Low-Dose LPS Modulates Microglia/Macrophages Phenotypic Transformation to Amplify Rehabilitation Effects in Chronic Spinal Cord Injured (CSCI) Mice.
Juan ZhongYingxi HeQin ZhaoHaodong LuoQing ZhangYu TianYuan LiuCe YangYing YinLehua YuLu PanBo-Tao TanPublished in: Molecular neurobiology (2024)
Spinal cord injury (SCI) results in stalled motor function recovery under the chronic phase. One of the reasons due to the presence of ongoing inflammation. Therefore, regulating the status of immune cells may help reopen the window for neural repair, which represents a potential therapeutic target. In this study, we aimed to investigate whether this could be achieved in mice with cervical 5 crush CSCI (4 W) by utilizing a concentration of 0.5 mg/kg of lipopolysaccharide (LPS) to stimulate microglia/macrophages. Additionally, the mice underwent rehabilitation training for another 6 weeks. Our results showed that systemic injection of LPS enhanced the effects of forelimb rehabilitation training, as evaluated through single pellet grasping (SPG). Electrophysiological studies revealed the restoration of cortical drive to the injured side's forelimb muscles in the training combined with LPS group. Tract tracing studies demonstrated the reconstruction of cortical innervation to the cervical spinal cord. Furthermore, the levels of pro-inflammatory phenotype markers, such as inducible nitric oxide synthase (INOS) and CD68, decreased, while the expression of anti-inflammatory phenotype markers, including arginase 1 (ARG-1) and CD206, increased. Importantly, this phenotypic switch in microglia/macrophages was accompanied by an increase in phagocytic activity markers as indicated by BODIPY + IBA1 + staining. Collectively, our data suggests that low-dose LPS improves the effects of rehabilitation training by regulating the phenotypic transformation of microglia/macrophages in CSCI. This study provides a fresh perspective and intervention direction for the clinical treatment of chronic spinal cord injuries.
Keyphrases
- inflammatory response
- spinal cord
- spinal cord injury
- anti inflammatory
- neuropathic pain
- low dose
- nitric oxide synthase
- lps induced
- toll like receptor
- virtual reality
- high fat diet induced
- randomized controlled trial
- oxidative stress
- big data
- single cell
- risk assessment
- smoking cessation
- skeletal muscle
- human health
- machine learning
- combination therapy
- nk cells
- artificial intelligence
- living cells
- optical coherence tomography
- flow cytometry
- single molecule