Advanced Science (Jun 2024)

Chronic Opioid Treatment Arrests Neurodevelopment and Alters Synaptic Activity in Human Midbrain Organoids

  • Hye Sung Kim,
  • Yang Xiao,
  • Xuejing Chen,
  • Siyu He,
  • Jongwon Im,
  • Moshe J. Willner,
  • Michael O. Finlayson,
  • Cong Xu,
  • Huixiang Zhu,
  • Se Joon Choi,
  • Eugene V. Mosharov,
  • Hae‐Won Kim,
  • Bin Xu,
  • Kam W. Leong

DOI
https://doi.org/10.1002/advs.202400847
Journal volume & issue
Vol. 11, no. 21
pp. n/a – n/a

Abstract

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Abstract Understanding the impact of long‐term opioid exposure on the embryonic brain is critical due to the surging number of pregnant mothers with opioid dependency. However, this has been limited by human brain inaccessibility and cross‐species differences in animal models. Here, a human midbrain model is established that uses hiPSC‐derived midbrain organoids to assess cell‐type‐specific responses to acute and chronic fentanyl treatment and fentanyl withdrawal. Single‐cell mRNA sequencing of 25,510 cells from organoids in different treatment groups reveals that chronic fentanyl treatment arrests neuronal subtype specification during early midbrain development and alters synaptic activity and neuron projection. In contrast, acute fentanyl treatment increases dopamine release but does not significantly alter gene expression related to cell lineage development. These results provide the first examination of the effects of opioid exposure on human midbrain development at the single‐cell level.

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