Association of granulocyte transmigration with structural and cellular parameters of injury in experimental radiation enteropathy.

K K Richter, M K Fagerhol, J C Carr, J M Winkler, C C Sung, M Hauer-Jensen
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引用次数: 24

Abstract

Inflammatory cells are involved in the pathogenesis of tissue injury through release of cytokines and biologically active compounds. This study used a novel, noninvasive method to assess the association between granulocyte transmigration and structural and molecular changes in radiation enteropathy. A 4 cm loop of rat small intestine was exposed to 0, 2.8, 12, or 23 Gy localized irradiation. Feces was collected in metabolic cages before and 3, 7, 14, 28, and 42 days after irradiation. Granulocyte marker protein (GMP) was measured in buffer extracts of feces by enzyme-linked immunosorbent assay (ELISA). Irradiated and shielded intestine were procured at 2 and 26 weeks and assessed for histopathologic injury [radiation injury score (RIS)], ED-2 positive macrophages, and interleukin-1 alpha (IL-1 alpha) positive cells. Irradiated intestine exhibited characteristic histopathologic alterations and increased numbers of macrophages and IL-1 alpha positive cells. There was a highly significant dose-dependent increase in post-radiation GMP (P < 0.0001). Maximal GMP excretion occurred 3-7 days after irradiation. Six weeks after irradiation, GMP excretion had returned to normal in the 2.8 and 12 Gy groups, but was still 3.5 times higher in the 23 Gy group than in controls. The associations between early GMP excretion and RIS and fibrosis at 26 weeks were highly significant (P < 0.001 and P < 0.0001, respectively). Post-radiation granulocyte transmigration is dose-dependent and correlates with structural and molecular changes, as well as with subsequent chronic injury. The GMP assay is a sensitive, non-invasive indicator of acute intestinal radiation injury and a promising biological predictor of chronic toxicity. Our data underscore the importance of consequential mechanisms in radiation enteropathy.

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实验性放射性肠病中粒细胞迁移与损伤的结构和细胞参数的关系。
炎症细胞通过释放细胞因子和生物活性化合物参与组织损伤的发病机制。本研究采用一种新颖的无创方法来评估放射性肠病中粒细胞迁移与结构和分子变化之间的关系。将大鼠小肠的4 cm环暴露于0、2.8、12或23 Gy的局部照射下。分别于照射前、照射后第3、7、14、28、42天在代谢笼中收集粪便。采用酶联免疫吸附法(ELISA)测定粪便缓冲液中粒细胞标记蛋白(GMP)的含量。在第2周和第26周分别获得辐照和屏蔽的肠道,评估组织病理学损伤[辐射损伤评分(RIS)]、ED-2阳性巨噬细胞和白细胞介素-1 α (IL-1 α)阳性细胞。辐照后的肠道表现出特征性的组织病理学改变,巨噬细胞和IL-1 α阳性细胞数量增加。放疗后GMP呈剂量依赖性增高(P < 0.0001)。最大GMP排泄发生在照射后3-7天。照射6周后,2.8 Gy组和12 Gy组的GMP排泄恢复正常,但23 Gy组的GMP排泄仍是对照组的3.5倍。早期GMP排泄与26周时RIS和纤维化之间的相关性非常显著(P < 0.001和P < 0.0001)。辐射后粒细胞迁移是剂量依赖性的,与结构和分子变化以及随后的慢性损伤相关。GMP检测是一种灵敏、无创的急性肠道辐射损伤指标,也是一种很有前景的慢性毒性生物学预测指标。我们的数据强调了放射性肠病后续机制的重要性。
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