生理老化的红细胞在体内发生红细胞吞噬作用,但在体外不会发生。
Physiologically aged red blood cells undergo erythrophagocytosis in vivo but not in vitro.
机构信息
Laboratory for Molecular Nutrition, Faculty of Biotechnology and Food Engineering. Technion. Technion City, Haifa, Israel.
出版信息
Haematologica. 2012 Jul;97(7):994-1002. doi: 10.3324/haematol.2011.057620. Epub 2012 Feb 13.
BACKGROUND
The lifespan of red blood cells is terminated when macrophages remove senescent red blood cells by erythrophagocytosis. This puts macrophages at the center of systemic iron recycling in addition to their functions in tissue remodeling and innate immunity. Thus far, erythrophagocytosis has been studied by evaluating phagocytosis of erythrocytes that were damaged to mimic senescence. These studies have demonstrated that acquisition of some specific individual senescence markers can trigger erythrophagocytosis by macrophages, but we hypothesized that the mechanism of erythrophagocytosis of such damaged erythrocytes might differ from erythrophagocytosis of physiologically aged erythrocytes.
DESIGN AND METHODS
To test this hypothesis we generated an erythrocyte population highly enriched in senescent erythrocytes by a hypertransfusion procedure in mice. Various erythrocyte-aging signals were analyzed and erythrophagocytosis was evaluated in vivo and in vitro.
RESULTS
The large cohort of senescent erythrocytes from hypertransfused mice carried numerous aging signals identical to those of senescent erythrocytes from control mice. Phagocytosis of fluorescently-labeled erythrocytes from hypertransfused mice injected into untreated mice was much higher than phagocytosis of labeled erythrocytes from control mice. However, neither erythrocytes from hypertransfused mice, nor those from control mice were phagocytosed in vitro by primary macrophage cultures, even though these cultures were able to phagocytose oxidatively damaged erythrocytes.
CONCLUSIONS
The large senescent erythrocyte population found in hypertransfused mice mimics physiologically aged erythrocytes. For effective erythrophagocytosis of these senescent erythrocytes, macrophages depend on some features of the intact phagocytosing tissue for support.
背景
巨噬细胞通过红细胞吞噬作用清除衰老的红细胞,从而终止红细胞的寿命。除了在组织重塑和固有免疫中的作用外,巨噬细胞还处于全身铁循环的中心。到目前为止,人们通过评估模仿衰老的红细胞的吞噬作用来研究红细胞吞噬作用。这些研究表明,获得一些特定的个体衰老标志物可以触发巨噬细胞吞噬红细胞,但我们假设这种受损红细胞的吞噬机制可能与生理性衰老红细胞的吞噬机制不同。
设计和方法
为了验证这一假设,我们通过小鼠超输血程序产生了一种富含衰老红细胞的红细胞群体。分析了各种红细胞衰老信号,并在体内和体外评估了红细胞吞噬作用。
结果
大量来自超输血小鼠的衰老红细胞携带了与来自对照小鼠的衰老红细胞相同的衰老信号。注射到未处理的小鼠体内的超输血小鼠标记荧光红细胞的吞噬作用明显高于对照小鼠的标记红细胞的吞噬作用。然而,无论是来自超输血小鼠的红细胞,还是来自对照小鼠的红细胞,都不能在体外被原代巨噬细胞培养物吞噬,尽管这些培养物能够吞噬氧化损伤的红细胞。
结论
在超输血小鼠中发现的大量衰老红细胞群模拟了生理性衰老的红细胞。为了有效地吞噬这些衰老的红细胞,巨噬细胞需要一些完整的吞噬组织的特征来支持。
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