Advanced Science (Nov 2024)

Central Role of Hypothalamic Circuits for Acupuncture's Anti‐Parkinsonian Effects

  • Ju‐Young Oh,
  • Hyowon Lee,
  • Sun‐Young Jang,
  • Hyunjin Kim,
  • Geunhong Park,
  • Almas Serikov,
  • Jae‐Hwan Jang,
  • Junyeop Kim,
  • Seulkee Yang,
  • Moonsun Sa,
  • Sung Eun Lee,
  • Young‐Eun Han,
  • Tae‐Yeon Hwang,
  • Sharon Jiyoon Jung,
  • Hee Young Kim,
  • Seung Eun Lee,
  • Soo‐Jin Oh,
  • Jeongjin Kim,
  • Jeongyeon Kim,
  • Jongpil Kim,
  • Thomas J. McHugh,
  • C. Justin Lee,
  • Min‐Ho Nam,
  • Hi‐Joon Park

DOI
https://doi.org/10.1002/advs.202403245
Journal volume & issue
Vol. 11, no. 43
pp. n/a – n/a

Abstract

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Abstract Despite clinical data stretching over millennia, the neurobiological basis of the effectiveness of acupuncture in treating diseases of the central nervous system has remained elusive. Here, using an established model of acupuncture treatment in Parkinson's disease (PD) model mice, we show that peripheral acupuncture stimulation activates hypothalamic melanin‐concentrating hormone (MCH) neurons via nerve conduction. We further identify two separate neural pathways originating from anatomically and electrophysiologically distinct MCH neuronal subpopulations, projecting to the substantia nigra and hippocampus, respectively. Through chemogenetic manipulation specifically targeting these MCH projections, their respective roles in mediating the acupuncture‐induced motor recovery and memory improvements following PD onset are demonstrated, as well as the underlying mechanisms mediating recovery from dopaminergic neurodegeneration, reactive gliosis, and impaired hippocampal synaptic plasticity. Collectively, these MCH neurons constitute not only a circuit‐based explanation for the therapeutic effectiveness of traditional acupuncture, but also a potential cellular target for treating both motor and non‐motor PD symptoms.

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