@article{baptissart_bradish_jones_walsh_tehrani_marrero-colon_mehta_jima_oh_diehl_et al._2022, title={Zac1 and the Imprinted Gene Network program juvenile NAFLD in response to maternal metabolic syndrome}, volume={2}, ISSN={["1527-3350"]}, url={https://doi.org/10.1002/hep.32363}, DOI={10.1002/hep.32363}, abstractNote={Within the next decade, NAFLD is predicted to become the most prevalent cause of childhood liver failure in developed countries. Predisposition to juvenile NAFLD can be programmed during early life in response to maternal metabolic syndrome (MetS), but the underlying mechanisms are poorly understood. We hypothesized that imprinted genes, defined by expression from a single parental allele, play a key role in maternal MetS‐induced NAFLD, due to their susceptibility to environmental stressors and their functions in liver homeostasis. We aimed to test this hypothesis and determine the critical periods of susceptibility to maternal MetS.}, journal={HEPATOLOGY}, author={Baptissart, Marine and Bradish, Christine M. and Jones, Brie S. and Walsh, Evan and Tehrani, Jesse and Marrero-Colon, Vicmarie and Mehta, Sanya and Jima, Dereje D. and Oh, Seh Hoon and Diehl, Anna Mae and et al.}, year={2022}, month={Feb} }