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1.
Int J Mol Sci ; 22(24)2021 Dec 08.
Artículo en Inglés | MEDLINE | ID: mdl-34948019

RESUMEN

The NAD-dependent deacetylase SIRT1 improves ß cell function. Accordingly, nicotinamide mononucleotide (NMN), the product of the rate-limiting step in NAD synthesis, prevents ß cell dysfunction and glucose intolerance in mice fed a high-fat diet. The current study was performed to assess the effects of NMN on ß cell dysfunction and glucose intolerance that are caused specifically by increased circulating free fatty acids (FFAs). NMN was intravenously infused, with or without oleate, in C57BL/6J mice over a 48-h-period to elevate intracellular NAD levels and consequently increase SIRT1 activity. Administration of NMN in the context of elevated plasma FFA levels considerably improved glucose tolerance. This was due not only to partial protection from FFA-induced ß cell dysfunction but also, unexpectedly, to a significant decrease in insulin clearance. However, in conditions of normal FFA levels, NMN impaired glucose tolerance due to decreased ß cell function. The presence of this dual action of NMN suggests caution in its proposed therapeutic use in humans.


Asunto(s)
Ácidos Grasos no Esterificados/sangre , Intolerancia a la Glucosa/tratamiento farmacológico , Glucosa/efectos adversos , Insulina/metabolismo , Mononucleótido de Nicotinamida/administración & dosificación , Ácido Oléico/efectos adversos , Animales , Intolerancia a la Glucosa/sangre , Intolerancia a la Glucosa/inducido químicamente , Células Hep G2 , Humanos , Infusiones Intravenosas , Masculino , Ratones , Ratones Endogámicos C57BL , NAD/metabolismo , Mononucleótido de Nicotinamida/farmacología , Sirtuina 1/metabolismo , Regulación hacia Arriba
2.
Can J Diabetes ; 47(2): 207-221, 2023 Mar.
Artículo en Inglés | MEDLINE | ID: mdl-36481263

RESUMEN

Navigating the coronavirus disease-2019 (COVID-19, now COVID) pandemic has required resilience and creativity worldwide. Despite early challenges to productivity, more than 2,000 peer-reviewed articles on islet biology were published in 2021. Herein, we highlight noteworthy advances in islet research between January 2021 and April 2022, focussing on 5 areas. First, we discuss new insights into the role of glucokinase, mitogen-activated protein kinase-kinase/extracellular signal-regulated kinase and mitochondrial function on insulin secretion from the pancreatic ß cell, provided by new genetically modified mouse models and live imaging. We then discuss a new connection between lipid handling and improved insulin secretion in the context of glucotoxicity, focussing on fatty acid-binding protein 4 and fetuin-A. Advances in high-throughput "omic" analysis evolved to where one can generate more finely tuned genetic and molecular profiles within broad classifications of type 1 diabetes and type 2 diabetes. Next, we highlight breakthroughs in diabetes treatment using stem cell-derived ß cells and innovative strategies to improve islet survival posttransplantation. Last, we update our understanding of the impact of severe acute respiratory syndrome-coronavirus-2 infection on pancreatic islet function and discuss current evidence regarding proposed links between COVID and new-onset diabetes. We address these breakthroughs in 2 settings: one for a scientific audience and the other for the public, particularly those living with or affected by diabetes. Bridging biomedical research in diabetes to the community living with or affected by diabetes, our partners living with type 1 diabetes or type 2 diabetes also provide their perspectives on these latest advances in islet biology.


Asunto(s)
COVID-19 , Diabetes Mellitus Tipo 1 , Diabetes Mellitus Tipo 2 , Células Secretoras de Insulina , Islotes Pancreáticos , Animales , Ratones , Biología , Diabetes Mellitus Tipo 1/metabolismo , Insulina/metabolismo , Células Secretoras de Insulina/metabolismo , Islotes Pancreáticos/metabolismo , Humanos
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