过量的支链氨基酸通过改变断奶仔猪的mRNA甲基化来部分调节脂肪代谢。
Excessive BCAA regulates fat metabolism partially through the modification of mA RNA methylation in weanling piglets.
作者信息
Heng Jinghui, Wu Zhihui, Tian Min, Chen Jiaming, Song Hanqing, Chen Fang, Guan Wutai, Zhang Shihai
机构信息
1Guangdong Province Key Laboratory of Animal Nutrition Control, College of Animal Science, South China Agricultural University, Wushan Avenue, Tianhe District, Guangzhou, 510642 China.
2College of Animal Science and National Engineering Research Center for Breeding Swine Industry, South China Agricultural University, Wushan Avenue, Tianhe District, Guangzhou, 510642 China.
出版信息
Nutr Metab (Lond). 2020 Jan 23;17:10. doi: 10.1186/s12986-019-0424-x. eCollection 2020.
BACKGROUND
Fat percentage and distribution in pigs are associated with their productive efficiency and meat quality. Dietary branched-chain amino acids (BCAA) regulate fat metabolism in weanling piglets with unknown mechanism. It is reported that N6-methyl-adenosine (mA) is involved in fat metabolism in mice. The current study was designed to investigate the relationship between dietary branched-chain amino acids and fat metabolism through N6-methyl-adenosine (mA) in weanling piglets.
METHODS
A total of 18 healthy crossbred weaned piglets (Duroc × Landrace × Large White, 10.45 ± 0.41 kg) were divided into 3 treatments and were fed the low BCAA dose diet (L-BCAA), the normal dose BCAA diet (N-BCAA), or the high dose BCAA (H-BCAA) diet for 3 weeks.
RESULTS
Our results show that compared with the N-BCAA group, the L-BCAA group had higher concentration of serum leptin ( < 0.05), while the H-BCAA group had lower concentration of serum adiponectin ( < 0.05). Fatty acid synthesis in pigs from the H-BCAA group was lower than those from the N-BCAA group with the down-regulation of lipogenic genes (ACACA, FASN, PPAR-r, SREBP-1c in ventral and dorsal fat, SREBP-1c in liver) and up-regulation of lipolysis genes (HSL, ATGL, CPT-1A, FABP4 in ventral fat, HSL in liver) ( < 0.05). Similarly, fatty acid synthesis in pigs from the L-BCAA group was also lower than those from the N-BCAA group with the decrease of lipogenic genes (ACACA in ventral, ACACA and FASN in dorsal fat, ACACA, FASN, SREBP-1c in liver) and the increase of lipolysis genes (ATGL, CPT-1A CD36, FABP4 in ventral fat and HSL, ATGL, CPT-1A in dorsal fat, CPT-1A) ( < 0.05). Feeding H-BCAA diet significantly reduced total mA levels in ventral and dorsal fat and liver tissues ( < 0.05). The decrease of total mA is associated with down-regulation of METTL3, METTL14 and FTO in dorsal fat and METTL3 and FTO in liver ( < 0.05). Decreased mA modification of ACACA and FASN in ventral and dorsal adipose tissues was observed in pig fed with excessive BCAA.
CONCLUSION
These results suggest that insufficient or excessive BCAA decreased the fat deposition by increasing lipolysis and deceasing lipogenesis in adipose and liver tissues. Dietary excessive BCAA might regulate the process of lipid metabolism partly through the mA RNA methylation.
背景
猪的脂肪百分比和分布与其生产效率和肉质相关。日粮支链氨基酸(BCAA)对断奶仔猪脂肪代谢有调节作用,但其机制尚不清楚。据报道,N6-甲基腺苷(m⁶A)参与小鼠脂肪代谢。本研究旨在探讨日粮支链氨基酸与断奶仔猪通过N6-甲基腺苷(m⁶A)介导的脂肪代谢之间的关系。
方法
选取18头健康杂交断奶仔猪(杜洛克×长白×大白,体重10.45±0.41 kg),分为3组,分别饲喂低剂量BCAA日粮(L-BCAA)、正常剂量BCAA日粮(N-BCAA)或高剂量BCAA日粮(H-BCAA),为期3周。
结果
结果显示,与N-BCAA组相比,L-BCAA组血清瘦素浓度较高(P<0.05),而H-BCAA组血清脂联素浓度较低(P<0.05)。H-BCAA组猪的脂肪酸合成低于N-BCAA组,脂肪生成基因(腹侧和背侧脂肪中的ACACA、FASN、PPAR-γ、SREBP-1c,肝脏中的SREBP-1c)下调,脂肪分解基因(腹侧脂肪中的HSL、ATGL、CPT-1A、FABP4,肝脏中的HSL)上调(P<0.05)。同样,L-BCAA组猪的脂肪酸合成也低于N-BCAA组,脂肪生成基因(腹侧的ACACA,背侧脂肪中的ACACA和FASN,肝脏中的ACACA、FASN、SREBP-1c)减少,脂肪分解基因(腹侧脂肪中的ATGL、CPT-1A、CD36、FABP4,背侧脂肪中的HSL、ATGL、CPT-1A,CPT-1A)增加(P<0.05)。饲喂H-BCAA日粮显著降低了腹侧和背侧脂肪及肝脏组织中的总m⁶A水平(P<0.05)。总m⁶A的降低与背侧脂肪中METTL3、METTL14和FTO以及肝脏中METTL3和FTO的下调有关(P<0.05)。在饲喂过量BCAA的猪中,观察到腹侧和背侧脂肪组织中ACACA和FASN的m⁶A修饰减少。
结论
这些结果表明,BCAA不足或过量均通过增加脂肪组织和肝脏中的脂肪分解及减少脂肪生成来降低脂肪沉积。日粮中过量的BCAA可能部分通过m⁶A RNA甲基化调节脂质代谢过程。
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