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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Journal ArticleDOI
β-Cell Fate in Human Insulin Resistance and Type 2 Diabetes: A Perspective on Islet Plasticity
Teresa Mezza,Teresa Mezza,Francesca Cinti,Francesca Cinti,Chiara Maria Assunta Cefalo,Chiara Maria Assunta Cefalo,Alfredo Pontecorvi,Alfredo Pontecorvi,Rohit N. Kulkarni,Andrea Giaccari,Andrea Giaccari +10 more
TL;DR: Evidence of islet plasticity in humans—from the normal state, progressing to insulin resistance to overt T2D—is focused on to explain the seemingly contradictory results from different cross-sectional studies in the literature.
Journal ArticleDOI
Metabolic Regulation of Cellular Plasticity in the Pancreas
Nikolay Ninov,Nikolay Ninov,Daniel Hesselson,Daniel Hesselson,Daniel Hesselson,Philipp Gut,Amy Zhou,Kevin Fidelin,Kevin Fidelin,Didier Y.R. Stainier,Didier Y.R. Stainier +10 more
TL;DR: Critical insights are revealed into how cells modulate their plasticity in response to metabolic cues and nutrient-sensitive progenitors in the mature pancreas are identified.
Journal ArticleDOI
Pancreatic α- and β-cellular clocks have distinct molecular properties and impact on islet hormone secretion and gene expression
Volodymyr Petrenko,Camille Saini,Laurianne Giovannoni,Cédric Gobet,Cédric Gobet,Daniel Sage,Michael Unser,Mounia Heddad Masson,Guoqiang Gu,Domenico Bosco,Frédéric Gachon,Frédéric Gachon,Jacques Philippe,Charna Dibner +13 more
TL;DR: The data indicate that differential entrainment characteristics of circadian α-cell and β-cell clocks are an important feature in the temporal coordination of endocrine function and gene expression.
Journal ArticleDOI
ATP-regulated potassium channels and voltage-gated calcium channels in pancreatic alpha and beta cells: similar functions but reciprocal effects on secretion
TL;DR: How reduced KATP channel activity, via membrane depolarisation, paradoxically reduces alpha cell Ca2+ entry and glucagon exocytosis is discussed and whether the glucagon secretory defects associated with diabetes can be attributed to impaired KatP channel regulation is considered.
Journal ArticleDOI
Beta Cell Dedifferentiation Induced by IRE1α Deletion Prevents Type 1 Diabetes
Hugo Lee,Yong-Syu Lee,Quincy Eckert Harenda,Stefan J. Pietrzak,Hülya Zeynep Oktay,Sierra Schreiber,Yian Liao,Shreyash Sonthalia,Ashley E. Ciecko,Yi-Guang Chen,Sunduz Keles,Rupa Sridharan,Feyza Engin +12 more
TL;DR: Modulating the unfolded protein response (UPR) in β cells of non-obese diabetic (NOD) mice by deleting the UPR sensor IRE1α prior to insulitis induced a transient dedifferentiation of β cells, resulting in substantially reduced islet immune cell infiltration and β cell apoptosis.
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