腺苷
神经病理性疼痛
神经科学
神经调节
慢性疼痛
止痛药
生物
腺苷A1受体
医学
伤害
药理学
痛觉过敏
腺苷受体
嘌呤能信号
刺激
信号转导
封锁
突触后电位
腺苷激酶
运动前神经元活动
兴奋性突触后电位
闪烁
神经传递
神经可塑性
光刺激
作者
Jie Chen,Tao Xu,Chenchen Zhang,Lei Li,Yan He,Zhaoxia Sun,Jiasheng He,Zhimo Yao,Peng Cai,Yipeng Huang,Fenfen Ye,Wei Guo,Manli Jia,Jia Qu,Jiang‐Fan Chen,Yi Zhang
出处
期刊:Cell Research
[Springer Nature]
日期:2026-03-04
卷期号:36 (6): 440-461
被引量:2
标识
DOI:10.1038/s41422-026-01227-7
摘要
Abstract Chronic pain affects over 20% of the global population, yet frontline treatments remain limited in efficacy and are often hampered by serious side effects. In search of novel and effective neuromodulation alternatives, we discovered that 40 Hz flickering light effectively alleviates inflammatory and neuropathic pain in mice. We identified the retina-central amygdala (CeA) pathway as a critical conduit for the analgesic effects of 40 Hz flickering light. Using circuit-specific manipulations, we demonstrated that activation of the retina-CeA pathway is both sufficient to mimic and necessary to mediate the analgesic outcomes of 40 Hz light stimulation. In terms of mechanism, we found that 40 Hz light flickering significantly increases extracellular adenosine levels in the CeA. Local pharmacological blockade of equilibrative nucleoside transporters prevented this adenosine increase and abolished the analgesic effects of 40 Hz light flickering, whereas focal adenosine infusion phenocopied the light-induced analgesia. Both interventions required A 2A receptor signaling to suppress nociceptive responses. Furthermore, we found that hyperalgesia could be destabilized in the CeA and reversed by 40 Hz light stimulation or adenosine infusion, mirroring memory reconsolidation processes and implicating the CeA as a key locus for pain memory erasure. Collectively, our findings demonstrate the multifaceted therapeutic benefits of 40 Hz light flickering as a novel non-invasive approach for pain management and reveal a distinct retina-CeA circuit and adenosine signaling mechanism for control of chronic pain and pain memory.
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