37 results on '"Nenquin, Myriam"'
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2. In vitro insulin secretion by pancreatic tissue from infants with diazoxide-resistant congenital hyperinsulinism deviates from model predictions
3. Metabolic amplifying pathway increases both phases of insulin secretion independently of [beta]-cell actin microfilaments
4. Activators of PKA and Epac Distinctly Influence Insulin Secretion and Cytosolic Ca2+ in Female Mouse Islets Stimulated by Glucose and Tolbutamide
5. Glucose Stimulates Ca2+ Influx and Insulin Secretion in 2-Week-old β-Cells Lacking ATP-sensitive K+ Channels
6. Congenital Hyperinsulinism Caused by Hexokinase I Expression or Glucokinase-Activating Mutation in a Subset of β-Cells
7. cAMP-Mediated and Metabolic Amplification of Insulin Secretion Are Distinct Pathways Sharing Independence of β-Cell Microfilaments
8. Glucose Controls Cytosolic Ca2+ and Insulin Secretion in Mouse Islets Lacking Adenosine Triphosphate-Sensitive K+ Channels Owing to a Knockout of the Pore-Forming Subunit Kir6.2
9. Nutrient Control of Insulin Secretion in Isolated Normal Human Islets
10. In Vivo and In Vitro Glucose-Induced Biphasic Insulin Secretion in the Mouse: Pattern and Role of Cytoplasmic Ca2+ and Amplification Signals in β-Cells
11. SERCA3 Ablation Does Not Impair Insulin Secretion but Suggests Distinct Roles of Different Sarcoendoplasmic Reticulum Ca2+ Pumps for Ca2+ Homeostasis in Pancreatic β-cells
12. Signals and Pools Underlying Biphasic Insulin Secretion
13. Inhibition of Protein Synthesis Sequentially Impairs Distinct Steps of Stimulus-secretion Coupling in Pancreatic β Cells*
14. Tolbutamide and Diazoxide Influence Insulin Secretion by Changing the Concentration but Not the Action of Cytoplasmic Ca sup 2+ in beta-Cells
15. Tolbutamide and diazoxide influence insulin secretion by changing the concentration but not the action of cytoplasmic Ca2+ in beta-cells
16. Mechanisms of the stimulation of insulin release by saturated fatty acids: a study of palmitate effects in mouse beta-cells
17. Immaturity of insulin secretion by pancreatic islets isolated from one human neonate.
18. Disruption and stabilization of β-cell actin microfilaments differently influence insulin secretion triggered by intracellular Ca 2+ mobilization or store-operated Ca 2+ entry
19. Dynamics and Regulation of Insulin Secretion in Pancreatic Islets from Normal Young Children.
20. Dynamics of glucose-induced insulin secretion in normal human islets.
21. Amplification of insulin secretion by acetylcholine or phorbol ester is independent of β-cell microfilaments and distinct from metabolic amplification
22. Disruption and stabilization of β-cell actin microfilaments differently influence insulin secretion triggered by intracellular Ca2+ mobilization or store-operated Ca2+ entry
23. Metabolic amplification of insulin secretion by glucose is independent of β-cell microtubules.
24. Metabolic amplifying pathway increases both phases of insulin secretion independently of β-cell actin microfilaments.
25. Glucose-induced Cytosolic pH Changes in β-Cells and Insulin Secretion Are Not Causally Related.
26. Overnight Culture Unmasks Glucose-induced Insulin Secretion in Mouse Islets Lacking ATP-sensitive K+ Channels by Improving the Triggering Ca2+ Signal.
27. Glucose Stimulates Ca2+ Influx and Insulin Secretion in 2-Week-old β-CelIs Lacking ATP-sensitive K+ Channels.
28. In vivo and in vitro glucose-induced biphasic insulin secretion in the mouse: pattern and role of cytoplasmic Ca2+ and amplification signals in beta-cells.
29. Both Triggering and Amplifying Pathways Contribute to Fuel-induced Insulin Secretion in the Absence of Sulfonylurea Receptor-1 in Pancreatic β-Cells.
30. SERCA3 ablation does not impair insulin secretion but suggests distinct roles of different sarcoendoplasmic reticulum Ca(2+) pumps for Ca(2+) homeostasis in pancreatic beta-cells.
31. Magnesium uptake by pancreatic islet cells is modulated by stimulators and inhibitors of the B-cell function.
32. Pharmacological approach to understanding the control of insulin secretion in human islets.
33. Relative contribution of Ca 2+-dependent and Ca 2+-independent mechanisms to the regulation of insulin secretion by glucose
34. Stimulation of insulin release by benzoic acid derivatives related to the non-sulphonylurea moiety of glibenclamide: Structural requirements and cellular mechanisms
35. Insulin secretion in islets from mice with a double knockout for the dense core vesicle proteins islet antigen-2 (IA-2) and IA-2beta.
36. Overnight culture unmasks glucose-induced insulin secretion in mouse islets lacking ATP-sensitive K+ channels by improving the triggering Ca2+ signal.
37. The elevation of glutamate content and the amplification of insulin secretion in glucose-stimulated pancreatic islets are not causally related.
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