Vielhauer Volker, Allam Ramanjaneyulu, Lindenmeyer Maja T, Cohen Clemens D, Draganovici Dan, Mandelbaum Jana, Eltrich Nuru, Nelson Peter J, Anders Hans-Joachim, Pruenster Monika, Rot Antal, Schlöndorff Detlef, Segerer Stephan
Medizinische Poliklinik, Campus Innenstadt, Ludwig-Maximilians-University Munich, Munich, Germany.
Am J Pathol. 2009 Jul;175(1):119-31. doi: 10.2353/ajpath.2009.080590. Epub 2009 Jun 4.
The Duffy antigen/receptor for chemokines (DARC) is a chemokine-binding protein that is expressed on erythrocytes and renal endothelial cells. DARC-mediated endothelial transcytosis of chemokines may facilitate the renal recruitment of macrophages and T cells, as has been suggested for neutrophils. We studied the role of Darc in two mouse models of prolonged renal inflammation, one that primarily involves the tubulointerstitium (unilateral ureteral obstruction), and one that requires an adaptive immune response that leads to glomerulonephritis (accelerated nephrotoxic nephritis). Renal expression of Darc and its ligands was increased in both models. Leukocytes effectively infiltrated obstructed kidneys in Darc-deficient mice with pronounced T-cell infiltration at early time points. Development of interstitial fibrosis was comparable in both genotypes. Nephrotoxic nephritis was inducible in Darc-deficient mice, with both an increased humoral immune response and functional impairment during the early phase of disease. Leukocytes efficiently infiltrated kidneys of Darc-deficient mice, with increased cell numbers at early but not late time points. Taken together, renal inflammation developed more rapidly in DARC-deficient mice, without affecting the extent of renal injury at later time points. Thus, genetic elimination of Darc in mice does not prevent the development of renal infiltrates and may even enhance such development during the early phases of interstitial and glomerular diseases in mouse models of prolonged renal inflammation.
达菲趋化因子抗原/受体(DARC)是一种趋化因子结合蛋白,在红细胞和肾内皮细胞上表达。正如对中性粒细胞的推测,DARC介导的趋化因子内皮转胞吞作用可能促进巨噬细胞和T细胞向肾脏募集。我们在两种持续性肾脏炎症小鼠模型中研究了Darc的作用,一种主要累及肾小管间质(单侧输尿管梗阻),另一种需要适应性免疫反应导致肾小球肾炎(加速型肾毒性肾炎)。在两种模型中,Darc及其配体的肾脏表达均增加。在早期有明显T细胞浸润的Darc缺陷小鼠中,白细胞有效地浸润了梗阻的肾脏。两种基因型的间质纤维化发展情况相当。Darc缺陷小鼠可诱导发生肾毒性肾炎,在疾病早期体液免疫反应增强且有功能损害。白细胞有效地浸润了Darc缺陷小鼠的肾脏,在早期而非晚期细胞数量增加。综上所述,DARC缺陷小鼠的肾脏炎症发展更快,但不影响后期的肾损伤程度。因此,在小鼠中基因敲除Darc并不能阻止肾脏浸润的发展,甚至可能在持续性肾脏炎症小鼠模型的间质和肾小球疾病早期阶段增强这种发展。