Neuropathic pain affects nearly 10% of the global population, and up to 60% of those individuals also struggle with anxiety or other mood disorders. Anxiety, in turn, can amplify the perception of pain, trapping patients in a vicious cycle. The brain’s limbic system — especially emotion-processing centers such as the amygdala — holds clues to breaking this loop. However, the precise wiring that links pain perception to anxiety has remained poorly understood. Previous experimental and clinical studies have suggested that electroacupuncture may relieve pain and pain-related emotional disturbances, but the neural circuits underlying these effects remain incompletely understood. Based on these challenges, there is an urgent need to investigate how electroacupuncture-based therapies work at the neural circuit level.

Researchers from Zhejiang Chinese Medical University, its affiliated hospitals, and Hangzhou Red Cross Hospital in China published (DOI: 10.13702/j.1000-0607.20250181) their findings on August 25, 2025, in Acupuncture Research. The team used a mouse model of neuropathic pain induced by partial nerve injury in the leg. They combined electroacupuncture (100 Hz, 0.3 mA, 30 min/session, 6 sessions) at two classic acupoints — Zusanli (ST36) and Sanyinjiao (SP6) — with advanced tools including viral tracing, chemogenetics, and fiber photometry to track and manipulate neuronal activity in real time.

The study first showed that 5-HT neurons in the DRN directly connect to the BLA, a major input station of the amygdala that integrates sensory information from the cortex and thalamus. In injured mice, these 5-HT neurons in the DRN became abnormally quiet, and the animals developed both heightened pain sensitivity and anxiety-like behaviors, such as avoiding open spaces in elevated maze tests. After just six sessions of 100 Hz electroacupuncture delivered over several days, pain thresholds increased significantly, and anxious behaviors subsided. Calcium imaging showed that the activity of DRN 5-HT neurons within the DRN^5-HT-BLA circuit was reduced after injured. Immunofluorescence analyses further showed that electroacupuncture increased c-Fos expression in DRN 5-HT neurons and increased the proportion of c-Fos-positive CaMK II neurons in the BLA, supporting the involvement of the DRN^5-HT-BLA circuit in the treatment effect. To prove this circuit’s necessity, the researchers chemogenetically inhibited the DRN^5-HT-BLA connection. When that circuit was suppressed, electroacupuncture no longer relieved pain or anxiety — a clean demonstration that the circuit is not just involved but required. Immunofluorescence staining further showed that electroacupuncture increased the expression of c‑Fos, a marker of neuronal activation, in 5-HT neurons. The effects were specific to the targeted circuit, with no change in general movement or exploratory drive.

“We were surprised to see that a relatively short course of electroacupuncture could restore the activity of a specific 5-HT pathway that goes inhibited during chronic pain,” the authors said. “When we inhibited that circuit on purpose, electroacupuncture no longer produced significant analgesic or anxiolytic behavioral effects — that told us we had found a key mechanism.” The researchers explained that understanding how electroacupuncture talks to 5-HT circuits gives them a concrete neural target. “Instead of just dampening pain signals anywhere in the brain, electroacupuncture seems to rebalance a system that controls both sensation and emotion. That is why it can tackle two problems at once.”

These findings suggest that electroacupuncture could offer a non-drug strategy for treating neuropathic pain and its frequent psychiatric burden together. The study also provides a neurobiological foundation for optimizing electroacupuncture protocols, such as refining stimulation parameters or acupoint selection. Future work might test whether there are interactions between DRN^5-HT-BLA circuit and other neural circuits. The research also highlights how traditional Chinese medicine practices can be understood through the lens of modern systems neuroscience.

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References

DOI

10.13702/j.1000-0607.20250181

Original Source URL

https://dx.doi.org/10.13702/j.1000-0607.20250181

Funding Information

General Program of the National Natural Science Foundation of China (Grant No. 82074541)

About Acupuncture Research

Acupuncture Research is a peer-reviewed monthly journal established in 1976 and supervised by the National Administration of Traditional Chinese Medicine. It is jointly sponsored by the Institute of Acupuncture and Moxibustion of the China Academy of Chinese Medical Sciences and the China Association of Acupuncture and Moxibustion. The journal focuses primarily on basic experimental research, while also covering clinical and theoretical studies, and is the only Chinese journal dedicated to systematic investigation of acupuncture mechanisms. It publishes original research articles, reviews, and academic communications in areas such as mechanism exploration, clinical research, acupuncture anesthesia, meridians and acupoints, and research methods. Supported by an international editorial board and a rigorous editorial team, Acupuncture Research maintains a selective acceptance rate and is widely indexed in major domestic and international databases, reflecting its strong academic influence.