Hasegawa-Ishii Sanae, Inaba Muneo, Li Ming, Shi Ming, Umegaki Hiroyuki, Ikehara Susumu, Shimada Atsuyoshi
Department of Pathology, Aichi Human Service Center, Institute for Developmental Research, 713-8 Kamiya, Kasugai, Aichi, 480-0392, Japan.
Japan Society for the Promotion of Science, 5-3-1 Koujimachi, Chiyoda, Tokyo, 102-0083, Japan.
Brain Struct Funct. 2016 Apr;221(3):1513-31. doi: 10.1007/s00429-014-0987-2. Epub 2015 Jan 11.
Bone marrow-derived cells enter the brain in a non-inflammatory condition through the attachments of choroid plexus and differentiate into ramified myeloid cells. Neurodegenerative conditions may be associated with altered immune-brain interaction. The senescence-accelerated mouse prone 10 (SAMP10) undergoes earlier onset neurodegeneration than C57BL/6 (B6) strain. We hypothesized that the dynamics of immune cells migrating from the bone marrow to the brain is perturbed in SAMP10 mice. We created 4 groups of radiation chimeras by intra-bone marrow-bone marrow transplantation using 2-month-old (2 mo) and 10 mo SAMP10 and B6 mice as recipients with GFP transgenic B6 mice as donors, and analyzed histologically 4 months later. In the [B6 → 10 mo SAMP10] chimeras, more ramified marrow-derived cells populated a larger number of discrete brain regions than the other chimeras, especially in the diencephalon. Multiplex cytokine assays of the diencephalon prepared from non-treated 3 mo and 12 mo SAMP10 and B6 mice revealed that 12 mo SAMP10 mice exhibited higher tissue concentrations of CXCL1, CCL11, G-CSF, CXCL10 and IL-6 than the other groups. Immunohistologically, choroid plexus epithelium and ependyma produced CXCL1, while astrocytic processes in the attachments of choroid plexus expressed CCL11 and G-CSF. The median eminence produced CXCL10, hypothalamic neurons G-CSF and tanycytes CCL11 and G-CSF. These brain cytokine profile changes in 12 mo SAMP10 mice were likely to contribute to acceleration of the dynamics of marrow-derived cells to the diencephalon. Further studies on the functions of ramified marrow-derived myeloid cells would enhance our understanding of the brain-bone marrow interaction.
骨髓来源的细胞在非炎症状态下通过脉络丛附着进入大脑,并分化为分支状髓样细胞。神经退行性疾病可能与免疫-脑相互作用的改变有关。衰老加速小鼠品系10(SAMP10)比C57BL/6(B6)品系更早发生神经退行性变。我们假设在SAMP10小鼠中,免疫细胞从骨髓迁移到大脑的动态过程受到干扰。我们通过骨髓内骨髓移植创建了4组辐射嵌合体,使用2个月大(2 mo)和10个月大的SAMP10和B6小鼠作为受体,绿色荧光蛋白转基因B6小鼠作为供体,4个月后进行组织学分析。在[B6→10 mo SAMP10]嵌合体中,与其他嵌合体相比,更多的分支状骨髓来源细胞分布在更多离散的脑区,尤其是在间脑。对未处理的3个月和12个月大的SAMP10和B6小鼠的间脑进行多重细胞因子检测发现,12个月大的SAMP10小鼠的组织中CXCL1、CCL11、G-CSF、CXCL10和IL-6的浓度高于其他组。免疫组织化学显示,脉络丛上皮和室管膜产生CXCL1,而脉络丛附着处的星形胶质细胞突起表达CCL11和G-CSF。正中隆起产生CXCL10,下丘脑神经元产生G-CSF,伸长细胞产生CCL11和G-CSF。12个月大的SAMP10小鼠大脑细胞因子谱的这些变化可能有助于加速骨髓来源细胞向间脑的动态过程。对分支状骨髓来源髓样细胞功能的进一步研究将增进我们对脑-骨髓相互作用的理解。
