Kowanko I C, Bates E J, Ferrante A
Department of Immunology, Adelaide Children's Hospital, Australia.
Arthritis Rheum. 1992 Aug;35(8):918-25. doi: 10.1002/art.1780350811.
Platelet-activating factor (PAF), which stimulates the release of tissue-destructive enzymes and reactive oxygen metabolites from neutrophils, was investigated for its role in neutrophil-mediated cartilage breakdown.
Bovine cartilage explants were incubated with or without human neutrophils, PAF, and other reagents. Cartilage damage was measured as either proteoglycan degradation (percent release of 35S-labeled proteoglycan from 35S-labeled cartilage) or inhibition of proteoglycan synthesis (rate of incorporation of 35S into proteoglycan).
PAF increased neutrophil-mediated proteoglycan degradation in the 2-20 microM range. Three specific PAF-receptor antagonists, WEB2086, CV3988, and CV6209, reversed this effect of PAF. These antagonists also reduced the enhancement of neutrophil-mediated cartilage damage caused by granulocyte-macrophage colony-stimulating factor (GM-CSF) and tumor necrosis factor alpha (TNF alpha). The results suggest that there may be a positive feedback mechanism whereby cytokine-primed neutrophils produce PAF, which amplifies the release of other tissue-damaging substances from neutrophils. In the absence of neutrophils, PAF (2-20 microM) inhibited the synthesis of proteoglycan by bovine cartilage. Neutrophils also inhibit proteoglycan synthesis, but PAF probably is not involved in this effect of neutrophils because the PAF receptor antagonists had no consistent effect.
PAF increases neutrophil-mediated cartilage proteoglycan degradation in vitro. GM-CSF and TNF alpha enhancement of neutrophil damage to cartilage is partly due to PAF. PAF alone inhibits cartilage proteoglycan synthesis.
研究血小板活化因子(PAF)在中性粒细胞介导的软骨破坏中的作用,PAF可刺激中性粒细胞释放组织破坏性酶和活性氧代谢产物。
将牛软骨外植体与人类中性粒细胞、PAF及其他试剂一起或不一起孵育。通过蛋白聚糖降解(35S标记软骨中35S标记蛋白聚糖的释放百分比)或蛋白聚糖合成抑制(35S掺入蛋白聚糖的速率)来测量软骨损伤。
PAF在2-20微摩尔范围内增加了中性粒细胞介导的蛋白聚糖降解。三种特异性PAF受体拮抗剂WEB2086、CV3988和CV6209可逆转PAF的这种作用。这些拮抗剂还减少了粒细胞-巨噬细胞集落刺激因子(GM-CSF)和肿瘤坏死因子α(TNFα)引起的中性粒细胞介导的软骨损伤增强。结果表明可能存在一种正反馈机制,即细胞因子引发的中性粒细胞产生PAF,从而放大中性粒细胞释放其他组织损伤物质。在没有中性粒细胞的情况下,PAF(2-20微摩尔)抑制牛软骨蛋白聚糖的合成。中性粒细胞也抑制蛋白聚糖合成,但PAF可能不参与中性粒细胞的这种作用,因为PAF受体拮抗剂没有一致的作用。
PAF在体外增加中性粒细胞介导的软骨蛋白聚糖降解。GM-CSF和TNFα增强中性粒细胞对软骨的损伤部分归因于PAF。单独的PAF抑制软骨蛋白聚糖合成。
