细胞外超氧化物歧化酶在巨噬细胞中的细胞分布可被细胞激活改变,但不受天然存在的 R213G 取代的影响。
The cellular distribution of extracellular superoxide dismutase in macrophages is altered by cellular activation but unaffected by the naturally occurring R213G substitution.
机构信息
Department of Biomedicine, Aarhus University, DK-8000 Aarhus, Denmark.
Department of Medicine, National Jewish Health, Denver, CO 80206, USA.
出版信息
Free Radic Biol Med. 2014 Apr;69:348-56. doi: 10.1016/j.freeradbiomed.2014.01.038. Epub 2014 Feb 7.
Abstract
Extracellular superoxide dismutase (EC-SOD) is responsible for the dismutation of the superoxide radical produced in the extracellular space and known to be expressed by inflammatory cells, including macrophages and neutrophils. Here we show that EC-SOD is produced by resting macrophages and associated with the cell surface via the extracellular matrix (ECM)-binding region. Upon cellular activation induced by lipopolysaccharide, EC-SOD is relocated and detected both in the cell culture medium and in lipid raft structures. Although the secreted material presented a significantly reduced ligand-binding capacity, this could not be correlated to proteolytic removal of the ECM-binding region, because the integrity of the material recovered from the medium was comparable to that of the cell surface-associated protein. The naturally occurring R213G amino acid substitution located in the ECM-binding region of EC-SOD is known to affect the binding characteristics of the protein. However, the analysis of macrophages expressing R213G EC-SOD did not present evidence of an altered cellular distribution. Our results suggest that EC-SOD plays a dynamic role in the inflammatory response mounted by activated macrophages.
摘要
细胞外超氧化物歧化酶(EC-SOD)负责歧化细胞外空间产生的超氧自由基,已知其由炎症细胞表达,包括巨噬细胞和中性粒细胞。在这里,我们发现 EC-SOD 由静止的巨噬细胞产生,并通过细胞外基质(ECM)结合区与细胞表面相关联。在脂多糖诱导的细胞激活后,EC-SOD 被重新定位,并在细胞培养物和脂筏结构中检测到。尽管分泌的物质具有明显降低的配体结合能力,但这与 ECM 结合区的蛋白水解去除无关,因为从中性粒细胞表面相关蛋白中回收的物质的完整性与细胞表面相关蛋白相当。位于 EC-SOD ECM 结合区的天然存在的 R213G 氨基酸取代已知会影响蛋白质的结合特性。然而,表达 R213G EC-SOD 的巨噬细胞的分析并未显示出细胞分布改变的证据。我们的结果表明,EC-SOD 在激活的巨噬细胞引发的炎症反应中发挥动态作用。
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