硒代谢物甲基硒醇通过淋巴细胞受体 NKG2D 调节触发免疫激活的配体的表达。

The selenium metabolite methylselenol regulates the expression of ligands that trigger immune activation through the lymphocyte receptor NKG2D.

机构信息

From the Laboratory of Immunology, Department of Veterinary Disease Biology.

Department of Pharmacy, and.

出版信息

J Biol Chem. 2014 Nov 7;289(45):31576-90. doi: 10.1074/jbc.M114.591537. Epub 2014 Sep 25.

DOI:10.1074/jbc.M114.591537

PMID:25258323

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4223354/

Abstract

For decades, selenium research has been focused on the identification of active metabolites, which are crucial for selenium chemoprevention of cancer. In this context, the metabolite methylselenol (CH3SeH) is known for its action to selectively kill transformed cells through mechanisms that include increased formation of reactive oxygen species, induction of DNA damage, triggering of apoptosis, and inhibition of angiogenesis. Here we reveal that CH3SeH modulates the cell surface expression of NKG2D ligands. The expression of NKG2D ligands is induced by stress-associated pathways that occur early during malignant transformation and enable the recognition and elimination of tumors by activating the lymphocyte receptor NKG2D. CH3SeH regulated NKG2D ligands both on the transcriptional and the posttranscriptional levels. CH3SeH induced the transcription of MHC class I polypeptide-related sequence MICA/B and ULBP2 mRNA. However, the induction of cell surface expression was restricted to the ligands MICA/B. Remarkably, our studies showed that CH3SeH inhibited ULBP2 surface transport through inhibition of the autophagic transport pathway. Finally, we identified extracellular calcium as being essential for CH3SeH regulation of NKG2D ligands. A balanced cell surface expression of NKG2D ligands is considered to be an innate barrier against tumor development. Therefore, our work indicates that the application of selenium compounds that are metabolized to CH3SeH could improve NKG2D-based immune therapy.

摘要

几十年来，硒的研究一直集中在鉴定活性代谢物上，因为这些代谢物对硒的癌症化学预防至关重要。在这种情况下，代谢物甲基硒醇（CH3SeH）因其选择性杀死转化细胞的作用而闻名，其机制包括增加活性氧的形成、诱导 DNA 损伤、触发细胞凋亡和抑制血管生成。在这里，我们揭示了 CH3SeH 可以调节细胞表面 NKG2D 配体的表达。NKG2D 配体的表达是由应激相关途径诱导的，这些途径在恶性转化早期发生，通过激活淋巴细胞受体 NKG2D 来识别和消除肿瘤。CH3SeH 在转录和转录后水平上调节 NKG2D 配体。CH3SeH 诱导 MHC Ⅰ类多肽相关序列 MICA/B 和 ULBP2 mRNA 的转录。然而，细胞表面表达的诱导仅限于配体 MICA/B。值得注意的是，我们的研究表明，CH3SeH 通过抑制自噬运输途径来抑制 ULBP2 表面转运。最后，我们确定细胞外钙对于 CH3SeH 调节 NKG2D 配体是必不可少的。平衡的 NKG2D 配体细胞表面表达被认为是防止肿瘤发展的先天屏障。因此，我们的工作表明，应用代谢为 CH3SeH 的硒化合物可以改善基于 NKG2D 的免疫治疗。

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