Literature DB >> 31991105

Metabolic Control over mTOR-Dependent Diapause-like State.

Abdiasis M Hussein1, Yuliang Wang2, Julie Mathieu3, Lilyana Margaretha4, Chaozhong Song5, Daniel C Jones6, Christopher Cavanaugh7, Jason W Miklas8, Elisabeth Mahen5, Megan R Showalter9, Walter L Ruzzo10, Oliver Fiehn9, Carol B Ware7, C Anthony Blau5, Hannele Ruohola-Baker11.   

Abstract

Regulation of embryonic diapause, dormancy that interrupts the tight connection between developmental stage and time, is still poorly understood. Here, we characterize the transcriptional and metabolite profiles of mouse diapause embryos and identify unique gene expression and metabolic signatures with activated lipolysis, glycolysis, and metabolic pathways regulated by AMPK. Lipolysis is increased due to mTORC2 repression, increasing fatty acids to support cell survival. We further show that starvation in pre-implantation ICM-derived mouse ESCs induces a reversible dormant state, transcriptionally mimicking the in vivo diapause stage. During starvation, Lkb1, an upstream kinase of AMPK, represses mTOR, which induces a reversible glycolytic and epigenetically H4K16Ac-negative, diapause-like state. Diapause furthermore activates expression of glutamine transporters SLC38A1/2. We show by genetic and small molecule inhibitors that glutamine transporters are essential for the H4K16Ac-negative, diapause state. These data suggest that mTORC1/2 inhibition, regulated by amino acid levels, is causal for diapause metabolism and epigenetic state.
Copyright © 2020 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  H4K16Ac; LKB1; amino acids; diapause; epigenetics; glutamine transporter; lipolysis; mTOR; metabolism; pluripotent stem cells

Mesh:

Substances:

Year:  2020        PMID: 31991105      PMCID: PMC7204393          DOI: 10.1016/j.devcel.2019.12.018

Source DB:  PubMed          Journal:  Dev Cell        ISSN: 1534-5807            Impact factor:   12.270


  90 in total

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