PR002703 (Project)

Description:Pluripotent stem cell (SC)-derived islets offer hope as a renewable source for β cell replacement for type 1 diabetes (T1D), yet functional and metabolic immaturity may limit their long-term therapeutic potential. Here, we show that limitations in mitochondrial transcriptional programming impede the formation of SC-derived β (SC-β) cells. Utilizing transcriptomic profiling, assessments of chromatin accessibility, mitochondrial phenotyping, and lipidomics analyses, we observed that SC-β cells exhibit reduced oxidative and mitochondrial fatty acid metabolism compared to primary human islets that are related to limitations in key mitochondrial transcriptional networks. Surprisingly, we find that reductions in glucose-stimulated mitochondrial respiration in SC-islets were not associated with alterations in mitochondrial mass, structure, or genome integrity. In contrast, SC-islets show limited expression of targets of PPAR⍺, which regulate mitochondrial programming, yet whose functions in β cell differentiation are unknown. Importantly, treatment with WY14643, a potent PPAR⍺ agonist, induced expression of mitochondrial targets, improved insulin secretion, and increased the formation of SC-β cells both in vitro and following transplantation. Thus, PPAR⍺-dependent mitochondrial programming promotes the differentiation of SC-β cells and may be a promising target to improve β cell replacement efforts for T1D.
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Biosample

A biosample from Metabolomics produced as part of the PR002703 project

Biosample

A biosample from Metabolomics produced as part of the PR002703 project

Biosample

A biosample from Metabolomics produced as part of the PR002703 project

Subject

A subject produced as part of the PR002703 project

Biosample

A biosample from Metabolomics produced as part of the PR002703 project

Biosample

A biosample from Metabolomics produced as part of the PR002703 project

Biosample

A biosample from Metabolomics produced as part of the PR002703 project

Biosample

A biosample from Metabolomics produced as part of the PR002703 project

Biosample

A biosample from Metabolomics produced as part of the PR002703 project

Biosample

A biosample from Metabolomics produced as part of the PR002703 project

  • Biosample

    A biosample from Metabolomics produced as part of the PR002703 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002703 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002703 project


  • Subject

    A subject produced as part of the PR002703 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002703 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002703 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002703 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002703 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002703 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002703 project

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