Sarris G E, Fann J I, Sokoloff M H, Smith D L, Loveday M, Kosek J C, Stephens R J, Cooper A D, May K, Willis A L
Department of Cardiovascular Surgery, Stanford University School of Medicine, California 94305.
Circulation. 1989 Sep;80(3 Pt 1):I109-23.
Favorable changes in lipoproteins, inhibition of platelet aggregation, reduction of serum thromboxane (TX), altered plasma-membrane fluidity, and reduced production of growth factors (mitogens) have all been implicated as possibly being involved in the inhibition of arteriosclerosis by fish oil (FO), which is rich in omega 3 fatty acids; however, causal relations are mostly lacking. Several putative mechanisms responsible for the salutary effects of FO were investigated in a canine model of accelerated vein-graft arteriosclerosis. Venoarterial autografts (N = 192) were implanted in 48 hypercholesterolemic dogs divided into six groups: group A, control; B, FO (as MaxEPA, 200 mg/kg/day eicosapentaenoic acid); C, aspirin (ASA, 50 mg/kg/day); D, TX synthetase inhibitor (TXSI [CGS-12970], 10 mg/kg/day); E, FO + ASA; and F, FO + TXSI. At sacrifice 3 months later, there was no significant difference in plasma lipoproteins, hepatic low density lipoprotein-receptor concentration, red blood cell fragility, bleeding time, or platelet count compared with controls; the decrease in platelet aggregation (30 +/- 5% [mean +/- SEM]) was similar in all treatment groups. Arterialized vein-graft intimal thickening was significantly inhibited by FO (with or without ASA), while ASA alone was ineffective. Conversely, serum TX was significantly lower only in the ASA and FO + ASA groups. Serum mitogenic activity was higher at 3 months in the control group versus all treatment groups. Compared with baseline values, serum mitogenic activity rose significantly over time in the control and the TXSI groups, and an increase or rising trend was present in all other treatment groups except for the FO-treated animals. Thus, the salutary biologic effect of FO in this hypercholesterolemic model of arterialized vein grafts may have been more related to in vivo inhibition of platelet-mitogen growth factor release than to changes in lipoproteins, low density lipoprotein receptors, platelet function, or eicosanoid metabolism. These observations underscore the need for further studies to clarify the interactions between FO (omega 3 fatty acids) and paracrine cellular mitogenic factors in the context of atherosclerosis prevention.
脂蛋白的有益变化、血小板聚集的抑制、血清血栓素(TX)的降低、质膜流动性的改变以及生长因子(促细胞分裂剂)产生的减少,都被认为可能与富含ω-3脂肪酸的鱼油(FO)对动脉硬化的抑制作用有关;然而,大多缺乏因果关系。在犬类加速静脉移植动脉硬化模型中,研究了几种可能导致FO有益作用的机制。将静脉动脉自体移植物(N = 192)植入48只高胆固醇血症犬,分为六组:A组为对照组;B组为FO组(作为MaxEPA,二十碳五烯酸200毫克/千克/天);C组为阿司匹林(ASA,50毫克/千克/天);D组为TX合成酶抑制剂(TXSI [CGS - 12970],10毫克/千克/天);E组为FO + ASA;F组为FO + TXSI。3个月后处死动物时,与对照组相比,血浆脂蛋白、肝脏低密度脂蛋白受体浓度、红细胞脆性、出血时间或血小板计数无显著差异;所有治疗组血小板聚集的降低程度(30 +/- 5% [平均值 +/- 标准误])相似。FO(无论是否与ASA联用)可显著抑制动脉化静脉移植物内膜增厚,而单独使用ASA无效。相反,仅ASA组和FO + ASA组的血清TX显著降低。对照组3个月时的血清促有丝分裂活性高于所有治疗组。与基线值相比,对照组和TXSI组的血清促有丝分裂活性随时间显著升高,除FO治疗的动物外,所有其他治疗组均有升高或上升趋势。因此,在这个动脉化静脉移植物的高胆固醇血症模型中,FO的有益生物学效应可能更多地与体内抑制血小板 - 促细胞分裂生长因子释放有关,而非与脂蛋白、低密度脂蛋白受体、血小板功能或类花生酸代谢的变化有关。这些观察结果强调了进一步研究以阐明FO(ω-3脂肪酸)与旁分泌细胞促有丝分裂因子在动脉粥样硬化预防背景下相互作用的必要性。
