分支上皮中的对称性破缺：流动条件下微图案上的细胞对一种分泌性自分泌运动抑制因子的正反馈假说提出了挑战。

Symmetry-breaking in branching epithelia: cells on micro-patterns under flow challenge the hypothesis of positive feedback by a secreted autocrine inhibitor of motility.

作者信息

Martin Kimberly C, Yuan Xiaofei, Stimac Gregory, Bannerman Kieran, Anderson Jamie, Roy Chloe, Glykofrydis Fokion, Yin Huabing, Davies Jamie A

机构信息

Centre for Integrative Physiology, University of Edinburgh, George Square, Edinburgh, EH8 9XB, UK.

School of Engineering, James Watt Building, University of Glasgow, GL12 8QQ, UK.

出版信息

J Anat. 2017 Jun;230(6):766-774. doi: 10.1111/joa.12599. Epub 2017 Mar 29.

DOI:10.1111/joa.12599

PMID:28369863

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5442143/

Abstract

Branching morphogenesis of epithelia involves division of cells into leader (tip) and follower (stalk) cells. Published work on cell lines in culture has suggested that symmetry-breaking takes place via a secreted autocrine inhibitor of motility, the inhibitor accumulating more in concave regions of the culture boundary, slowing advance of cells there, and less in convex areas, allowing advance and a further exaggeration of the concave/convex difference. Here we test this hypothesis using a two-dimensional culture system that includes strong flow conditions to remove accumulating diffusible secretions. We find that, while motility does indeed follow boundary curvature in this system, flow makes no difference: this challenges the hypothesis of control by a diffusible secreted autocrine inhibitor.

摘要

上皮细胞的分支形态发生涉及细胞分化为引导（顶端）细胞和跟随（茎）细胞。关于培养细胞系的已发表研究表明，对称性破缺是通过一种分泌的自分泌运动抑制剂发生的，该抑制剂在培养边界的凹面区域积累更多，减缓了那里细胞的前进，而在凸面区域积累较少，使细胞得以前进并进一步加剧凹凸差异。在这里，我们使用二维培养系统测试这一假设，该系统包括强流动条件以去除积累的可扩散分泌物。我们发现，虽然在这个系统中运动确实遵循边界曲率，但流动没有影响：这对可扩散分泌的自分泌抑制剂控制的假设提出了挑战。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fc22/5442143/cbf25fa2d33c/JOA-230-766-g001.jpg

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分支上皮中的对称性破缺：流动条件下微图案上的细胞对一种分泌性自分泌运动抑制因子的正反馈假说提出了挑战。

Symmetry-breaking in branching epithelia: cells on micro-patterns under flow challenge the hypothesis of positive feedback by a secreted autocrine inhibitor of motility.

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