Effect of Total Flavonoids from Millettia Speciosa and Millettia Championi Radix on Acute Lung Injury in Mice

DU Shun-xia; HUANG Hui-xue; MENG Xue-fang; XIE Chan; LIANG Qiu-yun; LIU Hua-gang

doi:10.13422/j.cnki.syfjx.2017080160

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Effect of Total Flavonoids from Millettia Speciosa and Millettia Championi Radix on Acute Lung Injury in Mice

更新时间：2024-01-04

- Effect of Total Flavonoids from Millettia Speciosa and Millettia Championi Radix on Acute Lung Injury in Mice
- Chinese Journal of Experimental Traditional Medical Formulae Vol. 23, Issue 8, Pages: 160-165(2017)
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- DOI：10.13422/j.cnki.syfjx.2017080160
  CLC： R285.5
- Published：2017
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DU Shun-xia, HUANG Hui-xue, MENG Xue-fang, et al. Effect of Total Flavonoids from Millettia Speciosa and Millettia Championi Radix on Acute Lung Injury in Mice[J]. Chinese journal of experimental traditional medical formulae, 2017, 23(8): 160-165.
DOI：

DU Shun-xia, HUANG Hui-xue, MENG Xue-fang, et al. Effect of Total Flavonoids from Millettia Speciosa and Millettia Championi Radix on Acute Lung Injury in Mice[J]. Chinese journal of experimental traditional medical formulae, 2017, 23(8): 160-165. DOI： 10.13422/j.cnki.syfjx.2017080160.

摘要

目的：探讨甜牛大力总黄酮（TFRMS）和苦牛大力总黄酮（TFRMC）对小鼠急性肺损伤（ALI）模型的作用，并观察TFRMS和TFRMC抗炎作用的差异。方法：采用脂多糖（LPS）致小鼠ALI模型，观察TFRMS和TFRMC对小鼠ALI模型的抗炎作用，测定小鼠肺泡灌洗液（BALF液）中白细胞数（WBC）和总蛋白量（Pro），免疫组化法测定小鼠肺组织中核转录因子-κB p65（NF-κB p65）的表达，酶联免疫吸附试验（ELISA）测定肺组织中白细胞介素-6（IL-6）和肿瘤坏死因子-α（TNF-α）含量，实时荧光定量PCR法测定IL-6，TNF-α mRNA的表达量，苏木素-伊红（HE）染色观察肺组织病理形态的改变。结果：与正常组比较，模型组WBC数，Pro，IL-6和TNF-α水平显著增加（P<0.01），肺组织有炎症改变；与模型组比较，TFRMS和TFRMC可明显减少小鼠急性肺炎BALF液的WBC数量，Pro渗出量（P < 0.05，P < 0.01），显著降低肺组织NF-κB p65蛋白水平（P<0.01），抑制IL-6，TNF-α mRNA表达（P < 0.05，P < 0.01），减少肺组织中IL-6和TNF-α水平（P < 0.05，P < 0.01）；从组织病理学的角度上观察到，TFRMS和TFRMC各剂量组均可减轻LPS引起的急性肺损伤。结论： TFRMS和TFRMC均具有明显的抗炎作用，TFRMC和TFRMS作用效果相似，其抗炎作用机制可能是通过干扰NF-κB p65途径，减少IL-6，TNF-α mRNA表达，从而抑制IL-6和TNF-α炎症介质的生成。

Abstract

Objective: To investigate the effect of total flavonoids from Milledttia Speciosa Radix (TFRMS) and Millettia Championi Radix(TFRMC) on acute lung injury (ALI) in mice models and observe the differences in anti-inflammatory effect between TFRMS and TFRMC. Method: ALI mice models were induced by lipopolysaccharide (LPS)

and then the anti-inflammation effect of TFRMS and TFRMC was observed in ALI mice models. The numbers of white blood cell (WBC) and the content of protein were determined in Bronchoalveolar lavage fluid (BALF). Then the levels of interleukin-6 (IL-6) and tumor necrosis factor-alpha (TNF-α) in the lung tissues were detected by enzymelinked immunosorbent assay(ELISA)

the expression levels of nuclear factor-κB (NF-κB) p65 in lung tissues were determined by immunohistochemistry

the mRNA expression levels of IL-6 and TNF-α were detected by Real-time PCR method

and the pathological changes of lung tissues were observed by hematoxylin and eosin(HE) staining. Result: As compared with normal group

the count of WBC

protein content

levels of IL-6 and TNF-α were significantly increased in model group (P<0.01)

with inflammatory changes in lung tissues. As compared with the model group

the count of WBC and content of protein were decreased in BALF of TFRMS and TFRMC groups (P < 0.05

P < 0.01); the NF-κB p65 protein expression in lung tissues was significantly decreased (P<0.01); IL-6 and TNF-α mRNA expression levels and contents in the lung tissue were decreased (P < 0.05

P < 0.01). From the perspective of histopathology

various dose groups of TFRMS and TFRMC can reduce the acute lung injury induced by LPS. Conclusion: Both TFRMS and TFRMC had significant similar anti-inflammation effect

and their mechanism may be associated with interfering the NF-κB pathway

reducing the mRNA expression levels of IL-6 and TNF-α

and inhibiting IL-6 and TNF-α inflammatory mediators.

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