Centre de Recherche Cardiovasculaire et Nutritionnelle (C2VN), INSERM, Institut National de la Recherche Agricole (INRA), BioMet, Aix-Marseille University, Marseille, France.
Laboratoire de Neuroendocrinologie Moléculaire de la Prise Alimentaire (NMPA), Centre de Neurosciences Université Paris-Sud (CNPS), Orsay, France.
FASEB J. 2018 Sep;32(9):4776-4790. doi: 10.1096/fj.201800034R. Epub 2018 Mar 22.
We evaluated the effect of adding docosahexaenoic:arachidonic acids (3:2) (DHA+ARA) to 2 representative commercial infant formulas on brain activity and brain and eye lipids in an artificially reared rat pup model. The formula lipid background was either a pure plant oil blend, or dairy fat with a plant oil blend (1:1). Results at weaning were compared to breast milk-fed pups. Brain functional activity was determined by positron emission tomography scan imaging, the brain and eye fatty acid and lipid composition by targeted and untargeted lipidomics, and DHA brain regional location by mass-spectrometry imaging. The brain functional activity was normalized to controls with DHA+ARA added to the formulas. DHA in both brain and eyes was influenced by formula intake, but more than two-thirds of tissue DHA-glycerolipids remained insensitive to the dietary challenge. However, the DHA lipidome correlated better with brain function than sole DHA content ( r = 0.70 vs. r = 0.48; P < 0.05). Brain DHA regional distribution was more affected by the formula lipid background than the provision of PUFAs. Adding DHA+ARA to formulas alters the DHA content and lipidome of nervous tissue in the neonate, making it closer to dam milk-fed controls, and normalizes brain functional activity.-Aidoud, N., Delplanque, B., Baudry, C., Garcia, C., Moyon, A., Balasse, L., Guillet, B., Antona, C., Darmaun, D., Fraser, K., Ndiaye, S., Leruyet, P., Martin, J.-C. A combination of lipidomics, MS imaging, and PET scan imaging reveals differences in cerebral activity in rat pups according to the lipid quality of infant formulas.
我们评估了在人工饲养的大鼠幼崽模型中,向两种代表性的商业婴儿配方奶粉中添加二十二碳六烯酸:花生四烯酸(3:2)(DHA+ARA)对大脑活动以及大脑和眼睛脂质的影响。配方的脂质背景是纯植物油脂混合物,或乳制品脂肪与植物油脂混合物(1:1)。在断奶时将结果与母乳喂养的幼崽进行比较。通过正电子发射断层扫描成像来确定大脑的功能活性,通过靶向和非靶向脂质组学来确定大脑和眼睛的脂肪酸和脂质组成,通过质谱成像来确定 DHA 在大脑中的区域位置。将大脑的功能活性与向配方中添加 DHA+ARA 的对照组进行归一化。DHA 在大脑和眼睛中的含量都受到配方摄入的影响,但超过三分之二的组织 DHA-甘油磷脂对饮食挑战仍不敏感。然而,DHA 脂质组与大脑功能的相关性优于仅 DHA 含量(r = 0.70 对 r = 0.48;P < 0.05)。大脑 DHA 区域分布受配方脂质背景的影响大于多不饱和脂肪酸的供应。向配方中添加 DHA+ARA 会改变新生儿神经组织的 DHA 含量和脂质组,使其更接近母乳喂养的对照组,并使大脑功能活性正常化。- Aidoud, N., Delplanque, B., Baudry, C., Garcia, C., Moyon, A., Balasse, L., Guillet, B., Antona, C., Darmaun, D., Fraser, K., Ndiaye, S., Leruyet, P., Martin, J.-C. 脂质组学、MS 成像和 PET 扫描成像的组合显示,根据婴儿配方奶粉的脂质质量,幼鼠大脑活动存在差异。
