血清淀粉样蛋白A及其n端四肽对牛主动脉内皮细胞产生前列腺素I2的调节作用。

R Shainkin-Kestenbaum, S Zimlichman, M Lis, L Preciado-Patt, M Fridkin, J Berenheim
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引用次数: 0

摘要

该研究旨在探讨急性期HDL载脂蛋白、血清淀粉样蛋白A (SAA)在内皮细胞产生PGI2的调节中的可能参与。鉴于最近在人动脉粥样硬化病变的内皮细胞中检测到SAA mRNA。人SAA诱导牛主动脉内皮细胞PGI2的形成,其浓度与中度急性期事件相关。50微克/毫升纯化的人SAA使PGI2的产量从平均基础水平2490 +/- 330 pg/ml增加1.80 +/- 0.1倍(n = 10;P < 0.01)。PGI2诱导活性明显存在于SAA分子的n端,即氨基酸残基1-14,50微克/毫升的肽诱导PGI2产量增加2.9 +/- 0.5倍(n = 4;P < 0.03)。TNF和LPS均以浓度和时间依赖的方式诱导PGI2的产生。TNF浓度为10 ng/ml时,在犊牛血清存在的情况下,诱导升高24.9 +/- 2.3倍(n = 4;p < 0.001), LPS浓度为1微克/毫升时,可引起18.3 +/- 1.3倍的增高(n = 4;P < 0.01)。在无血清培养中,10 ng/ml TNF (n = 4)仅检测到2.5 +/- 0.3倍的增加,1微克/ml LPS检测到5.9 +/- 0.4倍的增加。因此,血清对PGI2诱导有很强的作用。当50微克/毫升SAA与1 ng/ml TNF共给药时,PGI2的TNF诱导率从7.7 +/- 2.8倍降低到3.3 +/- 1.2倍(n = 4;P < 0.01)。SAA也会减弱lps介导的活性,尽管减弱的方式不那么明显。我们的发现表明SAA在调节基础和细胞因子诱导的血管内皮生成PGI2方面具有潜在的生理功能。SAA显著调节TNF和LPS诱导PGI2的能力表明,在动脉粥样硬化、细菌感染或感染性休克的情况下,SAA可能在防御血管损伤方面发挥作用。SAA通过其n端结构域诱导PGI2,该结构域也具有抗血小板聚集活性,这表明该肽作为抗高血压和抗血小板聚集剂具有潜在的治疗用途。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modulation of prostaglandin I2 production from bovine aortic endothelial cells by serum amyloid A and its N-terminal tetradecapeptide.

The study was aimed to explore the possible involvement of the acute phase HDL apolipoprotein, serum amyloid A (SAA) in the regulation of PGI2 production by endothelial cells. This, in view of the recent detection of SAA mRNA in endothelial cells of human atherosclerotic lesions. Human SAA induces PGI2 formation in bovine aortic endothelial cells culture in a concentration relevant to moderate acute phase events. 50 micrograms/ml of purified human SAA increases PGI2 production from a mean basal level of 2,490 +/- 330 pg/ml by 1.80 +/- 0.1 fold (n = 10; p < 0.01). The PGI2 inducing activity resides apparently in the N-terminal, i.e. amino acid residues 1-14, of the SAA molecule, 50 micrograms/ml of the peptide induces 2.9 +/- 0.5 fold increase of PGI2 production (n = 4; p < 0.03). TNF and LPS each induce PGI2 production in a concentration and time dependent manner. TNF in concentration of 10 ng/ml induces, in the presence of calf serum, an increase of 24.9 +/- 2.3 fold (n = 4; p < 0.001) and LPS in concentration of 1 microgram/ml causes a 18.3 +/- 1.3 fold increase, (n = 4; p < 0.01). In serum-free cultures, only a 2.5 +/- 0.3 fold increase was detected by 10 ng/ml TNF (n = 4), and a 5.9 +/- 0.4 by 1 microgram/ml of LPS. Thus, serum has a strong effect on PGI2 induction. When 50 micrograms/ml SAA is coadministered with 1 ng/ml TNF it reduces the TNF-induction of PGI2 from 7.7 +/- 2.8 to 3.3 +/- 1.2 fold (n = 4; p < 0.01). SAA attenuates, as well, LPS-mediated activity, although in a less pronounced manner. Our finding suggest a potential physiological function for SAA in regulation of basal and cytokine-induced PGI2 production by vascular endothelium. The capacity of SAA to markedly moderate PGI2 induction by TNF and LPS suggest that it may play a role in defending against vessel damage, in cases of atherosclerosis, bacterial infection or septic shock. The induction of PGI2 by SAA through its N-terminal domain, which also exhibits an anti-platelet aggregation activity, suggests a potential therapeutical use for this peptide as an anti-hypertensive and an anti-aggregatory agent.

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