丙泊酚通过调节术后疼痛动物模型脊髓 GluN2B-p38MAPK/EPAC1 通路抑制术后痛觉过敏。

Propofol attenuates postoperative hyperalgesia via regulating spinal GluN2B-p38MAPK/EPAC1 pathway in an animal model of postoperative pain.

机构信息

Laboratory and Clinical Research Institute for Pain, Hong Kong SAR, China.

Department of Anaesthesiology, The University of Hong Kong, Hong Kong, Hong Kong SAR, China.

出版信息

Eur J Pain. 2019 Apr;23(4):812-822. doi: 10.1002/ejp.1349. Epub 2019 Jan 30.

DOI:10.1002/ejp.1349

PMID:30570802

Abstract

BACKGROUND

Total intravenous anesthesia with propofol has been shown to reduce postoperative pain in some clinical studies, but knowledge of its underlying analgesic mechanism remains limited. In this study, we compared the analgesic effects of propofol versus isoflurane in an animal model of postoperative pain and evaluated its underlying molecular mechanisms.

METHODS

Plantar incision was made in the hind paws of rats under general anesthesia with 2.5% of inhalational isoflurane (isoflurane group) or intravenous infusion of propofol (1.5 mg kg min , propofol group). Mechanical allodynia was assessed by paw withdrawal threshold before and after incision. Spinal dorsal horns (L3-L5) were harvested 1 hr after incision to assess the level of phosphorylated GluN2B, p38MAPK, ERK, JNK, and EPAC using Western blot and immunofluorescence.

RESULTS

Mechanical allodynia induced by plantar incision peaked at 1 hr and lasted for 3 days after incision. It was significantly less in the propofol group compared with the isoflurane group in the first 2 hr following incision. The incision-induced increases in phosphorylated GluN2B, p38MAPK, and EPAC1 were significantly reduced in the propofol group. The number of spinal dorsal neurons co-expressed with EPAC1 and c-Fos after the incision was significantly lower in the propofol group.

CONCLUSION

Propofol reduced pain responses in an animal model of postoperative pain and suppressed the spinal GluN2B-p38MAPK/EPAC1 signaling pathway. Since the p38MAPK/EPAC pathway plays a critical role in the development of postoperative hyperalgesia, our results provide evidence-based behavioral, molecular, and cellular mechanisms for the analgesic effects of propofol when used for general anesthesia.

SIGNIFICANCE

These findings may provide a new mechanism for the postsurgical analgesic effect of propofol, which is particularly interesting during the subacute period after surgery as it is the critical period for the development of persistent postsurgical pain.

摘要

背景

一些临床研究表明，丙泊酚全凭静脉麻醉可减轻术后疼痛，但对其潜在镇痛机制的了解仍有限。在本研究中，我们比较了丙泊酚与异氟醚在术后疼痛动物模型中的镇痛效果，并评估了其潜在的分子机制。

方法

在吸入 2.5%异氟醚（异氟醚组）或静脉输注丙泊酚（1.5mg/kg/min，丙泊酚组）的全麻下对大鼠后爪进行足底切口。在切口前后评估爪退缩阈值来评估机械性痛觉过敏。在切口后 1 小时收获脊髓背角（L3-L5），使用 Western blot 和免疫荧光法评估磷酸化 GluN2B、p38MAPK、ERK、JNK 和 EPAC 的水平。

结果

足底切口引起的机械性痛觉过敏在切口后 1 小时达到峰值，并在切口后持续 3 天。与异氟醚组相比，在切口后前 2 小时，丙泊酚组的机械性痛觉过敏明显减轻。丙泊酚组切口诱导的磷酸化 GluN2B、p38MAPK 和 EPAC1 的增加明显减少。切口后脊髓背角神经元与 EPAC1 和 c-Fos 共表达的数量在丙泊酚组明显减少。

结论

丙泊酚减轻了术后疼痛模型中的疼痛反应，并抑制了脊髓 GluN2B-p38MAPK/EPAC1 信号通路。由于 p38MAPK/EPAC 通路在术后痛觉过敏的发展中起关键作用，我们的结果为丙泊酚用于全身麻醉时的镇痛作用提供了基于行为、分子和细胞机制的证据。

意义

这些发现可能为丙泊酚的术后镇痛作用提供了一种新的机制，这在术后的亚急性期尤其有趣，因为这是持续性术后疼痛发展的关键时期。

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丙泊酚通过调节术后疼痛动物模型脊髓 GluN2B-p38MAPK/EPAC1 通路抑制术后痛觉过敏。

Propofol attenuates postoperative hyperalgesia via regulating spinal GluN2B-p38MAPK/EPAC1 pathway in an animal model of postoperative pain.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

SIGNIFICANCE

背景

方法

结果

结论

意义

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