铁诱导毒性后转铁蛋白在 Müller 胶质细胞中的保护作用。

The protective role of transferrin in Müller glial cells after iron-induced toxicity.

作者信息

Picard Emilie, Fontaine Isabelle, Jonet Laurent, Guillou Florian, Behar-Cohen Francine, Courtois Yves, Jeanny Jean-Claude

机构信息

Inserm, U872, Paris, France.

出版信息

Mol Vis. 2008 May 20;14:928-41.

PMID:18509548

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2391081/

Abstract

PURPOSE

Transferrin (Tf) expression is enhanced by aging and inflammation in humans. We investigated the role of transferrin in glial protection.

METHODS

We generated transgenic mice (Tg) carrying the complete human transferrin gene on a C57Bl/6J genetic background. We studied human (hTf) and mouse (mTf) transferrin localization in Tg and wild-type (WT) C57Bl/6J mice using immunochemistry with specific antibodies. Müller glial (MG) cells were cultured from explants and characterized using cellular retinaldehyde binding protein (CRALBP) and vimentin antibodies. They were further subcultured for study. We incubated cells with FeCl(3)-nitrilotriacetate to test for the iron-induced stress response; viability was determined by direct counting and measurement of lactate dehydrogenase (LDH) activity. Tf expression was determined by reverse transcriptase-quantitative PCR with human- or mouse-specific probes. hTf and mTf in the medium were assayed by ELISA or radioimmunoassay (RIA), respectively.

RESULTS

mTf was mainly localized in retinal pigment epithelium and ganglion cell layers in retina sections of both mouse lines. hTf was abundant in MG cells. The distribution of mTf and hTf mRNA was consistent with these findings. mTf and hTf were secreted into the medium of MG cell primary cultures. Cells from Tg mice secreted hTf at a particularly high level. However, both WT and Tg cell cultures lose their ability to secrete Tf after a few passages. Tg MG cells secreting hTf were more resistant to iron-induced stress toxicity than those no longer secreted hTf. Similarly, exogenous human apo-Tf, but not human holo-Tf, conferred resistance to iron-induced stress on MG cells from WT mice.

CONCLUSIONS

hTf localization in MG cells from Tg mice was reminiscent of that reported for aged human retina and age-related macular degeneration, both conditions associated with iron deposition. The role of hTf in protection against toxicity in Tg MG cells probably involves an adaptive mechanism developed in neural retina to control iron-induced stress.

摘要

目的

在人类中，转铁蛋白（Tf）的表达会因衰老和炎症而增强。我们研究了转铁蛋白在神经胶质保护中的作用。

方法

我们培育了在C57Bl/6J遗传背景上携带完整人类转铁蛋白基因的转基因小鼠（Tg）。我们使用特异性抗体通过免疫化学方法研究了人类（hTf）和小鼠（mTf）转铁蛋白在Tg和野生型（WT）C57Bl/6J小鼠中的定位。从外植体培养 Müller 神经胶质（MG）细胞，并用细胞视黄醛结合蛋白（CRALBP）和波形蛋白抗体进行鉴定。它们被进一步传代培养用于研究。我们用三乙酸氮基三乙酸铁（FeCl₃-NTA）处理细胞以测试铁诱导的应激反应；通过直接计数和测量乳酸脱氢酶（LDH）活性来确定细胞活力。用人类或小鼠特异性探针通过逆转录定量PCR测定Tf表达。分别通过ELISA或放射免疫测定（RIA）检测培养基中的hTf和mTf。

结果

在两种小鼠品系的视网膜切片中，mTf主要定位于视网膜色素上皮和神经节细胞层。hTf在MG细胞中含量丰富。mTf和hTf mRNA的分布与这些发现一致。mTf和hTf分泌到MG细胞原代培养物的培养基中。来自Tg小鼠的细胞分泌hTf的水平特别高。然而，WT和Tg细胞培养物在传代几次后都会失去分泌Tf的能力。分泌hTf的Tg MG细胞比不再分泌hTf的细胞对铁诱导的应激毒性更具抗性。同样，外源性人脱铁转铁蛋白（apo-Tf）而非人全铁转铁蛋白（holo-Tf）赋予WT小鼠MG细胞对铁诱导应激的抗性。

结论

Tg小鼠MG细胞中hTf的定位让人联想到在老年人类视网膜和年龄相关性黄斑变性中所报道的情况，这两种情况都与铁沉积有关。hTf在保护Tg MG细胞免受毒性方面的作用可能涉及神经视网膜中发展出的一种适应性机制，以控制铁诱导的应激。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a33e/2391081/1809a4b5493c/mv-v14-928-f2.jpg

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铁诱导毒性后转铁蛋白在 Müller 胶质细胞中的保护作用。

The protective role of transferrin in Müller glial cells after iron-induced toxicity.

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