Ultrafast multicellular calcium imaging of calcium spikes in mouse beta cells in tissue slices

IF 5.6 2区医学 Q1 PHYSIOLOGY

Acta Physiologica Pub Date : 2025-01-13 DOI:10.1111/apha.14261

Jurij Dolenšek, Viljem Pohorec, Maša Skelin Klemen, Marko Gosak, Andraž Stožer

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Abstract

Background

The crucial steps in beta cell stimulus-secretion coupling upon stimulation with glucose are oscillatory changes in metabolism, membrane potential, intracellular calcium concentration, and exocytosis. The changes in membrane potential consist of bursts of spikes, with silent phases between them being dominated by membrane repolarization and absence of spikes. Assessing intra- and intercellular coupling at the multicellular level is possible with ever-increasing detail, but our current ability to simultaneously resolve spikes from many beta cells remains limited to double-impalement electrophysiological recordings.

Methods

Since multicellular calcium imaging of spikes would enable a better understanding of coupling between changes in membrane potential and calcium concentration in beta cell collectives, we set out to design an appropriate methodological approach.

Results

Combining the acute tissue slice method with ultrafast calcium imaging, we were able to resolve and quantify individual spikes within bursts at a temporal resolution of >150 Hz over prolonged periods, as well as describe their glucose-dependent properties. In addition, by simultaneous patch-clamp recordings we were able to show that calcium spikes closely follow membrane potential changes. Both bursts and spikes coordinate across islets in the form of intercellular waves, with bursts typically displaying global and spikes more local patterns.

Conclusions

This method and the associated findings provide additional insight into the complex signaling within beta cell networks. Once extended to tissue from diabetic animals and human donors, this approach could help us better understand the mechanistic basis of diabetes and find new molecular targets.

Abstract Image

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组织切片中小鼠 beta 细胞钙尖峰的超快多细胞钙成像。

背景：β细胞刺激-分泌与葡萄糖刺激耦合的关键步骤是代谢、膜电位、细胞内钙浓度和胞外分泌的振荡变化。膜电位的变化包括突峰的爆发，在它们之间的沉默阶段主要是膜复极化和无突峰。在多细胞水平上评估细胞内和细胞间耦合的细节是可能的，但我们目前同时解决许多β细胞的峰值的能力仍然局限于双穿刺电生理记录。方法：由于多细胞钙峰成像可以更好地理解膜电位变化和β细胞群钙浓度之间的耦合，我们着手设计一种合适的方法。结果：将急性组织切片方法与超快钙成像相结合，我们能够在长时间内以> 150hz的时间分辨率解析和量化脉冲内的单个峰值，并描述它们的葡萄糖依赖特性。此外，通过同时膜片钳记录，我们能够显示钙峰值密切跟随膜电位的变化。脉冲和尖峰都以细胞间波的形式在胰岛上协调，脉冲通常显示全局模式，而尖峰则更多地显示局部模式。结论：该方法和相关发现为β细胞网络中的复杂信号传导提供了额外的见解。一旦扩展到糖尿病动物和人类供体的组织，这种方法可以帮助我们更好地了解糖尿病的机制基础，并找到新的分子靶点。

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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来源期刊

Acta Physiologica 医学-生理学

CiteScore

11.80

自引率

15.90%

发文量

182

审稿时长

4-8 weeks

期刊介绍： Acta Physiologica is an important forum for the publication of high quality original research in physiology and related areas by authors from all over the world. Acta Physiologica is a leading journal in human/translational physiology while promoting all aspects of the science of physiology. The journal publishes full length original articles on important new observations as well as reviews and commentaries.