Department of Biological Sciences, University of North Texas, Denton, TX, United States of America.
PLoS One. 2021 Oct 8;16(10):e0257774. doi: 10.1371/journal.pone.0257774. eCollection 2021.
Previously we have shown that trypsin, a protein typically involved in digestion, is released from gills of both fresh and saltwater fishes into surrounding water under stress or injury. We have also shown that each species produces trypsin with different specific activities. In this report, using zebrafish as a model, we identified that trypsin induces an aversive response in zebrafish larvae and adult zebrafish. Since Protease-Activated Receptor 2 (PAR2) responds to trypsin, we tested whether the aversive response is dependent on the activation of PAR2 located on the zebrafish skin cells. Zebrafish larvae treated separately with neomycin and zinc sulfate also showed aversive response indicating neuromast, and olfactory cells are not involved in this aversion. Cultured keratinocytes from zebrafish showed a response to trypsin. Zebrafish larvae subjected to knockdown of par2a also exhibited reduced escape response. Similarly, par2a-deficient mutant larvae displayed no response to trypsin. Since it has been shown that stress activates PAR2 and sends signals to the brain as shown by the increased c-fos expression, we tested c-fos expression in adult zebrafish brains after trypsin treatment of adults and found enhanced c-fos expression by qRT-PCR. Taken together, our results show that the trypsin activates PAR2 on keratinocytes signaling the brain, and this pathway of trypsin-induced escape response will provide a unique communication mechanism in zebrafish. Furthermore, since PAR2 activation also occurs in pain/pruritus sensing, this model might be useful in elucidating components of signaling pathways in pain/pruritus.
先前我们已经证明,在应激或损伤情况下,胰蛋白酶(一种通常参与消化的蛋白质)会从淡水鱼和海水鱼的鳃中释放到周围的水中。我们还表明,每种鱼类产生的胰蛋白酶具有不同的比活力。在本报告中,我们使用斑马鱼作为模型,鉴定出胰蛋白酶会在斑马鱼幼虫和成年斑马鱼中引起厌恶反应。由于蛋白酶激活受体 2 (PAR2) 对胰蛋白酶有反应,我们测试了这种厌恶反应是否依赖于位于斑马鱼皮肤细胞上的 PAR2 的激活。分别用新霉素和硫酸锌处理的斑马鱼幼虫也表现出厌恶反应,表明毛细胞和嗅觉细胞不参与这种厌恶反应。来自斑马鱼的培养角质形成细胞对胰蛋白酶有反应。par2a 敲低的斑马鱼幼虫也表现出逃避反应减少。同样,par2a 缺陷型突变体幼虫对胰蛋白酶没有反应。由于已经表明应激会激活 PAR2 并将信号发送到大脑,如 c-fos 表达增加所示,我们在成年斑马鱼大脑中检测到成年斑马鱼经胰蛋白酶处理后的 c-fos 表达,并通过 qRT-PCR 发现 c-fos 表达增强。总之,我们的结果表明,胰蛋白酶激活角质形成细胞上的 PAR2,向大脑发出信号,这种胰蛋白酶诱导的逃避反应途径将为斑马鱼提供独特的通讯机制。此外,由于 PAR2 的激活也发生在疼痛/瘙痒感觉中,因此该模型可能有助于阐明疼痛/瘙痒信号通路中的成分。
