Conversion of adult pancreatic α-cells to β-cells after extreme β-cell loss
Fabrizio Thorel,Virginie Nepote,Isabelle Avril,Kenji Kohno,Renaud Desgraz,Simona Chera,Pedro Luis Herrera +6 more
TLDR
In this article, a transgenic model of diphtheria-toxin-induced acute selective near-total beta-cell ablation was used to investigate whether adult mammals can differentiate (regenerate) new beta-cells after extreme, total β-cell loss, as in diabetes.Abstract:
Pancreatic insulin-producing beta-cells have a long lifespan, such that in healthy conditions they replicate little during a lifetime. Nevertheless, they show increased self-duplication after increased metabolic demand or after injury (that is, beta-cell loss). It is not known whether adult mammals can differentiate (regenerate) new beta-cells after extreme, total beta-cell loss, as in diabetes. This would indicate differentiation from precursors or another heterologous (non-beta-cell) source. Here we show beta-cell regeneration in a transgenic model of diphtheria-toxin-induced acute selective near-total beta-cell ablation. If given insulin, the mice survived and showed beta-cell mass augmentation with time. Lineage-tracing to label the glucagon-producing alpha-cells before beta-cell ablation tracked large fractions of regenerated beta-cells as deriving from alpha-cells, revealing a previously disregarded degree of pancreatic cell plasticity. Such inter-endocrine spontaneous adult cell conversion could be harnessed towards methods of producing beta-cells for diabetes therapies, either in differentiation settings in vitro or in induced regeneration.read more
Citations
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Crosstalk Communications Between Islets Cells and Insulin Target Tissue: The Hidden Face of Iceberg
TL;DR: This review tries to illustrate with current knowledge how β-cells communicate with other cell types and organs in physiological and pathological contexts and will provide a better understanding of the microenvironment and of the context in whichβ-cells exist and how this can influence their survival and function.
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The species origin of the cellular microenvironment influences markers of beta cell fate and function in EndoC-βH1 cells
TL;DR: The data suggests that the tissue origin of the cellular microenvironment has effects on the function of EndoC‐&bgr;H1 cells in vitro, and the use of a more human‐like culture microenvironment may bring benefits in terms of increased physiological relevance.
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Leptin Receptors in RIP-Cre25Mgn Neurons Mediate Anti-dyslipidemia Effects of Leptin in Insulin-Deficient Mice.
Ashish Kumar Singha,Juan Pablo Palavicini,Meixia Pan,Scotlynn Farmer,Darleen A. Sandoval,Xianlin Han,Teppei Fujikawa,Teppei Fujikawa +7 more
TL;DR: Leptin receptors (LEPRs) in neurons expressing Cre recombinase driven by a short fragment of a promoter region of Ins2 gene (RIP-Cre25Mgn neurons) are required for central leptin signaling to reverse dyslipidemia, thereby hyperglycemia in insulin-deficient mice.
Journal ArticleDOI
Reprogramming gut and pancreas endocrine cells to treat diabetes
Eva Tudurí,Timothy J. Kieffer +1 more
TL;DR: Several reports based on the reprogramming of pancreas and gut endocrine cells to treat diabetes are reviewed.
Journal ArticleDOI
La thérapie cellulaire du diabète - Le point sur les actualités
TL;DR: This review focuses on the latest developments in protocols aiming at de novo production of functional β cells in pancreas as a reservoir of facultative progenitors that could represent adequate candidates for β-cell engineering, either in vivo through pharmacological treatment or after expansion in culture.
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