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An inhibitor-mediated beta-cell dedifferentiation model reveals distinct roles for FoxO1 in glucagon repression and insulin maturation

Published inMolecular metabolism, vol. 54, 101329
Publication date2021-12
First online date2021-08-25
Abstract

The loss of forkhead box protein O1 (FoxO1) signaling in response to metabolic stress contributes to the etiology of type II diabetes, causing the dedifferentiation of pancreatic beta cells to a cell type reminiscent of endocrine progenitors. Lack of methods to easily model this process in vitro, however, have hindered progress into the identification of key downstream targets and potential inhibitors. We therefore aimed to establish such an in vitro cellular dedifferentiation model and apply it to identify novel agents involved in the maintenance of beta-cell identity.

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Keywords
  • Beta-cell dedifferentiation
  • Diabetes
  • FoxO1 inhibitor
  • Loperamide
Citation (ISO format)
CASTEELS, Tamara et al. An inhibitor-mediated beta-cell dedifferentiation model reveals distinct roles for FoxO1 in glucagon repression and insulin maturation. In: Molecular metabolism, 2021, vol. 54, p. 101329. doi: 10.1016/j.molmet.2021.101329
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ISSN of the journal2212-8778
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Technical informations

Creation09/30/2021 1:23:00 PM
First validation09/30/2021 1:23:00 PM
Update time03/16/2023 1:30:46 AM
Status update03/16/2023 1:30:44 AM
Last indexation05/06/2024 8:18:08 AM
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