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Intrinsic islet heterogeneity and gap junction coupling determine spatiotemporal Ca²? wave dynamics.


ABSTRACT: Insulin is released from the islets of Langerhans in discrete pulses that are linked to synchronized oscillations of intracellular free calcium ([Ca(2+)]i). Associated with each synchronized oscillation is a propagating calcium wave mediated by Connexin36 (Cx36) gap junctions. A computational islet model predicted that waves emerge due to heterogeneity in ?-cell function throughout the islet. To test this, we applied defined patterns of glucose stimulation across the islet using a microfluidic device and measured how these perturbations affect calcium wave propagation. We further investigated how gap junction coupling regulates spatiotemporal [Ca(2+)]i dynamics in the face of heterogeneous glucose stimulation. Calcium waves were found to originate in regions of the islet having elevated excitability, and this heterogeneity is an intrinsic property of islet ?-cells. The extent of [Ca(2+)]i elevation across the islet in the presence of heterogeneity is gap-junction dependent, which reveals a glucose dependence of gap junction coupling. To better describe these observations, we had to modify the computational islet model to consider the electrochemical gradient between neighboring ?-cells. These results reveal how the spatiotemporal [Ca(2+)]i dynamics of the islet depend on ?-cell heterogeneity and cell-cell coupling, and are important for understanding the regulation of coordinated insulin release across the islet.

SUBMITTER: Benninger RK 

PROVIDER: S-EPMC4255172 | biostudies-literature | 2014 Dec

REPOSITORIES: biostudies-literature

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Intrinsic islet heterogeneity and gap junction coupling determine spatiotemporal Ca²⁺ wave dynamics.

Benninger Richard K P RK   Hutchens Troy T   Head W Steven WS   McCaughey Michael J MJ   Zhang Min M   Le Marchand Sylvain J SJ   Satin Leslie S LS   Piston David W DW  

Biophysical journal 20141202 11


Insulin is released from the islets of Langerhans in discrete pulses that are linked to synchronized oscillations of intracellular free calcium ([Ca(2+)]i). Associated with each synchronized oscillation is a propagating calcium wave mediated by Connexin36 (Cx36) gap junctions. A computational islet model predicted that waves emerge due to heterogeneity in β-cell function throughout the islet. To test this, we applied defined patterns of glucose stimulation across the islet using a microfluidic d  ...[more]

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