旁分泌通讯使伤口信号传导中的细胞反应保真度最大化。

Paracrine communication maximizes cellular response fidelity in wound signaling.

作者信息

Handly L Naomi, Pilko Anna, Wollman Roy

机构信息

Department of Chemistry and Biochemistry, University of California, San Diego, La Jolla, United States.

Section for Cell and Developmental Biology , Division of Biological Sciences, University of California, San Diego, La Jolla, United States.

出版信息

Elife. 2015 Oct 8;4:e09652. doi: 10.7554/eLife.09652.

DOI:10.7554/eLife.09652

PMID:26448485

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4686426/

Abstract

Population averaging due to paracrine communication can arbitrarily reduce cellular response variability. Yet, variability is ubiquitously observed, suggesting limits to paracrine averaging. It remains unclear whether and how biological systems may be affected by such limits of paracrine signaling. To address this question, we quantify the signal and noise of Ca(2+) and ERK spatial gradients in response to an in vitro wound within a novel microfluidics-based device. We find that while paracrine communication reduces gradient noise, it also reduces the gradient magnitude. Accordingly we predict the existence of a maximum gradient signal to noise ratio. Direct in vitro measurement of paracrine communication verifies these predictions and reveals that cells utilize optimal levels of paracrine signaling to maximize the accuracy of gradient-based positional information. Our results demonstrate the limits of population averaging and show the inherent tradeoff in utilizing paracrine communication to regulate cellular response fidelity.

摘要

旁分泌通讯导致的群体平均效应可任意降低细胞反应的变异性。然而，变异性普遍存在，这表明旁分泌平均存在局限性。目前尚不清楚生物系统是否以及如何受到旁分泌信号这种局限性的影响。为了解决这个问题，我们在一种基于新型微流控的装置中，对响应体外伤口时Ca(2+)和ERK空间梯度的信号与噪声进行了量化。我们发现，虽然旁分泌通讯降低了梯度噪声，但也降低了梯度幅度。因此，我们预测存在最大梯度信噪比。对旁分泌通讯的直接体外测量验证了这些预测，并揭示细胞利用旁分泌信号的最佳水平来最大化基于梯度的位置信息的准确性。我们的结果证明了群体平均的局限性，并显示了利用旁分泌通讯来调节细胞反应保真度时存在的内在权衡。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec6a/4686426/85a80ef7a1f4/elife-09652-fig1.jpg

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旁分泌通讯使伤口信号传导中的细胞反应保真度最大化。

Paracrine communication maximizes cellular response fidelity in wound signaling.

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