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细胞因子和细胞间相互作用对小鼠髓质胸腺上皮细胞胰岛素基因表达的调控

Regulation of insulin gene expression by cytokines and cell-cell interactions in mouse medullary thymic epithelial cells.

作者信息

Levi D, Polychronakos C

机构信息

Endocrine Genetics, the Research Institute of the McGill University Health Centre, Montreal, QC, Canada.

出版信息

Diabetologia. 2009 Oct;52(10):2151-8. doi: 10.1007/s00125-009-1448-y. Epub 2009 Jul 16.

DOI:10.1007/s00125-009-1448-y
PMID:19609502
Abstract

AIMS/HYPOTHESIS: The expression of tissue-specific self-antigens in the thymus is essential for self-tolerance. Genetic susceptibility to type 1 diabetes correlates inversely with thymic insulin expression and, in mice, lowered levels of this expression result in T cell responses against insulin. This study was undertaken to examine whether thymic insulin expression is regulated by the same metabolic stimuli as in beta cells or by different inputs, possibly of an immune nature.

METHODS

Ins2 mRNA changes in mouse thymus were evaluated in vivo, following intraperitoneal glucose injection. We also examined the effect of a high glucose concentration on Ins2 mRNA in clones of insulin-expressing medullary thymus epithelial cell lines (mTECs). The same in vitro system was used to evaluate the effect of IFN-gamma and cell-to-cell contact with thymocytes in co-culture.

RESULTS

Ins2 mRNA was significantly increased in the pancreas following a glucose load, but remained unchanged in the thymus. Furthermore, stimulation of insulin-expressing mTECs in vitro with IFN-gamma, a cytokine involved in T cell negative selection, decreased levels of insulin expression even though expression of Aire was increased. Last, co-culture of mTECs with thymocytes resulted in an upregulation of both Aire and insulin expression.

CONCLUSIONS/INTERPRETATION: We conclude that regulation of insulin transcription in the thymus is not dependent on metabolic stimuli but it may, instead, be under the control of cytokines and cell-to-cell interactions with lymphoid cells. That this regulation is not always coordinated with that of Aire, a non-specific master switch, suggests insulin-specific mechanisms.

摘要

目的/假设:胸腺中组织特异性自身抗原的表达对于自身耐受至关重要。1型糖尿病的遗传易感性与胸腺胰岛素表达呈负相关,在小鼠中,这种表达水平降低会导致T细胞对胰岛素产生反应。本研究旨在探讨胸腺胰岛素表达是受与β细胞相同的代谢刺激调节,还是受可能具有免疫性质的不同输入调节。

方法

腹腔注射葡萄糖后,在体内评估小鼠胸腺中Ins2 mRNA的变化。我们还研究了高葡萄糖浓度对表达胰岛素的髓质胸腺上皮细胞系(mTEC)克隆中Ins2 mRNA的影响。使用相同的体外系统评估干扰素-γ以及与胸腺细胞共培养时细胞间接触的影响。

结果

葡萄糖负荷后胰腺中Ins2 mRNA显著增加,但胸腺中Ins2 mRNA保持不变。此外,用参与T细胞阴性选择的细胞因子干扰素-γ体外刺激表达胰岛素的mTEC,即使自身免疫调节因子(Aire)的表达增加,胰岛素表达水平仍降低。最后,mTEC与胸腺细胞共培养导致Aire和胰岛素表达均上调。

结论/解读:我们得出结论,胸腺中胰岛素转录的调节不依赖于代谢刺激,而是可能受细胞因子以及与淋巴细胞的细胞间相互作用的控制。这种调节并不总是与非特异性主开关Aire的调节协调一致,提示存在胰岛素特异性机制。

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