铜通过激活抗氧化蛋白 1 依赖性 MEK-ERK 通路促进绵羊胰腺导管类器官生长。

Copper promotes sheep pancreatic duct organoid growth by activation of an antioxidant protein 1-dependent MEK-ERK pathway.

机构信息

Animal Development Biology Laboratory, College of Life Science, Northeast Forestry University, Harbin, China.

Key Laboratory of Saline-alkali Vegetation Ecology Restoration, College of Life Science, Northeast Forestry University, Harbin, China.

出版信息

Am J Physiol Cell Physiol. 2020 Apr 1;318(4):C806-C816. doi: 10.1152/ajpcell.00509.2019. Epub 2020 Mar 4.

DOI:10.1152/ajpcell.00509.2019

PMID:32130071

Abstract

Proper amounts of copper supplemented in livestock feed improve the physical growth and traits of farm animals. The pancreas is an important organ with both exocrine and endocrine portions. To investigate the role and mechanism of copper in the sheep pancreas, we first established sheep pancreatic duct organoids (sPDOs). We found that an appropriate amount of copper benefited the formation and growth of sPDOs, whereas excess or deficient copper damaged sPDOs. We found that the proliferation-stimulating effect of copper was related to the copper chaperone antioxidant protein 1 (ATOX1)-dependent activation of MEK-ERK1/2 signaling. knockdown suppressed the cell proliferation of sPDOs, even in the presence of the MEK activator. These results indicate that moderate concentrations of copper promote sPDO growth through ATOX1-regulated cell proliferation by activation of MEK-ERK. Moreover, our study indicates that organoids may be a useful model to study organ growth mechanisms in livestock.

摘要

适量的铜补充到牲畜饲料中可以改善农场动物的体格生长和特性。胰腺是一个具有外分泌和内分泌两部分的重要器官。为了研究铜在绵羊胰腺中的作用和机制，我们首先建立了绵羊胰腺导管类器官（sPDO）。我们发现适量的铜有利于 sPDO 的形成和生长，而过量或缺乏铜会损害 sPDO。我们发现铜的增殖刺激作用与铜伴侣抗氧化蛋白 1（ATOX1）依赖性 MEK-ERK1/2 信号的激活有关。ATOX1 敲低抑制了 sPDO 的细胞增殖，即使存在 MEK 激活剂也是如此。这些结果表明，适中浓度的铜通过 ATOX1 调节的细胞增殖促进 sPDO 的生长，通过 MEK-ERK 的激活。此外，我们的研究表明，类器官可能是研究家畜器官生长机制的有用模型。

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铜通过激活抗氧化蛋白 1 依赖性 MEK-ERK 通路促进绵羊胰腺导管类器官生长。

Copper promotes sheep pancreatic duct organoid growth by activation of an antioxidant protein 1-dependent MEK-ERK pathway.

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