Ca2+ release or Ca2+ entry, that is the question: what governs Ca2+ oscillations in pancreatic β cells?

The standard model for Ca2+ oscillations in insulin-secreting pancreatic β cells centers on Ca2+ entry through voltage-activated Ca2+ channels. These work in combination with ATP-dependent K+ channels, which are the bridge between the metabolic state of the cells and plasma membrane potential. This...

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Bibliographic Details
Published in:American journal of physiology: endocrinology and metabolism 2023-06, Vol.324 (6), p.E477-E487
Main Authors: Fletcher, Patrick A, Thompson, Ben, Liu, Chanté, Bertram, Richard, Satin, Leslie S, Sherman, Arthur S
Format: Article
Language:English
Subjects:
Beta cells
Calcium
Calcium (reticular)
Calcium channels
Calcium channels (voltage-gated)
Calcium influx
Calcium ions
Calcium signalling
Channels
Endoplasmic reticulum
Inositol trisphosphate
Inositols
Insulin
Mathematical models
Membrane potential
Oscillations
Pancreas
Ryanodine
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Summary:The standard model for Ca2+ oscillations in insulin-secreting pancreatic β cells centers on Ca2+ entry through voltage-activated Ca2+ channels. These work in combination with ATP-dependent K+ channels, which are the bridge between the metabolic state of the cells and plasma membrane potential. This partnership underlies the ability of the β cells to secrete insulin appropriately on a minute-to-minute time scale to control whole body plasma glucose. Though this model, developed over more than 40 years through many cycles of experimentation and mathematical modeling, has been very successful, it has been challenged by a hypothesis that calcium-induced calcium release from the endoplasmic reticulum through ryanodine or inositol trisphosphate (IP3) receptors is instead the key driver of islet oscillations. We show here that the alternative model is in fact incompatible with a large body of established experimental data and that the new observations offered in support of it can be better explained by the standard model.
ISSN:0193-1849
1522-1555
DOI:10.1152/ajpendo.00030.2023