干扰素相关 DNA 损伤抵抗特征（IRDS）基因的功能界面、生物途径和调控。

Functional Interfaces, Biological Pathways, and Regulations of Interferon-Related DNA Damage Resistance Signature (IRDS) Genes.

机构信息

International Centre for Cancer Vaccine Science, University of Gdansk, ul. Kładki 24, 80-822 Gdansk, Poland.

Institute of Genetics and Molecular Medicine, University of Edinburgh, Edinburgh EH4 2XR, UK.

出版信息

Biomolecules. 2021 Apr 22;11(5):622. doi: 10.3390/biom11050622.

DOI:10.3390/biom11050622

PMID:33922087

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8143464/

Abstract

Interferon (IFN)-related DNA damage resistant signature (IRDS) genes are a subgroup of interferon-stimulated genes (ISGs) found upregulated in different cancer types, which promotes resistance to DNA damaging chemotherapy and radiotherapy. Along with briefly discussing IFNs and signalling in this review, we highlighted how different IRDS genes are affected by viruses. On the contrary, different strategies adopted to suppress a set of IRDS genes (STAT1, IRF7, OAS family, and BST2) to induce (chemo- and radiotherapy) sensitivity were deliberated. Significant biological pathways that comprise these genes were classified, along with their frequently associated genes (IFIT1/3, IFITM1, IRF7, ISG15, MX1/2 and OAS1/3/L). Major upstream regulators from the IRDS genes were identified, and different IFN types regulating these genes were outlined. Functional interfaces of IRDS proteins with DNA/RNA/ATP/GTP/NADP biomolecules featured a well-defined pharmacophore model for STAT1/IRF7-dsDNA and OAS1/OAS3/IFIH1-dsRNA complexes, as well as for the genes binding to GDP or NADP+. The Lys amino acid was found commonly interacting with the ATP phosphate group from OAS1/EIF2AK2/IFIH1 genes. Considering the premise that targeting IRDS genes mediated resistance offers an efficient strategy to resensitize tumour cells and enhances the outcome of anti-cancer treatment, this review can add some novel insights to the field.

摘要

干扰素（IFN）相关的 DNA 损伤抗性特征（IRDS）基因是干扰素刺激基因（ISGs）的一个亚组，在不同类型的癌症中上调，促进了对 DNA 损伤化疗和放疗的耐药性。在本综述中，我们简要讨论了 IFNs 和信号转导，强调了不同的 IRDS 基因如何受到病毒的影响。相反，我们讨论了抑制一组 IRDS 基因（STAT1、IRF7、OAS 家族和 BST2）以诱导（化疗和放疗）敏感性的不同策略。对这些基因包含的重要生物学途径进行了分类，并列出了它们经常相关的基因（IFIT1/3、IFITM1、IRF7、ISG15、MX1/2 和 OAS1/3/L）。确定了 IRDS 基因的主要上游调节剂，并概述了调节这些基因的不同 IFN 类型。IRDS 蛋白与 DNA/RNA/ATP/GTP/NADP 生物分子的功能界面具有明确的药效团模型，用于 STAT1/IRF7-dsDNA 和 OAS1/OAS3/IFIH1-dsRNA 复合物，以及与 GDP 或 NADP+结合的基因。发现赖氨酸氨基酸通常与 OAS1/EIF2AK2/IFIH1 基因的 ATP 磷酸基团相互作用。考虑到靶向 IRDS 基因介导的耐药性提供了一种使肿瘤细胞重新敏感并增强抗癌治疗效果的有效策略，本综述可以为该领域增添一些新的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c21c/8143464/e5ac287f7da6/biomolecules-11-00622-g001.jpg

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干扰素相关 DNA 损伤抵抗特征（IRDS）基因的功能界面、生物途径和调控。

Functional Interfaces, Biological Pathways, and Regulations of Interferon-Related DNA Damage Resistance Signature (IRDS) Genes.

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