Journal of Nanobiotechnology (Aug 2024)

A structured biomimetic nanoparticle as inflammatory factor sponge and autophagy-regulatory agent against intervertebral disc degeneration and discogenic pain

  • Kanglu Li,
  • Wenbo Yang,
  • Xuanzuo Chen,
  • Yihan Yu,
  • Yiran Liu,
  • Feifei Ni,
  • Yan Xiao,
  • Xiangcheng Qing,
  • Sheng Liu,
  • YuXin He,
  • Baichuan Wang,
  • Li Xu,
  • Zengwu Shao,
  • Lei Zhao,
  • Yizhong Peng,
  • Hui Lin

DOI
https://doi.org/10.1186/s12951-024-02715-x
Journal volume & issue
Vol. 22, no. 1
pp. 1 – 24

Abstract

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Abstract Lower back pain (LBP) is a common condition closely associated with intervertebral disc degeneration (IDD), causing a significant socioeconomic burden. Inflammatory activation in degenerated discs involves pro-inflammatory cytokines, dysregulated regulatory cytokines, and increased levels of nerve growth factor (NGF), leading to further intervertebral disc destruction and pain sensitization. Macrophage polarization is closely related to autophagy. Based on these pathological features, a structured biomimetic nanoparticle coated with TrkA-overexpressing macrophage membranes (TMNP@SR) with a rapamycin-loaded mesoporous silica core is developed. TMNP@SR acted like sponges to adsorbe inflammatory cytokines and NGF and delivers the autophagy regulator rapamycin (RAPA) into macrophages through homologous targeting effects of the outer engineered cell membrane. By regulating autophagy activation, TMNP@SR promoted the M1-to-M2 switch of macrophages to avoid continuous activation of inflammation within the degenerated disc, which prevented the apoptosis of nucleus pulposus cells. In addition, TMNP@SR relieved mechanical and thermal hyperalgesia, reduced calcitonin gene-related peptide (CGRP) and substance P (SP) expression in the dorsal root ganglion, and downregulated GFAP and c-FOS signaling in the spinal cord in the rat IDD model. In summary, TMNP@SR spontaneously inhibits the aggravation of disc inflammation to alleviate disc degeneration and reduce the ingress of sensory nerves, presenting a promising treatment strategy for LBP induced by disc degeneration. Graphical Abstract

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