• Brain Behav. Immun. · Mar 2015

    Adoptive transfer of M2 macrophages promotes locomotor recovery in adult rats after spinal cord injury.

    • Shan-Feng Ma, Yue-Juan Chen, Jing-Xing Zhang, Lin Shen, Rui Wang, Jian-Sheng Zhou, Jian-Guo Hu, and He-Zuo Lü.
    • Central Laboratory, The First Affiliated Hospital of Bengbu Medical College, Anhui 233004, PR China; Department of Physiology, Bengbu Medical College, Anhui 233030, PR China.
    • Brain Behav. Immun. 2015 Mar 1; 45: 157-70.

    AbstractClassically activated pro-inflammatory (M1) and alternatively activated anti-inflammatory (M2) macrophages populate the local microenvironment after spinal cord injury (SCI). The former type is neurotoxic while the latter has positive effects on neuroregeneration and is less toxic. In addition, while the M1 macrophage response is rapidly induced and sustained, M2 induction is transient. A promising strategy for the repair of SCI is to increase the fraction of M2 cells and prolong their residence time. This study investigated the effect of M2 macrophages induced from bone marrow-derived macrophages on the local microenvironment and their possible role in neuroprotection after SCI. M2 macrophages produced anti-inflammatory cytokines such as interleukin (IL)-10 and transforming growth factor β and infiltrated into the injured spinal cord, stimulated M2 and helper T (Th)2 cells, and produced high levels of IL-10 and -13 at the site of injury. M2 cell transfer decreased spinal cord lesion volume and resulted in increased myelination of axons and preservation of neurons. This was accompanied by significant locomotor improvement as revealed by Basso, Beattie and Bresnahan locomotor rating scale, grid walk and footprint analyses. These results indicate that M2 adoptive transfer has beneficial effects for the injured spinal cord, in which the increased number of M2 macrophages causes a shift in the immunological response from Th1- to Th2-dominated through the production of anti-inflammatory cytokines, which in turn induces the polarization of local microglia and/or macrophages to the M2 subtype, and creates a local microenvironment that is conducive to the rescue of residual myelin and neurons and preservation of neuronal function. Copyright © 2014 Elsevier Inc. All rights reserved.

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