Franz M. Matschinsky scite author profile

The pancreatic islet β cell senses circulating levels of calorigenic nutrients to secrete insulin according to the needs of the organism. Altered insulin secretion is linked to various disorders such as diabetes, hypoglycemic states, and cardiometabolic diseases. Fuel stimuli, including glucose, free fatty acids, and amino acids, promote insulin granule exocytosis primarily via their metabolism in β cells and the production of key signaling metabolites. This paper reviews our current knowledge of the pathways involved in both positive and negative metabolic signaling for insulin secretion and assesses the role of established and candidate metabolic coupling factors, keeping recent developments in focus.

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Ca2+, cAMP, and phospholipid-derived messengers in coupling mechanisms of insulin secretion

Prentki

Matschinsky²

1987

Physiological Reviews

773

504

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Allosteric Activators of Glucokinase: Potential Role in Diabetes Therapy

Grimsby

Sarabu

Corbett

et al. 2003

Science

481

466

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Glucokinase (GK) plays a key role in whole-body glucose homeostasis by catalyzing the phosphorylation of glucose in cells that express this enzyme, such as pancreatic beta cells and hepatocytes. We describe a class of antidiabetic agents that act as nonessential, mixed-type GK activators (GKAs) that increase the glucose affinity and maximum velocity (Vmax) of GK. GKAs augment both hepatic glucose metabolism and glucose-induced insulin secretion from isolated rodent pancreatic islets, consistent with the expression and function of GK in both cell types. In several rodent models of type 2 diabetes mellitus, GKAs lowered blood glucose levels, improved the results of glucose tolerance tests, and increased hepatic glucose uptake. These findings may lead to the development of new drug therapies for diabetes.

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Familial Hyperinsulinism Caused by an Activating Glucokinase Mutation

et al. 1998

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Assessing the potential of glucokinase activators in diabetes therapy

Matschinsky

2009

Nat Rev Drug Discov

373

386

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Glucokinase, a unique isoform of the hexokinase enzymes, which are known to phosphorylate D-glucose and other hexoses, was identified during the past three to four decades as a new, promising drug target for type 2 diabetes. Glucokinase serves as a glucose sensor of the insulin-producing pancreatic islet beta-cells, controls the conversion of glucose to glycogen in the liver and regulates hepatic glucose production. Guided by this fundamental knowledge, several glucokinase activators are now being developed, and have so far been shown to lower blood glucose in several animal models of type 2 diabetes and in initial trials in humans with the disease. Here, the scientific basis and current status of this new approach to diabetes therapy are discussed.

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Pancreatic islet glucose metabolism and regulation of insulin secretion

Meglasson

Matschinsky

1986

Diabetes Metab. Rev.

481

345

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Banting Lecture 1995. A lesson in metabolic regulation inspired by the glucokinase glucose sensor paradigm

Matschinsky¹

1996

Diabetes

305

298

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Regulation of Pancreatic β-Cell Glucokinase

Matschinsky

2002

315

242

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