1,3-二油酸-2-棕榈酸甘油三酯干预下断奶期小鼠肠道菌群及其代谢变化OA
Changes in the Intestinal Flora and Metabolism of Weanling Mice under the Intervention of 1,3-Dioleic Acid-2-Palmitic Acid Triglycerides
为了研究1,3-二油酸-2-棕榈酸甘油三酯(OPO)对断奶期小鼠肠道健康的影响,通过饲养断奶期小鼠4周,以对照组(CON组)、低剂量OPO组和高剂量OPO组进行比较,分析血清炎症水平、肠道组织形态、紧密连接蛋白基因表达、肠道通透性指标、肠道菌群多样性和短链脂肪酸变化等指标.结果显示,与CON组相比,LOPO组小鼠血清中TNF-α和IL-1β 含量分别降低 9.05%(P<0.01)和9.71%(P<0.05);HOPO 组分别降低 10.71%(P<0.001)和7.84%.LOPO 组claudin-1 相对 mRNA 表达量相较 CON 组增加了 31.37%(P<0.05),而 HOP O 组增加了 38.24%(P<0.001).同时,LOPO组和HOPO小鼠血清LPS含量相较CON组分别下降了 8.43%和8.66%(P<0.05).此外,膳食OPO调节了肠道菌群组成,增加了 Akkermansia、Dubosiella和Bifidobacterium的相对丰度,减少了 Desulfovibrio的相对丰度.SCFAs结果显示,与CON组相比,LOPO组乙酸、丙酸、正丁酸和正戊酸的含量分别增加了 162.32%、72.7%、216.24%和25.2%;HOPO组分别增加了 160.68%、74.58%、163.85%和23.03%(P<0.001).综上,膳食OPO可通过调节肠道菌群及相关SCFAs代谢,增强断奶期小鼠肠道屏障功能、抑制全身炎症反应,为OPO靶向调控肠道菌群提供了理论基础.
To investigate the effects of 1,3-dioleoyl-2-palmitoyl-glycerol(OPO)on the gut health of weanling mice,we fed weanling mice for four weeks,classified them into three groups:the control group(CON group),the low-dose OPO(LOPO)group,and the high-dose OPO(HOPO)group,and compared the groups.Various indicators were analyzed,such as serum inflammation levels,intestinal tissue morphology,gene expression of tight junction proteins,intestinal permeability markers,gut microbiota diversity,and changes in short-chain fatty acids(SCFAs).The results showed that,compared with the CON group,serum levels of TNF-α and IL-1β decreased by 9.05%(P<0.01)and 9.71%(P<0.05),respectively,in the LOPO group and 10.71%(P<0.001)and 7.84%,respectively,in the HOPO group.The relative mRNA expression of claudin-1 increased by 31.37%(P<0.05)in the LOPO group when compared with the CON group,whereas the value increased by 38.24%(P<0.001)in the HOPO group.Additionally,serum LPS levels in the LOPO and HOPO groups decreased by 8.43%and 8.66%(P<0.05),respectively,compared with the CON group.Furthermore,dietary OPO regulated the gut microbiota composition,increasing the relative abundance of Akkermansia,Dubosiella,and Bifidobacterium and decreasing the relative abundance of Desulfovibrio.SCFA results indicated that,compared with the CON group,the contents of acetic acid,propionic acid,butyric acid,and valeric acid increased by 162.32%,72.7%,216.24%,and 25.2%,respectively,in the LOPO group and by 160.68%,74.58%,163.85%,and 23.03%,respectively,in the HOPO group(P<0.001).In conclusion,dietary OPO may enhance intestinal barrier function and inhibit systemic inflammatory responses in weanling mice by modulating gut microbiota and related SCFA metabolism.These findings provide a theoretical basis for targeted regulation of gut microbiota by OPO.
罗时雨;庞超;杨继国;杨占东
华南理工大学食品科学与工程学院,广东 广州 510640华南理工大学食品科学与工程学院,广东 广州 510640华南理工大学食品科学与工程学院,广东 广州 510640||岭南现代农业科学与技术广东省实验室河源分中心,广东河源 517000广州实验室,广东 广州 510320
OPO结构脂肠道屏障肠道菌群短链脂肪酸
OPO structural lipidsintestinal barrierintestinal florashort chain fatty acids
《现代食品科技》 2026 (4)
1-10,10
国家重点研发计划项目(2022YFF1100103)
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