胰腺胰岛的功能结构确定了一群第一反应细胞，这些细胞驱动第一相钙反应。

Functional architecture of pancreatic islets identifies a population of first responder cells that drive the first-phase calcium response.

机构信息

Department of Bioengineering, University of Colorado, Anschutz Medical Campus, Aurora, Colorado, United States of America.

Barbara Davis Center for Childhood Diabetes, University of Colorado, Anschutz Medical Campus, Aurora, Colorado, United States of America.

出版信息

PLoS Biol. 2022 Sep 13;20(9):e3001761. doi: 10.1371/journal.pbio.3001761. eCollection 2022 Sep.

DOI:10.1371/journal.pbio.3001761

PMID:36099294

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9506623/

Abstract

Insulin-secreting β-cells are functionally heterogeneous. Whether there exist cells driving the first-phase calcium response in individual islets, has not been examined. We examine "first responder" cells, defined by the earliest [Ca2+] response during first-phase [Ca2+] elevation, distinct from previously identified "hub" and "leader" cells. We used islets isolated from Mip-CreER; Rosa-Stop-Lox-Stop-GCamP6s mice (β-GCamP6s) that show β-cell-specific GCamP6s expression following tamoxifen-induced CreER-mediated recombination. First responder cells showed characteristics of high membrane excitability and lower electrical coupling to their neighbors. The first-phase response time of β-cells in the islet was spatially organized, dependent on the cell's distance to the first responder cell, and consistent over time up to approximately 24 h. When first responder cells were laser ablated, the first-phase [Ca2+] was slowed down, diminished, and discoordinated compared to random cell ablation. Cells that were next earliest to respond often took over the role of the first responder upon ablation. In summary, we discover and characterize a distinct first responder β-cell state, critical for the islet first-phase response to glucose.

摘要

胰岛β细胞在功能上具有异质性。在个体胰岛中，是否存在驱动第一时相钙反应的细胞尚未被检测到。我们研究了“第一反应者”细胞，这些细胞的定义是在第一时相钙升高期间最早出现[Ca2+]反应，与先前鉴定的“枢纽”和“领导者”细胞不同。我们使用 Mip-CreER 分离的胰岛；Rosa-Stop-Lox-Stop-GCamP6s 小鼠（β-GCamP6s），在他莫昔芬诱导的 CreER 介导的重组后，β 细胞中特异性表达 GCamP6s。第一反应者细胞表现出高膜兴奋性和与邻近细胞电耦合降低的特征。胰岛β细胞的第一时相反应时间在空间上是有组织的，取决于细胞与第一反应者细胞的距离，并且在大约 24 小时内保持一致。当第一反应者细胞被激光消融时，与随机细胞消融相比，第一时相[Ca2+]反应变慢、减少且不协调。在消融后，通常是最早做出反应的细胞接替第一反应者细胞的角色。总之，我们发现并表征了一种独特的第一反应者β细胞状态，这对于胰岛对葡萄糖的第一时相反应至关重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/656e/9506623/827b2c663ffb/pbio.3001761.g001.jpg

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胰腺胰岛的功能结构确定了一群第一反应细胞，这些细胞驱动第一相钙反应。

Functional architecture of pancreatic islets identifies a population of first responder cells that drive the first-phase calcium response.

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