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Maria Sara Remedi, Colin G. Nichols  Cell Metabolism 

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Presentation on theme: "Maria Sara Remedi, Colin G. Nichols  Cell Metabolism "— Presentation transcript:

1 Hyperinsulinism and Diabetes: Genetic Dissection of β Cell Metabolism-Excitation Coupling in Mice 
Maria Sara Remedi, Colin G. Nichols  Cell Metabolism  Volume 10, Issue 6, Pages (December 2009) DOI: /j.cmet Copyright © 2009 Elsevier Inc. Terms and Conditions

2 Figure 1 Schematic Illustration of the Glucose-Stimulated Insulin Secretory Pathway in β Cells (A) Hematoxylin and eosin-stained paraffin section of mouse pancreas. The pancreas is composed of exocrine tissue and endocrine tissue (islet of Langerhans). Islets contain different cell types, including the insulin-secreting β cells. Arrows point to exocrine and endocrine tissue. (B) Schematic illustration of the β cell glucose-stimulated insulin secretion pathway. Glucose entering the β cell through glucose transporters (GLUT2) is phosphorylated by glucokinase (GK) and metabolized by glycolysis (cytoplasm) and tricarboxylic acid (TCA) cycle (mitochondria). A rise in the [ATP]:[ADP] ratio resulting from oxidative metabolism inhibits the ATP-sensitive K+ channels (KATP) at the cell surface, causing membrane depolarization and opening of voltage-dependent Ca2+ channels (VDCC). This results in a rise of intracellular [Ca2+], which stimulates insulin secretion. Voltage-dependent outward K+ channels (Kv) are involved in membrane repolarization and cessation of insulin secretion. Factors that impair ATP production or downstream signaling are expected to suppress GSIS. Several genes that directly or indirectly alter ATP production and therefore underlie a diabetic or hyperinsulinemic phenotype when mutated (humans and/or mouse models) are shown in color: glucose transporter 2 (GLUT2), glucokinase (GK), nicotinamide nucleotide transhydrogenase (Nnt), uncoupling protein 2 (UCP2), mitochondrial DNA mutations (mtDNA), and glutamate dehydrogenase (GDH). Mutations that may indirectly affect channel activity are also shown. (C) Schematic illustration of the electrical activity of β cells and the temporal response to elevated glucose. In low (3 mM) glucose, the membrane is hyperpolarized due to KATP activity, intracellular Ca ([Ca]) is low, and insulin is not secreted. When glucose is elevated to stimulatory levels (11 mM), KATP channels close, and the membrane depolarizes due to L-type VDCC activity. Bursts of APs, involving both VDCC and Kv channels, result in elevated [Ca], which, in turn, triggers insulin secretion. Cell Metabolism  , DOI: ( /j.cmet ) Copyright © 2009 Elsevier Inc. Terms and Conditions

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