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真核起始因子 2 激酶 GCN2 对于小鼠免疫系统适应天冬酰胺酶引起的氨基酸缺乏是必需的。

The eIF2 kinase GCN2 is essential for the murine immune system to adapt to amino acid deprivation by asparaginase.

机构信息

Department of Biochemistry and Molecular Biology, Indiana University School of Medicine-Evansville, Evansville, IN 47712, USA.

出版信息

J Nutr. 2010 Nov;140(11):2020-7. doi: 10.3945/jn.110.129197. Epub 2010 Sep 22.

DOI:10.3945/jn.110.129197
PMID:20861212
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2955878/
Abstract

Amino acid starvation by asparaginase (ASNase) enhances phosphorylation of eukaryotic initiation factor 2 (eIF2) by general control nonderepressible 2 (GCN2) kinase, leading to reduced global mRNA translation rates. This conserves energy and allows cells time to reprogram stress-related gene expression to alleviate cell injury. This study addressed the importance of GCN2 for the immune system to adapt to amino acid starvation by ASNase. GCN2(+/+) and GCN2(-/-) mice were injected once daily with ASNase or saline for up to 7 d. In both thymus and spleen, activation of amino acid stress response genes to ASNase, such as asparagine synthetase and CAAT enhancer binding protein homologous protein, required GCN2. ASNase reduced food intake and body weight in both genotypes, but spleen and thymus wet weights and total cell numbers in thymus, spleen, bone marrow, and mesenteric lymph nodes were less in GCN2(-/-) mice treated with ASNase (genotype x ASNase, P < 0.05). In the thymus, GCN2(-/-) mice treated with ASNase demonstrated enhanced apoptosis and fewer cells in all subpopulations examined (CD3+, CD4-8-, CD4+8+, CD4+8-, CD4-8+) compared with GCN2(+/+) mice treated with ASNase (genotype x ASNase, P < 0.05). In the spleen, GCN2 deletion magnified ASNase-induced reductions in CD4+ T cells, CD8+ T cells, CD19+ B cells, and CD11b+ leukocytes (genotype x ASNase, P < 0.05). These results indicate that loss of GCN2 enhances immunosuppression by ASNase and that this eIF2 kinase is broadly required for amino acid stress management in the immune system.

摘要

天冬酰胺酶(ASNase)引起的氨基酸饥饿会增强真核起始因子 2(eIF2)的磷酸化,这是由一般控制非阻遏 2(GCN2)激酶介导的,导致全局 mRNA 翻译速率降低。这有助于节省能量,并使细胞有时间重新编程应激相关基因表达,以减轻细胞损伤。本研究探讨了 GCN2 在免疫系统适应 ASNase 引起的氨基酸饥饿中的重要性。GCN2(+/+)和 GCN2(-/-)小鼠每天接受一次 ASNase 或生理盐水注射,持续 7 天。在胸腺和脾脏中,ASNase 诱导的氨基酸应激反应基因(如天冬酰胺合成酶和 CAAT 增强子结合蛋白同源蛋白)的激活需要 GCN2。ASNase 降低了两种基因型的食物摄入量和体重,但 GCN2(-/-)小鼠用 ASNase 处理后,脾脏和胸腺的湿重以及骨髓、肠系膜淋巴结和脾脏、胸腺、骨髓和肠系膜淋巴结中的总细胞数减少(基因型 x ASNase,P < 0.05)。在胸腺中,与 GCN2(+/+)小鼠用 ASNase 处理相比,GCN2(-/-)小鼠用 ASNase 处理后,所有检测到的亚群(CD3+、CD4-8-、CD4+8+、CD4+8-、CD4-8+)中的细胞凋亡增加,细胞数量减少(基因型 x ASNase,P < 0.05)。在脾脏中,GCN2 缺失放大了 ASNase 诱导的 CD4+T 细胞、CD8+T 细胞、CD19+B 细胞和 CD11b+白细胞减少(基因型 x ASNase,P < 0.05)。这些结果表明,GCN2 的缺失增强了 ASNase 引起的免疫抑制作用,并且这种 eIF2 激酶广泛用于免疫系统中的氨基酸应激管理。

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