Critical transitions in pancreatic islets.

ArXiv Pub Date : 2024-10-23
D Korošak, S Postić, A Stožer, B Podobnik, M Slak Rupnik
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Abstract

Calcium signals in pancreatic β cells collectives show a sharp transition from uncorrelated to correlated state resembling a phase transition as the slowly increasing glucose concentration crosses the tipping point. However, the exact nature or the order of this phase transition is not well understood. Using confocal microscopy to record the collective calcium activation of β cells in an intact islet under changing glucose concentration in increasing and then decreasing way, we first show that in addition to the sharp transition, the coordinated calcium response exhibits a hysteresis indicating a critical, first order transition. A network model of β cells combining link selection and coordination mechanisms capture the observed hysteresis loop and the critical nature of the transition. Our results point towards the understanding the role of islets as tipping elements in the pancreas that interconnected by perfusion, diffusion and innervation cause the tipping dynamics and abrupt insulin release.

胰岛的关键转变。
当缓慢增加的葡萄糖浓度越过临界点时,胰腺β细胞集体中的钙信号显示出从非相关状态到相关状态的急剧转变,类似于相变。然而,这种相变的确切性质或顺序尚不十分清楚。我们利用共聚焦显微镜记录了完整胰岛中的β细胞在葡萄糖浓度先增加后减少的变化过程中的集体钙激活,首次表明除了急剧转变外,协调的钙反应还表现出滞后性,表明这是一个临界的一阶转变。结合环节选择和协调机制的β细胞网络模型捕捉到了观察到的滞后环和过渡的临界性质。我们的研究结果表明,胰岛是胰腺中的临界元素,通过灌注、扩散和神经支配相互连接,导致临界动态和胰岛素的突然释放。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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