Terzaghi W B
Department of Biology, University of Utah, Salt Lake City, Utah 84112.
Plant Physiol. 1986 Nov;82(3):780-6. doi: 10.1104/pp.82.3.780.
Uptake of Tween-fatty acid esters and incorporation of the fatty acids into lipids by soybean (Glycine max [L.] Merr.) suspension cultures was investigated, together with subsequent turnover of the incorporated fatty acids and associated changes in endogenous fatty acid synthesis. Tween uptake was saturable, and fatty acids were rapidly transferred from Tweens to all acylated lipids. Patterns of incorporation into glycerolipids were similar in cells treated with Tweens carrying [1-(14)C]-fatty acids and in cells treated with [1-(14)C]acetate, indicating that exogenous fatty acids were used for glycerolipid synthesis essentially as if they had been made by the cell. In Tween-treated cells neutral lipids (which include Tweens) initially accounted for the majority of lipid radioactivity. Radioactivity was then rapidly transferred to glycerolipids. A transient pool of free fatty acids accounting for up to 10% of lipid radioactivity was observed. This was consistent with the hypothesis that fatty acids are transferred from Tweens to lipids by deacylation of the Tweens, creating a pool of free fatty acids which are then used for lipid synthesis. Sterols were only slightly labeled in cells treated with Tweens, but accounted for nearly 50% of lipid radioactivity in cells treated with acetate. This suggested very little degradation and reutilization of the radioactive fatty acids in cells treated with Tweens. In cells treated with either [1-(14)C]acetate or Tween-[1-(14)C]-18:1, 70% of the initial fatty acid radioactivity remained in fatty acids after a 100 hour chase. By contrast, fatty acids not normally present disappeared more rapidly, suggesting differential treatment of such fatty acids compared with those normally present. Cells which had incorporated large amounts of exogenous fatty acids altered fatty acid synthesis in three distinct ways: (a) amounts of [1-(14)C]acetate incorporated into fatty acids were reduced; (b) cells incorporating exogenous unsaturated fatty acids increased the proportion of [1-(14)C]acetate partitioned into saturated fatty acids, while the converse was true of cells which had incorporated exogenous saturated fatty acids; (c) desaturation of 18:1 to 18:2 and 18:3 was reduced in cells which had incorporated unsaturated fatty acids. These results suggest that Tween-fatty acid esters will be useful for supplying fatty acids to cells for a variety of studies related to fatty acid or membrane metabolism.
研究了大豆(Glycine max [L.] Merr.)悬浮培养物对吐温脂肪酸酯的摄取以及脂肪酸掺入脂质的情况,同时研究了掺入脂肪酸的后续周转以及内源性脂肪酸合成的相关变化。吐温的摄取具有饱和性,脂肪酸能迅速从吐温转移到所有酰化脂质中。用携带[1-(14)C]-脂肪酸的吐温处理的细胞和用[1-(14)C]乙酸盐处理的细胞中,脂肪酸掺入甘油脂质的模式相似,这表明外源脂肪酸用于甘油脂质合成的方式,基本上就如同它们是由细胞自身合成的一样。在吐温处理的细胞中,中性脂质(包括吐温)最初占脂质放射性的大部分。然后放射性迅速转移到甘油脂质中。观察到一个游离脂肪酸的瞬时池,其占脂质放射性的比例高达10%。这与以下假设一致:脂肪酸通过吐温的脱酰作用从吐温转移到脂质中,形成一个游离脂肪酸池,然后用于脂质合成。在用吐温处理的细胞中,甾醇仅有轻微标记,但在用乙酸盐处理的细胞中,甾醇占脂质放射性的近5%。这表明在用吐温处理的细胞中,放射性脂肪酸的降解和再利用很少。在用[1-(14)C]乙酸盐或吐温-[1-(14)C]-18:1处理的细胞中,经过100小时追踪后,初始脂肪酸放射性的70%仍保留在脂肪酸中。相比之下,正常情况下不存在的脂肪酸消失得更快,这表明与正常存在之脂肪酸相比,此类脂肪酸受到不同的处理。大量掺入外源脂肪酸的细胞以三种不同方式改变脂肪酸合成:(a)掺入脂肪酸中的[1-(14)C]乙酸盐的量减少;(b)掺入外源不饱和脂肪酸的细胞增加了分配到饱和脂肪酸中的[1-(14)C]乙酸盐的比例,而掺入外源饱和脂肪酸的细胞情况则相反;(c)掺入不饱和脂肪酸的细胞中,18:1向18:2和18:3的去饱和作用降低。这些结果表明,吐温脂肪酸酯将有助于为细胞提供脂肪酸,用于与脂肪酸或膜代谢相关的各种研究。