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. 2020 Feb;2(2):192-209.
doi: 10.1038/s42255-020-0171-3. Epub 2020 Feb 20.

Targeted pharmacological therapy restores β-cell function for diabetes remission

Stephan Sachs #  1   2   3   4 Aimée Bastidas-Ponce #  1   4   5   6 Sophie Tritschler #  1   4   7   8 Mostafa Bakhti  1   4   5 Anika Böttcher  1   4   5 Miguel A Sánchez-Garrido  2 Marta Tarquis-Medina  1   4   5   6 Maximilian Kleinert  2   9 Katrin Fischer  2   3 Sigrid Jall  2   3 Alexandra Harger  2 Erik Bader  1 Sara Roscioni  1 Siegfried Ussar  4   6   10 Annette Feuchtinger  11 Burcak Yesildag  12 Aparna Neelakandhan  12 Christine B Jensen  13 Marion Cornu  13 Bin Yang  14 Brian Finan  14 Richard D DiMarchi  14   15 Matthias H Tschöp  2   3   4 Fabian J Theis  16   17   18 Susanna M Hofmann  19   20   21 Timo D Müller  22   23   24 Heiko Lickert  25   26   27   28
Affiliations

Targeted pharmacological therapy restores β-cell function for diabetes remission

Stephan Sachs et al. Nat Metab. 2020 Feb.

Erratum in

  • Author Correction: Targeted pharmacological therapy restores β-cell function for diabetes remission.
    Sachs S, Bastidas-Ponce A, Tritschler S, Bakhti M, Böttcher A, Sánchez-Garrido MA, Tarquis-Medina M, Kleinert M, Fischer K, Jall S, Harger A, Bader E, Roscioni S, Ussar S, Feuchtinger A, Yesildag B, Neelakandhan A, Jensen CB, Cornu M, Yang B, Finan B, DiMarchi RD, Tschöp MH, Theis FJ, Hofmann SM, Müller TD, Lickert H. Sachs S, et al. Nat Metab. 2020 Apr;2(4):380. doi: 10.1038/s42255-020-0201-1. Nat Metab. 2020. PMID: 33820985 No abstract available.

Abstract

Dedifferentiation of insulin-secreting β cells in the islets of Langerhans has been proposed to be a major mechanism of β-cell dysfunction. Whether dedifferentiated β cells can be targeted by pharmacological intervention for diabetes remission, and ways in which this could be accomplished, are unknown as yet. Here we report the use of streptozotocin-induced diabetes to study β-cell dedifferentiation in mice. Single-cell RNA sequencing (scRNA-seq) of islets identified markers and pathways associated with β-cell dedifferentiation and dysfunction. Single and combinatorial pharmacology further show that insulin treatment triggers insulin receptor pathway activation in β cells and restores maturation and function for diabetes remission. Additional β-cell selective delivery of oestrogen by Glucagon-like peptide-1 (GLP-1-oestrogen conjugate) decreases daily insulin requirements by 60%, triggers oestrogen-specific activation of the endoplasmic-reticulum-associated protein degradation system, and further increases β-cell survival and regeneration. GLP-1-oestrogen also protects human β cells against cytokine-induced dysfunction. This study not only describes mechanisms of β-cell dedifferentiation and regeneration, but also reveals pharmacological entry points to target dedifferentiated β cells for diabetes remission.

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