用改良的髓过氧化物酶测定法测定脑和肺组织中的中性粒细胞含量。

W M Kuebler, C Abels, L Schuerer, A E Goetz
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引用次数: 164

摘要

髓过氧化物酶(MPO)的活性是评估定量中性粒细胞积累在组织。特别是,它可以用来支持活体显微镜获得的白细胞动力学的体内数据,并澄清在器官表面观察到的现象是否反映了整个器官微循环的情况。先前MPO活性的测量受到其他过氧化物酶的干扰和特定酶对MPO活性的抑制的限制。为了规避这些限制,设计了一种改进的检测方法,将两步组织均质技术与连续光度测量中的热培养相结合。定量测定了大鼠和家兔全血、大鼠脑和家兔肺中分离的中性粒细胞的MPO活性,并与活体显微镜下白细胞积累数据进行了比较。改进后的检测方法具有重复性高、MPO活性与中性粒细胞数量密切相关以及加入组织匀浆的中性粒细胞完全恢复的特点。大鼠MPO活性为342.9 +/- 11.7 mU/10(6)个,家兔MPO活性为40.3 +/- 0.8 mU/10(6)个。大鼠脑组织MPO活性(18.9 +/- 29.7 mU/g)明显低于兔肺(741 +/- 67 mU/g)。大鼠脑缺血/再灌注对MPO活性无显著影响(18.1 +/- 26.1 mU/g),而静脉注射眼镜蛇毒因子(1447 +/- 407 mU/g)或内毒素(1439 +/- 285 mU/g)对兔肺MPO活性有显著影响。这些结果与器官表面的微循环数据相似。因此,它们通过证明这些确实代表了更深的实质组织区域来补充活体显微镜观察。
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Measurement of neutrophil content in brain and lung tissue by a modified myeloperoxidase assay.

Myeloperoxidase (MPO) activity is assessed for the quantification of neutrophil accumulation in tissues. In particular, it may be used to support in vivo data on leukocyte kinetics obtained by intravital microscopy and to clarify whether phenomena observed on the organ surface reflect the situation of the whole organ microcirculation. Previous measurements of MPO activity were limited by interference with other peroxidases and by inhibition of MPO activity by specific enzymes. To circumvent these limitations, a modified assay was devised that combined a two-step tissue homogenization technique with heat incubation in a continuous photometric measurement. MPO activity was quantified in neutrophils isolated from rat and rabbit whole blood, rat brain and rabbit lung and compared with intravital microscopic data on leukocyte accumulation. The modified assay is characterized by high reproducibility, strong correlation of MPO activity with number of neutrophils and full recovery of neutrophils added to tissue homogenate. MPO activity per neutrophil was 342.9 +/- 11.7 mU/10(6) cells in rats and 40.3 +/- 0.8 mU/10(6) cells in rabbits. MPO activity in tissue was significantly lower in rat brains (18.9 +/- 29.7 mU/g) as compared to rabbit lungs (741 +/- 67 mU/g). Whereas global cerebral ischemia/reperfusion did not increase MPO activity in rat brain (18.1 +/- 26.1 mU/g), intravenous infusion of cobra venom factor (1,447 +/- 407 mU/g) or endotoxin (1,439 +/- 285 mU/g), enhanced MPO activity in rabbit lung. These results parallel microcirculatory data from the organ surface. Therefore they supplement the intravital microscopic observations by demonstrating that these are indeed representative of deeper parenchymal tissue areas.

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