelet concentrates in blood banks. However, its deleterious effect remains, such as the activation of platelets, thus causing the platelets to lose their physiological function. In this study, we intended to demonstrate the impact of UV-C on platelets and how the use of glutamine could mitigate the loss of physiological function of the platelets caused by UV-C. Materials and Methods. This study was conducted using mouse platelets. We assessed calcium signaling using Fura-2 AM incubation and dense granule secretion of the platelets using luminescence assay by measuring ATP. At the molecular level, the activation of integrin using PAC-1 antibody was analyzed. Phosphorylation of immune-precipitated cPLA2 was assessed using a specific antibody. All the experiments were carried out with or without glutamine in the presence of UV-C. Positive and negative controls were used in all experiments to validate the findings. Results. We have demonstrated that physiological and biochemical damage arises as a result of the exposure of platelet concentrate to UV-C and that the use of glutamine could alleviate this damage. Various experiments, thrombus formation, integrin activation, and phosphorylation of cPLA2 were preserved using 50 mM of glutamine in the presence of UV-C, which reduces 50% of platelet viability. Conclusions. Our study demonstrates that the storage of platelet concentrates under the UV-C activates their physiological process and renders them to the thrombus formation, hence decreasing their viability. The presence of a moderate amount of glutamine can alleviate the toxic effect of UV-C, and platelet concentrates could be kept viable for a long time.
谷氨酰胺在预防紫外线诱导的血小板活化中的作用
背景和目标。血小板的主要功能是防止出血。利用UV-C光治疗血小板已成为保存血库血小板浓缩物疗效的一种有价值的方法。然而,它的有害作用仍然存在,如活化血小板,从而使血小板失去生理功能。在这项研究中,我们打算证明UV-C对血小板的影响,以及谷氨酰胺如何减轻UV-C引起的血小板生理功能丧失。材料与方法。这项研究是用小鼠血小板进行的。我们通过Fura-2 AM孵育和通过测量ATP的发光法检测血小板致密颗粒分泌来评估钙信号。在分子水平上,分析了PAC-1抗体对整合素的激活作用。使用特异性抗体评估免疫沉淀cPLA2的磷酸化。所有的实验都是在UV-C存在下进行的,有或没有谷氨酰胺。所有实验均采用阳性和阴性对照来验证研究结果。结果。我们已经证明,生理和生化损伤是由于血小板浓缩物暴露于UV-C而引起的,而谷氨酰胺的使用可以减轻这种损伤。各种实验、血栓形成、整合素激活和cPLA2磷酸化在UV-C存在下使用50 mM谷氨酰胺保存,这降低了50%的血小板活力。结论。我们的研究表明,血小板浓缩物在UV-C下的储存激活了它们的生理过程,使它们形成血栓,从而降低了它们的活力。适量谷氨酰胺的存在可以减轻UV-C的毒性作用,使血小板浓缩液能长期保持活力。
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来源期刊
Biochemistry Research International
Biochemistry Research International BIOCHEMICAL RESEARCH METHODS-
CiteScore
6.30
自引率
0.00%
发文量
27
审稿时长
14 weeks
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