Dietary Folic Acid Supplementation Inhibits HighFat DietInduced Body Weight Gain through Gut Microbiota-Associated Branched-Chain Amino Acids and Mitochondria in Mice.

The effects of folic acid on body weight gain in obesity and gut microbiota-associated branched-chain amino acids (BCAAs) and mitochondrial function were investigated. Three- to four-wk-old male C57BL/6J conventional (CV) and germ-free (GF) mice were fed a high-fat diet (HD), folic acid-supplemented HD (FSHD) and a normal-fat diet (ND) for 25 wk. In CV mice, the HD-induced increases in body weight and plasma BCAA concentrations, downregulated expression of genes related to BCAA catabolism (Bcat2, Bckdha, or Ppm1k), mitochondrial biogenesis (Pgc-1α, Cox1, Nd1 or Nd6), fusion (Mfn1, Mfn2 or Opa1) and mitophagy (Pink1 or Park2), and upregulated expression of the fission-associated gene Drp1 in epididymal fat were reversely corrected with FSHD feeding. In contrast, the expression of these genes in the liver was the opposite under HD feeding or folic acid supplementation. In GF mice, plasma BCAA concentrations were much less affected by HD feeding and were reduced by FSHD feeding, with almost no alterations in the expression of genes associated with BCAA catabolism and mitochondrial function. Further analysis indicated a correlation between adipose and hepatic Mt C/N and plasma BCAA concentrations, and the latter had a close association with specific gut bacteria. Therefore, dietary folic acid supplementation differentially affected body weight gain, BCAA catabolism, and mitochondrial dynamics and metabolism under HD feeding between CV and GF mice, suggesting that gut bacteria-altered BCAAs and mitochondria might partially share the responsibility for the beneficial effects of dietary folic acid on obesity.