Yung S, Davies M
Institute of Nephrology, University of Wales College of Medicine, Royal Infirmary, Cardiff, Wales, United Kingdom.
Kidney Int. 1998 Dec;54(6):2160-9. doi: 10.1046/j.1523-1755.1998.00177.x.
The denudation of the peritoneal mesothelium and damage to the underlying interstitium is a frequent finding in patients receiving continuous ambulatory peritoneal dialysis as a treatment for end-stage renal failure. The response of the mesothelium to injury from repeated episodes of infection or from exposure to dialysis fluids has not been extensively studied. The present study describes a simple and reproducible method with which to investigate the response of human mesothelial cells to injury.
The model of peritoneal injury consists of mechanically wounding a monolayer of human peritoneal mesothelial cells with a glass probe and following the repopulation of the denuded area by time-lapse photomicroscopy. In addition immunohistochemistry was used to follow the response of marker proteins for stress fibers and focal adhesions as well as macromolecules associated with the extracellular matrix.
Under serum-free conditions the wound (0.58 +/- 0.094 mm; mean +/- SD; N = 20) closed within 72 +/- 5 hours (N = 8). This rate of healing was enhanced by fetal calf serum, by human serum (10%) and by undiluted spent non-infected dialysate. The repair process over the first 48 hours was the result of cell migration, was independent of cell proliferation and involved the de novo synthesis of several different extracellular matrix components. An early event in the healing process was the rapid reorganization of intracellular stress fibers together with the formation of associated focal adhesions in cells at the wound edge.
This in vitro model should prove invaluable in characterizing the process of wound healing within the peritoneal cavity, thus allowing a better understanding of the response to infection as well as any effect of dialysis fluids in this pattern of cell behavior.
腹膜间皮的剥脱以及其下间质的损伤在接受持续性非卧床腹膜透析治疗终末期肾衰竭的患者中很常见。间皮对反复感染发作或接触透析液所致损伤的反应尚未得到广泛研究。本研究描述了一种简单且可重复的方法,用于研究人腹膜间皮细胞对损伤的反应。
腹膜损伤模型包括用玻璃探针机械损伤人腹膜间皮细胞单层,并通过延时显微镜观察裸露区域的细胞重新聚集情况。此外,免疫组织化学用于追踪应激纤维和粘着斑的标记蛋白以及与细胞外基质相关的大分子的反应。
在无血清条件下,伤口(0.58±0.094毫米;平均值±标准差;N = 20)在72±5小时内闭合(N = 8)。胎牛血清、人血清(10%)和未稀释的未感染用过的透析液可提高愈合速度。最初48小时的修复过程是细胞迁移的结果,与细胞增殖无关,并且涉及几种不同细胞外基质成分的重新合成。愈合过程中的一个早期事件是细胞内应激纤维的快速重组以及伤口边缘细胞中相关粘着斑的形成。
这个体外模型在表征腹膜腔内伤口愈合过程方面应具有极高价值,从而有助于更好地理解对感染的反应以及透析液对这种细胞行为模式的任何影响。
