Inhibitory Effects of Deoxyschizandrin on Function of Intestine Smooth Muscle in Rats and Mice

XU Zhi-li; TAO Xiao-jun; ZHANG Ying; LI Hong-yan; FENG Xing-teng; KANG Ting-guo

doi:10.13422/j.cnki.syfjx.2015210126

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Inhibitory Effects of Deoxyschizandrin on Function of Intestine Smooth Muscle in Rats and Mice

更新时间：2024-01-04

- Inhibitory Effects of Deoxyschizandrin on Function of Intestine Smooth Muscle in Rats and Mice
- Chinese Journal of Experimental Traditional Medical Formulae Vol. 21, Issue 21, Pages: 126-129(2015)
- 作者机构：
- 作者简介：
- 基金信息：
- DOI：10.13422/j.cnki.syfjx.2015210126
  CLC： R285.5
- Published：2015
- 稿件说明：
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XU Zhi-li, TAO Xiao-jun, ZHANG Ying, et al. Inhibitory Effects of Deoxyschizandrin on Function of Intestine Smooth Muscle in Rats and Mice[J]. Chinese journal of experimental traditional medical formulae, 2015, 21(21): 126-129.
DOI：

XU Zhi-li, TAO Xiao-jun, ZHANG Ying, et al. Inhibitory Effects of Deoxyschizandrin on Function of Intestine Smooth Muscle in Rats and Mice[J]. Chinese journal of experimental traditional medical formulae, 2015, 21(21): 126-129. DOI： 10.13422/j.cnki.syfjx.2015210126.

摘要

目的: 考察五味子甲素对大鼠及小鼠小肠平滑肌功能的调节作用

为揭示五味子“收敛固涩”功效的机制及物质基础提供药理学依据。方法: 取昆明种小鼠50只

按均衡随机分组法分为5组

分别为正常组

五味子甲素高、中、低剂量组(20

80 mg·kg-1)

莨菪阳性组(20 mg·kg-1);另取昆明种小鼠60只

按均衡随机分组法分为6组

分别为正常组

模型组(ip

新斯的明)

五味子甲素高、中、低剂量组(80

20 mg·kg-1)

莨菪阳性组(20 mg·kg-1)

ig给予相应药物

正常组及模型组给予等体积蒸馏水

每日1次

连续5 d

分别用炭末推进法分别观察五味子甲素对正常小鼠和新斯的明肠功能亢进模型小鼠肠推进的影响。以孵育在克氏液中大鼠离体小肠为模型

观察五味子甲素对大鼠离体肠平滑肌收缩性的影响。取SD大鼠30只

随机分为正常组

五味子甲素高、中、低剂量组(80

20 mg·kg-1)

除正常组外

其余各组用番泻叶制备大鼠腹泻模型

造模成功后ig给予相应药物

每日1次

连续7 d

观察五味子甲素对腹泻模型大鼠肠平滑肌肌球蛋白轻链激酶(MLCK)表达的影响。结果: 与正常组和新斯的明模型组比较

五味子甲素高、中剂量组均能显著降低正常小鼠和新斯的明肠功能亢进小鼠的小肠炭末推进率(P<0.05

P<0.01)。五味子甲素在10~80 μmol·L-1可显著抑制大鼠离体小肠平滑肌的收缩;与番泻叶模型组比较

五味子甲素高、中、低剂量组均能显著抑制腹泻模型大鼠小肠MLCK蛋白的表达(P<0.01)。结论: 五味子甲素可显著抑制小鼠在体和大鼠离体小肠运动

该作用可能与其抑制小肠收缩运动相关的肠平滑肌肌球蛋白轻链激酶表达相关。

Abstract

Objective: To investigate the regulatory effects of deoxyschizandrin on the function of intestinal smooth muscle in mice and rats

and provide pharmacological basis for revealing the mechanism of ‘astringent efficacy’ of deoxyschizandrin and its effective substance. Method: The 50 Kunming mice were divided into 5 groups according to the balanced random group

normal group

deoxyschizandrin high

medium and low dose groups (20

80 mg·kg-1)

and belladonna positive group (20 mg·kg-1). Another 60 Kunming mice were taken and divided into 6 groups according to the balanced random group

normal group

model group (ip

neostigmine)

deoxyschizandrin high

medium

and low dose groups (80

20 mg·kg-1)

belladonna positive group (20 mg·kg-1). Corresponding drugs were given by ig

while the normal group and model group were given with distilled water at the same volume

1 time a day

for 5 days. Charcoal propulsion method was respectively used to observe the effect of deoxyschizandrin on intestine propulsion in normal mice and mice models with neostigmine. With the isolated small intestine of rats incubated in cuhk's fluid as the model

the effect of deoxyschizandrin on contractility of isolated intestine smooth muscles in rats was observed. 30 SD rats were randomly divided into normal group

deoxyschizandrin high

medium and low dose groups (80

20 mg·kg-1). All the other groups except normal group used folium sennae to prepare diarrhea rat models. After successful modeling

corresponding drugs were given by ig

1 time a day

for 7 days. The effect of deoxyschizandrin on myosin light-chain kinase (MLCK) expressions in intestinal smooth muscles of diarrhea model rats was observed. Result: Compared with normal group and neostigmine group

deoxyschizandrin high dose group and middle dose group could significantly decrease the percentage of carbon powder propulsion in small intestine (P<0.05

P<0.01). 10-80 μmol·L-1 deoxyschizandrin inhibited the contraction of isolated small intestinal smooth muscle in vitro of rats. Compared with senna model group

deoxyschizandrin high

middle and low dose groups could significantly inhibit MLCK expressions in intestinal smooth muscles of diarrhea model rats (P<0.01). Conclusion: Deoxyschizandrin shows the inhibitory effects on the small intestinal movement in vivo mice and in vitro rats

and the mechanism may be associated with inhibiting the expression of MLCK related to intestinal contraction.

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