Kale Sujata, Karihaloo Anil, Clark Paul R, Kashgarian Michael, Krause Diane S, Cantley Lloyd G
Section of Nephrology, Yale University School of Medicine, New Haven, Connecticut 06437, USA.
J Clin Invest. 2003 Jul;112(1):42-9. doi: 10.1172/JCI17856. Epub 2003 Jun 16.
The paradigm for recovery of the renal tubule from acute tubular necrosis is that surviving cells from the areas bordering the injury must migrate into the regions of tubular denudation and proliferate to re-establish the normal tubular epithelium. However, therapies aimed at stimulating these events have failed to alter the course of acute renal failure in human trials. In the present study, we demonstrate that Lin-Sca-1+ cells from the adult mouse bone marrow are mobilized into the circulation by transient renal ischemia and home specifically to injured regions of the renal tubule. There they differentiate into renal tubular epithelial cells and appear to constitute the majority of the cells present in the previously necrotic tubules. Loss of stem cells following bone marrow ablation results in a greater rise in blood urea nitrogen after renal ischemia, while stem cell infusion after bone marrow ablation reverses this effect. Thus, therapies aimed at enhancing the mobilization, propagation, and/or delivery of bone marrow stem cells to the kidney hold potential as entirely new approaches for the treatment of acute tubular necrosis.
急性肾小管坏死时肾小管恢复的模式是,损伤周边区域存活的细胞必须迁移至肾小管剥脱区域并增殖,以重新建立正常的肾小管上皮。然而,旨在刺激这些过程的疗法在人体试验中未能改变急性肾衰竭的病程。在本研究中,我们证明成年小鼠骨髓中的Lin-Sca-1+细胞可通过短暂性肾缺血被动员进入循环,并特异性归巢至肾小管的损伤区域。在那里它们分化为肾小管上皮细胞,并且似乎构成了先前坏死肾小管中存在的大多数细胞。骨髓消融后干细胞的丧失导致肾缺血后血尿素氮升高幅度更大,而骨髓消融后输注干细胞可逆转这一效应。因此,旨在增强骨髓干细胞向肾脏的动员、增殖和/或输送的疗法有望成为治疗急性肾小管坏死的全新方法。