Title | Early life high fructose exposure disrupts microglia function and impedes neurodevelopment. |
Publication Type | Journal Article |
Year of Publication | 2023 |
Authors | Wang Z, Lipshutz A, Liu Z-L, Trzeciak AJ, Miranda IC, de la Torre CMartÃnez, Schild T, Lazarov T, Rojas WSaitz, Saavedra PHV, Romero-Pichardo JE, Baako A, Geissmann F, Faraco G, Gan L, Etchegaray JIker, Lucas CD, Parkhurst CN, Zeng MY, Keshari KR, Perry JSA |
Journal | bioRxiv |
Date Published | 2023 Aug 15 |
Abstract | Despite the success of fructose as a low-cost food additive, recent epidemiological evidence suggests that high fructose consumption by pregnant mothers or during adolescence is associated with disrupted neurodevelopment 1-7 . An essential step in appropriate mammalian neurodevelopment is the synaptic pruning and elimination of newly-formed neurons by microglia, the central nervous system's (CNS) resident professional phagocyte 8-10 . Whether early life high fructose consumption affects microglia function and if this directly impacts neurodevelopment remains unknown. Here, we show that both offspring born to dams fed a high fructose diet and neonates exposed to high fructose exhibit decreased microglial density, increased uncleared apoptotic cells, and decreased synaptic pruning in vivo . Importantly, deletion of the high affinity fructose transporter SLC2A5 (GLUT5) in neonates completely reversed microglia dysfunction, suggesting that high fructose directly affects neonatal development. Mechanistically, we found that high fructose treatment of both mouse and human microglia suppresses synaptic pruning and phagocytosis capacity which is fully reversed in GLUT5-deficient microglia. Using a combination of in vivo and in vitro nuclear magnetic resonance- and mass spectrometry-based fructose tracing, we found that high fructose drives significant GLUT5-dependent fructose uptake and catabolism, rewiring microglia metabolism towards a hypo-phagocytic state. Importantly, mice exposed to high fructose as neonates exhibited cognitive defects and developed anxiety-like behavior which were rescued in GLUT5-deficient animals. Our findings provide a mechanistic explanation for the epidemiological observation that early life high fructose exposure is associated with increased prevalence of adolescent anxiety disorders. |
DOI | 10.1101/2023.08.14.553242 |
Alternate Journal | bioRxiv |
PubMed ID | 37645894 |
PubMed Central ID | PMC10462086 |