Department of Neurobiology, School of Basic Medical Sciences and Neuroscience Research Institute, Key Laboratory for Neuroscience, Ministry of Education/National Health and Family Planning Commission, Peking University, Beijing 100083, China.
Department of Neurobiology, Capital Medical University, Beijing 100069, China.
J Neurosci. 2018 Feb 14;38(7):1756-1773. doi: 10.1523/JNEUROSCI.2242-17.2018. Epub 2018 Jan 15.
Potassium voltage-gated channel interacting protein 3 (KChIP3), also termed downstream regulatory element antagonist modulator (DREAM) and calsenilin, is a multifunctional protein belonging to the neuronal calcium sensor (NCS) family. Recent studies revealed the expression of KChIP3 in dorsal root ganglion (DRG) neurons, suggesting the potential role of KChIP3 in peripheral sensory processing. Herein, we show that KChIP3 colocalizes with transient receptor potential ion channel V1 (TRPV1), a critical molecule involved in peripheral sensitization during inflammatory pain. Furthermore, the N-terminal 31-50 fragment of KChIP3 is capable of binding both the intracellular N and C termini of TRPV1, which substantially decreases the surface localization of TRPV1 and the subsequent Ca influx through the channel. Importantly, intrathecal administration of the transmembrane peptide transactivator of transcription (TAT)-31-50 remarkably reduces Ca influx via TRPV1 in DRG neurons and alleviates thermal hyperalgesia and gait alterations in a complete Freund's adjuvant-induced inflammatory pain model in male rats. Moreover, intraplantar injection of TAT-31-50 attenuated the capsaicin-evoked spontaneous pain behavior and thermal hyperalgesia, which further strengthened the regulatory role of TAT-31-50 on TRPV1 channel. In addition, TAT-31-50 could also alleviate inflammatory thermal hyperalgesia in rats generated in our study, suggesting that the analgesic effect mediated by TAT-31-50 is independent of endogenous KChIP3. Our study reveals a novel peripheral mechanism for the analgesic function of KChIP3 and provides a potential analgesic agent, TAT-31-50, for the treatment of inflammatory pain. Inflammatory pain arising from inflamed or injured tissues significantly compromises the quality of life in patients. This study aims to elucidate the role of peripheral potassium channel interacting protein 3 (KChIP3) in inflammatory pain. Direct interaction of the KChIP3 N-terminal 31-50 fragment with transient receptor potential ion channel V1 (TRPV1) was demonstrated. The KChIP3-TRPV1 interaction reduces the surface localization of TRPV1 and thus alleviates heat hyperalgesia and gait alterations induced by peripheral inflammation. Furthermore, the transmembrane transactivator of transcription (TAT)-31-50 peptide showed analgesic effects on inflammatory hyperalgesia independently of endogenous KChIP3. This work reveals a novel mechanism of peripheral KChIP3 in inflammatory hyperalgesia that is distinct from its classical role as a transcriptional repressor in pain modulation.
钾电压门控通道相互作用蛋白 3(KChIP3),也称为下游调节元件拮抗剂调制器(DREAM)和钙敏蛋白,是一种多功能蛋白,属于神经元钙传感器(NCS)家族。最近的研究表明 KChIP3 在背根神经节(DRG)神经元中表达,提示 KChIP3 在周围感觉处理中的潜在作用。在此,我们发现 KChIP3 与瞬时受体电位离子通道 V1(TRPV1)共定位,TRPV1 是炎症性疼痛过程中周围敏化的关键分子。此外,KChIP3 的 N 端 31-50 片段能够与 TRPV1 的胞内 N 和 C 末端结合,这大大减少了 TRPV1 的表面定位以及随后通过通道的 Ca 内流。重要的是,鞘内给予跨膜转录激活因子(TAT)-31-50 肽可显著减少 DRG 神经元中 TRPV1 介导的 Ca 内流,并减轻雄性大鼠完全弗氏佐剂诱导的炎症性疼痛模型中的热痛觉过敏和步态改变。此外,足底注射 TAT-31-50 可减轻辣椒素诱发的自发性疼痛行为和热痛觉过敏,进一步证实了 TAT-31-50 对 TRPV1 通道的调节作用。此外,TAT-31-50 还可以减轻本研究中大鼠产生的炎症性热痛觉过敏,提示 TAT-31-50 介导的镇痛作用独立于内源性 KChIP3。我们的研究揭示了 KChIP3 镇痛功能的新的外周机制,并为治疗炎症性疼痛提供了一种潜在的镇痛剂 TAT-31-50。源自炎症或受伤组织的炎症性疼痛显著降低了患者的生活质量。本研究旨在阐明周围钾通道相互作用蛋白 3(KChIP3)在炎症性疼痛中的作用。直接证明了 KChIP3 N 端 31-50 片段与瞬时受体电位离子通道 V1(TRPV1)的相互作用。KChIP3-TRPV1 相互作用减少 TRPV1 的表面定位,从而减轻外周炎症引起的热痛觉过敏和步态改变。此外,跨膜转录激活因子(TAT)-31-50 肽对炎症性痛觉过敏具有镇痛作用,而不依赖于内源性 KChIP3。这项工作揭示了 KChIP3 在炎症性痛觉过敏中的一种新的外周机制,与它作为疼痛调节中经典转录抑制剂的作用不同。
