补充二十二碳六烯酸和n-6二十二碳五烯酸会改变大鼠骨骼肌脂肪酸组成。
Docosahexaenoic acid and n-6 docosapentaenoic acid supplementation alter rat skeletal muscle fatty acid composition.
作者信息
Stark Ken D, Lim Sun-Young, Salem Norman
机构信息
Laboratory of Nutritional and Nutraceutical Research, Department of Kinesiology, University of Waterloo, Waterloo, ON, Canada.
出版信息
Lipids Health Dis. 2007 Apr 25;6:13. doi: 10.1186/1476-511X-6-13.
BACKGROUND
Docosahexaenoic acid (22:6n-3, DHA) and n-6 docosapentaenoic acid (22:5n-6, DPAn-6) are highly unsaturated fatty acids (HUFA, > or = 20 carbons, > or = 3 double bonds) that differ by a single carbon-carbon double bond at the Delta19 position. Membrane 22:6n-3 may support skeletal muscle function through optimal ion pump activity of sarcoplasmic reticulum and electron transport in the mitochondria. Typically n-3 fatty acid deficient feeding trials utilize linoleic acid (18:2n-6, LA) as a comparison group, possibly introducing a lower level of HUFA in addition to n-3 fatty acid deficiency. The use of 22:5n-6 as a dietary control is ideal for determining specific requirements for 22:6n-3 in various physiological processes. The incorporation of dietary 22:5n-6 into rat skeletal muscles has not been demonstrated previously. A one generation, artificial rearing model was utilized to supply 22:6n-3 and/or 22:5n-6 to rats from d2 after birth to adulthood. An n-3 fatty acid deficient, artificial milk with 18:2n-6 was supplemented with 22:6n-3 and/or 22:5n-6 resulting in four artificially reared (AR) dietary groups; AR-LA, AR-DHA, AR-DPAn-6, AR-DHA+DPAn-6. A dam reared group (DAM) was included as an additional control. Animals were sacrificed at 15 wks and soleus, white gastrocnemius and red gastrocnemius muscles were collected for fatty acid analyses.
RESULTS
In all muscles of the DAM group, the concentration of 22:5n-6 was significantly lower than 22:6n-3 concentrations. While 22:5n-6 was elevated in the AR-LA group and the AR-DPAn-6 group, 20:4n-6 tended to be higher in the AR-LA muscles and not in the AR-DPAn-6 muscles. The AR-DHA+DPAn-6 had a slight, but non-significant increase in 22:5n-6 content. In the red gastrocnemius of the AR-DPAn-6 group, 22:5n-6 levels (8.1 +/- 2.8 wt. %) did not reciprocally replace the 22:6n-3 levels observed in AR-DHA reared rats (12.2 +/- 2.3 wt. %) suggesting a specific preference/requirement for 22:6n-3 in red gastrocnemius.
CONCLUSION
Dietary 22:5n-6 is incorporated into skeletal muscles and appears to largely compete with 22:6n-3 for incorporation into lipids. In contrast, 18:2n-6 feeding tends to result in elevations of 20:4n-6 and restrained increases of 22:5n-6. As such, 22:5n-6 dietary comparison groups may be useful in elucidating specific requirements for 22:6n-3 to support optimal health and disease prevention.
背景
二十二碳六烯酸(22:6n-3,DHA)和n-6二十二碳五烯酸(22:5n-6,DPAn-6)是高度不饱和脂肪酸(HUFA,碳数≥20,双键数≥3),它们在Δ19位置仅相差一个碳-碳双键。膜中的22:6n-3可能通过肌浆网的最佳离子泵活性和线粒体中的电子传递来支持骨骼肌功能。通常,n-3脂肪酸缺乏喂养试验使用亚油酸(18:2n-6,LA)作为对照组,这除了导致n-3脂肪酸缺乏外,还可能引入较低水平的HUFA。使用22:5n-6作为饮食对照对于确定22:6n-3在各种生理过程中的特定需求是理想的。此前尚未证实膳食中的22:5n-6能掺入大鼠骨骼肌中。利用一代人工饲养模型从出生后第2天到成年向大鼠供应22:6n-3和/或22:5n-6。在缺乏n-3脂肪酸且含有18:2n-6的人工乳中添加22:6n-3和/或22:5n-6,形成四个人工饲养(AR)饮食组;AR-LA、AR-DHA、AR-DPAn-6、AR-DHA+DPAn-6。另外纳入一个母代饲养组(DAM)作为对照。在15周时处死动物,采集比目鱼肌、白色腓肠肌和红色腓肠肌进行脂肪酸分析。
结果
在DAM组的所有肌肉中,22:5n-6的浓度显著低于22:6n-3的浓度。虽然AR-LA组和AR-DPAn-6组中22:5n-6有所升高,但AR-LA组肌肉中20:4n-6往往更高,而AR-DPAn-6组肌肉中并非如此。AR-DHA+DPAn-6组中22:5n-6含量有轻微但不显著的增加。在AR-DPAn-6组的红色腓肠肌中,22:5n-6水平(8.1±2.8 wt.%)并未相互替代AR-DHA饲养大鼠中观察到的22:6n-3水平(12.2±2.3 wt.%),这表明红色腓肠肌对22:6n-3有特定的偏好/需求。
结论
膳食中的22:5n-6可掺入骨骼肌,并且似乎在很大程度上与22:6n-3竞争掺入脂质。相比之下,喂养18:2n-6往往会导致20:4n-6升高以及22:5n-6的增加受到抑制。因此,22:5n-6膳食对照组可能有助于阐明对22:6n-3的特定需求,以支持最佳健康和疾病预防。
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