CTG-Initiated Cryptic Peptide Translation Up- and Downstream of a Canonical ATG Start Codon Is Enhanced by TLR Stimulation and Induces Tumor Regression in Mice.

IF 8.2 1区医学 Q1 IMMUNOLOGY

Cancer immunology research Pub Date : 2025-08-01 DOI:10.1158/2326-6066.CIR-24-0467

Ziye Song, Youkyung Lim, Anneloes van Krimpen, Mitchell A A Geleijnse, Manon Messchendorp, Jane S A Voerman, Ling Li, Emma G M Tondeur, Gunja Mishra, Brett J Hos, Dwin G B Grashof, Ralph Stadhouders, Harmen J G van de Werken, Peter D Katsikis, Christopher Schliehe

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Abstract

Cytotoxic T lymphocytes screen cells for signs of infection and transformation by recognizing peptides displayed on MHC class I molecules. Next to canonical ATG-initiated open reading frames (ORF), noncanonical translation can result in synthesis of nonconventional or "cryptic" polypeptides. These can originate from translation initiation at noncanonical start codons, a process previously associated with inflammation and oncogenic transformation. Cryptic translation products are efficiently presented on MHC class I molecules and therefore increasingly recognized as potential targets for cancer immunotherapy. In this study, we studied the impact of localization of a CTG-initiated ORF relative to a canonical ATG start codon on cryptic expression after innate immune stimulation. We generated immortalized C57BL/6J mouse-derived bone marrow progenitor cells (HoxB8) expressing tandem minigene constructs, which encoded a CTG-driven chicken ovalbumin-derived SIINFEKL (S8L) epitope (CTG-S8L; H-2Kb restriced) either up- or downstream of a canonical ATG-initiated UTY-derived peptide WI9. The treatment of HoxB8-derived macrophages with Toll-like receptor agonists enhanced position-independent CTG-S8L translation, without affecting ATG-driven expression. Downstream CTG-S8L translation was driven by leaky scanning or ribosome re-initiation rather than read-through translation. Mouse AE17 mesothelioma and B16F10 melanoma cells expressing cryptic S8L either up- or downstream of a canonical ORF were efficiently killed by H-2Kb/S8L-restriced OT-I T cells in vitro, even though their antigen expression levels were extremely low. Mice implanted with tumors expressing cryptic S8L showed delayed tumor progression in vivo. In summary, our study contributes to the characterization of noncanonical start codon-driven cryptic antigen translation and highlights its potential for cancer immunotherapy.

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ctg启动的ATG起始密码子上下游的隐肽翻译在TLR刺激下增强，并诱导小鼠肿瘤消退。

细胞毒性t淋巴细胞（ctl）通过识别主要组织相容性复合体（MHC） I类分子上显示的肽来筛选细胞感染和转化的迹象。在规范的atg启动的开放阅读框架（orf）旁边，非规范翻译可能导致非常规或“隐”多肽的合成。这些可能起源于非规范起始密码子的翻译起始，这一过程先前与炎症和致癌转化有关。隐翻译产物有效地呈现在MHC I类分子上，因此越来越被认为是癌症免疫治疗的潜在靶点。在这里，我们研究了ctg启动的ORF相对于标准ATG起始密码子的定位如何影响先天免疫刺激后的隐性表达。我们生成了永生化的C57BL/6J小鼠骨髓祖细胞（HoxB8），表达串联miniigene构建体，该构建体编码ctg驱动的鸡卵清蛋白衍生的SIINFEKL （S8L）表位(CTG-S8L；h - 2kb限制的)，在典型atg启动的uty衍生肽WI9的上游或下游(ATG-WI9；H-2Db-restriced)。toll样受体激动剂治疗hoxb8来源的巨噬细胞可增强位置无关的CTG-S8L翻译，而不影响atg驱动的表达。下游CTG-S8L翻译是通过漏扫描或核糖体再起始驱动的，而不是通过读取翻译驱动的。小鼠AE17间皮瘤和B16F10黑色素瘤细胞在标准ORF上或下游表达隐型S8L，在体外被H-2Kb/S8L限制性的t - it细胞有效杀死，即使它们的抗原表达水平极低。小鼠体内植入表达隐性S8L的肿瘤后，肿瘤进展延迟。总之，我们的研究有助于表征非规范启动密码子驱动的隐抗原翻译，并强调其在癌症免疫治疗中的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cancer immunology research ONCOLOGY-IMMUNOLOGY

CiteScore

15.60

自引率

1.00%

发文量

260

期刊介绍： Cancer Immunology Research publishes exceptional original articles showcasing significant breakthroughs across the spectrum of cancer immunology. From fundamental inquiries into host-tumor interactions to developmental therapeutics, early translational studies, and comprehensive analyses of late-stage clinical trials, the journal provides a comprehensive view of the discipline. In addition to original research, the journal features reviews and opinion pieces of broad significance, fostering cross-disciplinary collaboration within the cancer research community. Serving as a premier resource for immunology knowledge in cancer research, the journal drives deeper insights into the host-tumor relationship, potent cancer treatments, and enhanced clinical outcomes. Key areas of interest include endogenous antitumor immunity, tumor-promoting inflammation, cancer antigens, vaccines, antibodies, cellular therapy, cytokines, immune regulation, immune suppression, immunomodulatory effects of cancer treatment, emerging technologies, and insightful clinical investigations with immunological implications.