极端热有害刺激会引起斑马鱼幼虫的疼痛反应。

Extreme thermal noxious stimuli induce pain responses in zebrafish larvae.

机构信息

Sbarro Institute for Cancer Research and Molecular Medicine, Temple University, Philadelphia, Pennsylvania; ISAL-Foundation, Institute for Research on Pain, Torre Pedrera (RN), Italy.

出版信息

J Cell Physiol. 2014 Mar;229(3):300-8. doi: 10.1002/jcp.24447.

DOI:10.1002/jcp.24447

PMID:23929528

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4106021/

Abstract

Exposing tissues to extreme high or low temperature leads to burns. Burned animals sustain several types of damage, from the disruption of the tissue to degeneration of axons projecting through muscle and skin. Such damage causes pain due to both inflammation and axonal degeneration (neuropathic-like pain). Thus, the approach to cure and alleviate the symptoms of burns must be twofold: rebuilding the tissue that has been destroyed and alleviating the pain derived from the burns. While tissue regeneration techniques have been developed, less is known on the treatment of the induced pain. Thus, appropriate animal models are necessary for the development of the best treatment for pain induced in burned tissues. We have developed a methodology in the zebrafish aimed to produce a new animal model for the study of pain induced by burns. Here, we show that two events linked to the onset of burn-induced inflammation and neuropathic-like pain in mammals, degeneration of axons innervating the affected tissues and over-expression of specific genes in sensory tissues, are conserved from zebrafish to mammals.

摘要

将组织暴露在极端高温或低温下会导致烧伤。烧伤动物会遭受多种类型的损伤，从组织破坏到穿过肌肉和皮肤的轴突退化。这种损伤会导致炎症和轴突退化（神经病理性疼痛样）引起的疼痛。因此，治疗和缓解烧伤症状的方法必须是双重的：重建已被破坏的组织和缓解烧伤引起的疼痛。虽然已经开发出组织再生技术，但对诱导疼痛的治疗知之甚少。因此，需要适当的动物模型来开发治疗烧伤组织诱导疼痛的最佳方法。我们已经在斑马鱼中开发了一种方法，旨在为烧伤引起的疼痛研究开发一种新的动物模型。在这里，我们表明，与哺乳动物烧伤诱导炎症和神经病理性疼痛发作相关的两个事件，即支配受影响组织的轴突退化和感觉组织中特定基因的过度表达，从斑马鱼到哺乳动物都是保守的。

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