Banas Bernhard, Wörnle Markus, Berger Thorsten, Nelson Peter J, Cohen Clemens D, Kretzler Matthias, Pfirstinger Jochen, Mack Matthias, Lipp Martin, Gröne Hermann-Josef, Schlöndorff Detlef
Medical Policlinic, Ludwig-Maximilians-University, Munich, Germany.
J Immunol. 2002 May 1;168(9):4301-7. doi: 10.4049/jimmunol.168.9.4301.
The release of chemokines by intrinsic renal cells is an important mechanism for the regulation of leukocyte trafficking during renal inflammation. The expression of chemokine receptors by intrinsic renal cells such as mesangial cells (MC) suggests an expanded role for chemokine-chemokine receptor biology in local immunomodulation and potentially glomerular homeostasis. By immunohistochemistry we found the chemokine receptor CCR7 expressed in a mesangial pattern while the CCR7 ligand SLC/CCL21 showed a podocyte-specific expression. CCR7 expression was further characterized by RT-PCR, RNase protection assays, and FACS analysis of cultured human MC, and was found to be constitutively present. Real-time PCR of microdissected glomeruli confirmed the expression of SLC/CCL21. A functional role for CCR7 was demonstrated for human MC migration and proliferation. A protective effect of SLC/CCL21 was shown for MC survival in Fas Ab-induced apoptosis. Finally, "wound healing" was enhanced in the presence of SLC/CCL21 in an in vitro injury model. The constitutive glomerular expression of CCR7 and its ligand SLC/CCL21 in adjacent cell types of the human kidney suggests novel biological functions of this chemokine/chemokine receptor pair and a potential role in processes involved in glomerular homeostasis and regeneration.
肾固有细胞释放趋化因子是肾炎症期间调节白细胞迁移的重要机制。肾固有细胞如系膜细胞(MC)表达趋化因子受体,这表明趋化因子 - 趋化因子受体生物学在局部免疫调节以及潜在的肾小球内环境稳定中发挥着更广泛的作用。通过免疫组织化学,我们发现趋化因子受体CCR7以系膜模式表达,而CCR7配体SLC/CCL21表现出足细胞特异性表达。通过RT-PCR、核糖核酸酶保护试验以及对培养的人MC进行FACS分析,进一步对CCR7表达进行了表征,发现其组成性存在。对显微切割的肾小球进行实时PCR证实了SLC/CCL21的表达。已证实CCR7对人MC迁移和增殖具有功能性作用。在Fas Ab诱导的细胞凋亡中,SLC/CCL21对MC存活具有保护作用。最后,在体外损伤模型中,SLC/CCL21的存在增强了“伤口愈合”。人肾相邻细胞类型中CCR7及其配体SLC/CCL21的组成性肾小球表达提示了这一趋化因子/趋化因子受体对的新生物学功能以及在肾小球内环境稳定和再生相关过程中的潜在作用。
