Fraxin联合地塞米松减轻LPS诱导的小鼠肝脏和心脏损伤及其抗细胞因子活性。

IF 1.1 Q4 VIROLOGY Advances in Virology Pub Date : 2023-09-11 eCollection Date: 2023-01-01 DOI:10.1155/2023/5536933
Nada Sahib Shaker, Hayder Bahaa Sahib
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引用次数: 0

摘要

背景:细胞因子风暴综合征(CSS)是高炎症状态患者发病率和死亡率的主要原因,多种病因,包括病原体、治疗干预、恶性肿瘤和自身免疫性疾病,都可能引发高炎症状态。由于对fraxin抗氧化特性的研究有限,也没有研究调查其作为抗细胞因子风暴剂的潜力,因此需要注意的是,大多数研究主要集中在细胞因子风暴期间的促炎细胞因子,如IL-1β、IL-6和TNFα。然而,很少有研究讨论趋化因子,特别是IL-8在细胞因子风暴中的作用。因此,有必要进一步研究fraxin作为抗细胞因子风暴剂的作用以及IL-8在细胞因子风暴中的作用。本研究检测了fraxin和fraxin与地塞米松(FD)联合应用对脂多糖诱导的大肠杆菌055:B5引起的小鼠全身炎症的预防作用 mg/kg,腹膜内腹腔注射),对照组(生理盐水N.S.1 ml/kg,i.p.),浓度根据先前文献选择,fraxin(120 mg/kg,腹腔注射),地塞米松(5 mg/kg,腹腔注射),fraxin + 地塞米松(FD)(60 毫克/千克 + 2.5 mg/kg,i.p.),在LPS注射前1小时给药(5 mg/kg,腹腔注射),第二天对动物实施安乐死,并使用酶联免疫吸附测定法对血清中的白细胞介素-8(IL-8)进行定量。对肝脏和心脏组织进行组织病理学分析,以评估形态学变化。对于使用ANOVA和Tukey事后检验的数据分析,使用Kruskal-Wallis和Mann-Whitney U检验来分析组织学结果。结果:与仅LPS组相比,治疗组的IL-8水平几乎相同程度地显著下降(p<0.001),并且IL-8对fraxin、地塞米松和FD的抑制率分别为93%、92.4%和93%。肝和心脏组织的组织病理学评分显著降低(P<0.05)。结论:本研究中使用的所有干预措施都显著降低了白细胞介素-8(IL-8)水平,并减少了LPS诱导的肝和心脏损伤。联合用药(FD)并没有导致任何一种制剂的明显优势。在未来的临床实践中,还需要更多的研究来确定这些药物在治疗高炎症疾病(如细胞因子风暴)方面的可能有用性。
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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Fraxin in Combination with Dexamethasone Attenuates LPS-Induced Liver and Heart Injury and Their Anticytokine Activity in Mice.

Background: Cytokine storm syndrome (CSS) is a major cause of morbidity and mortality in people suffering from hyperinflammatory status, which diverse etiological factors, including pathogens, therapeutic interventions, malignancies, and autoimmune disorders, can instigate. Since there is limited research on the antioxidant properties of fraxin and no studies have investigated its potential as an anticytokine storm agent, it is important to note that most studies have primarily focused on proinflammatory cytokines such as IL-1β, IL-6, and TNFα during cytokine storm. However, little research discusses the role of chemokines, particularly IL-8, during cytokine storms. Therefore, further investigation is warranted into the role of fraxin as an anticytokine storm agent and the involvement of IL-8 in cytokine storms. The present study examines the preventive efficacy of fraxin and the combination of fraxin and dexamethasone (FD) in mitigating lipopolysaccharide-induced systemic inflammation in mice caused by Escherichia coli, 055: B5.

Methods: Five groups of ten mice were randomly assigned: LPS only group (5 mg/kg, intraperitoneally i.p.), control (normal saline N.S. 1 ml/kg, i.p.), concentrations were selected based on previous literature, fraxin (120 mg/kg, i.p.), dexamethasone (5 mg/kg, i.p.), fraxin + dexamethasone (FD) (60 mg/kg + 2.5 mg/kg, i.p.), administered one hour before LPS injection (5 mg/kg,i.p.), animals were euthanized next day, and interleukin-8 (IL-8) was quantified in serum using an enzyme-linked immunosorbent assay. The liver and heart tissues underwent histopathological analysis to assess morphological changes. For data analysis using ANOVA and Tukey post hoc tests, the Kruskal-Wallis and Mann-Whitney U tests were employed to analyze the histological results.

Results: A significant decline in IL-8 levels was recorded in the treatment groups almost to the same degree (p < 0.001), and the percentage of inhibition of IL-8 for fraxin, dexamethasone, and FD was 93%.92.4%, and 93%, respectively, compared to the LPS-only group. Histopathological scores were significantly reduced in liver and heart tissue (P < 0.05).

Conclusions: All interventions used in this study significantly reduced interleukin-8 (IL-8) levels and reduced LPS-induced liver and cardiac damage. The combination (FD) did not result in an evident superiority of either agent. More research is required to identify the possible usefulness of these agents in treating hyperinflammatory diseases, such as cytokine storms, in future clinical practice.

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