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
Pancreas organogenesis: from bud to plexus to gland.
TL;DR: Findings in the past 5 years that are amongst the most significant in contributing to the deeper understanding of pancreas development are summarized and highlighted to highlight interesting new concepts, and to discuss provocatively some of the more controversial findings or proposals.
Journal ArticleDOI
Unlimited in vitro expansion of adult bi-potent pancreas progenitors through the Lgr5/R-spondin axis
Meritxell Huch,Paola Bonfanti,Sylvia F. Boj,Toshiro Sato,Cindy J.M. Loomans,Cindy J.M. Loomans,Marc van de Wetering,Mozhdeh Sojoodi,Vivian S. W. Li,Jurian Schuijers,Ana Gracanin,Femke Ringnalda,Femke Ringnalda,Harry Begthel,Karien Hamer,Joyce Mulder,Johan H. van Es,Eelco J.P. de Koning,Eelco J.P. de Koning,Robert G.J. Vries,Harry Heimberg,Hans Clevers +21 more
TL;DR: It is reported that the Wnt pathway is robustly activated upon injury by partial duct ligation (PDL), concomitant with the appearance of Lgr5 expression in regenerating pancreatic ducts.
Journal ArticleDOI
Residual Insulin Production and Pancreatic β-Cell Turnover After 50 Years of Diabetes: Joslin Medalist Study
Hillary A. Keenan,Jennifer K. Sun,Jared Levine,Alessandro Doria,Lloyd Paul Aiello,George S. Eisenbarth,Susan Bonner-Weir,George L. King +7 more
TL;DR: Demonstration of persistence and function of insulin-producing pancreatic cells suggests the possibility of a steady state of turnover in which stimuli to enhance endogenous β cells could be a viable therapeutic approach in a significant number of patients with type 1 diabetes, even for those with chronic duration.
Journal ArticleDOI
Robust cellular reprogramming occurs spontaneously during liver regeneration
Kilangsungla Yanger,Yiwei Zong,Lara R. Maggs,Suzanne N. Shapira,Ravi Maddipati,Nicole M. Aiello,Swan N. Thung,Rebecca G. Wells,Linda E. Greenbaum,Ben Z. Stanger +9 more
TL;DR: It is reported that activation of Notch, a signaling pathway that mediates lineage segregation during liver development, is sufficient to reprogram hepatocytes into biliary epithelial cells (BECs) following injuries that provoke a biliary response.
Journal ArticleDOI
β-Cell Failure in Type 2 Diabetes: Postulated Mechanisms and Prospects for Prevention and Treatment
Philippe A. Halban,Kenneth S. Polonsky,Donald W. Bowden,Meredith Hawkins,Charlotte Ling,Kieren J. Mather,Alvin C. Powers,Christopher J. Rhodes,Lori Sussel,Gordon C. Weir +9 more
TL;DR: The foundation of β-cell failure in type 2 diabetes (T2D) is examined and areas for future research on the underlying mechanisms that may lead to improved prevention and treatment are suggested.
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