Genome-wide CRISPR screening identifies tyrosylprotein sulfotransferase-2 as a target for augmenting anti-PD1 efficacy

IF 27.7 1区 医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Cancer Pub Date : 2024-08-02 DOI:10.1186/s12943-024-02068-x
Yumi Oh, Sujeong Kim, Yunjae Kim, Hyun Kim, Dongjun Jang, Seungjae Shin, Soo-Jin Lee, Jiwon Kim, Sang Eun Lee, Jaeik Oh, Yoojin Yang, Dohee Kim, Hae Rim Jung, Sangjin Kim, Jihui Kim, Kyungchan Min, Beomki Cho, Hoseok Seo, Dohyun Han, Hansoo Park, Sung-Yup Cho
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Abstract

Immune checkpoint therapy (ICT) provides durable responses in select cancer patients, yet resistance remains a significant challenge, prompting the exploration of underlying molecular mechanisms. Tyrosylprotein sulfotransferase-2 (TPST2), known for its role in protein tyrosine O-sulfation, has been suggested to modulate the extracellular protein-protein interactions, but its specific role in cancer immunity remains largely unexplored. To explore tumor cell-intrinsic factors influencing anti-PD1 responsiveness, we conducted a pooled loss-of-function genetic screen in humanized mice engrafted with human immune cells. The responsiveness of cancer cells to interferon-γ (IFNγ) was estimated by evaluating IFNγ-mediated induction of target genes, STAT1 phosphorylation, HLA expression, and cell growth suppression. The sulfotyrosine-modified target gene of TPST2 was identified by co-immunoprecipitation and mass spectrometry. The in vivo effects of TPST2 inhibition were evaluated using mouse syngeneic tumor models and corroborated by bulk and single-cell RNA sequencing analyses. Through in vivo genome-wide CRISPR screening, TPST2 loss-of-function emerged as a potential enhancer of anti-PD1 treatment efficacy. TPST2 suppressed IFNγ signaling by sulfating IFNγ receptor 1 at Y397 residue, while its downregulation boosted IFNγ-mediated signaling and antigen presentation. Depletion of TPST2 in cancer cells augmented anti-PD1 antibody efficacy in syngeneic mouse tumor models by enhancing tumor-infiltrating lymphocytes. RNA sequencing data revealed TPST2’s inverse correlation with antigen presentation, and increased TPST2 expression is associated with poor prognosis and altered cancer immunity across cancer types. We propose TPST2’s novel role as a suppressor of cancer immunity and advocate for its consideration as a therapeutic target in ICT-based treatments.
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全基因组CRISPR筛选确定酪氨酸蛋白磺基转移酶-2为增强抗PD1疗效的靶点
免疫检查点疗法(ICT)为部分癌症患者提供了持久的治疗效果,但耐药性仍然是一个重大挑战,这促使人们探索其潜在的分子机制。酪氨酸蛋白磺基转移酶-2(TPST2)因其在蛋白酪氨酸O-硫酸化中的作用而闻名,有人认为它能调节细胞外蛋白与蛋白之间的相互作用,但它在癌症免疫中的具体作用在很大程度上仍未被探索。为了探索影响抗 PD1 反应性的肿瘤细胞内在因素,我们在接种了人类免疫细胞的人源化小鼠中进行了功能缺失基因筛选。通过评估 IFNγ 介导的靶基因诱导、STAT1 磷酸化、HLA 表达和细胞生长抑制,评估了癌细胞对干扰素-γ(IFNγ)的反应性。通过共免疫沉淀和质谱分析确定了 TPST2 的硫代酪氨酸修饰靶基因。利用小鼠合成肿瘤模型评估了 TPST2 抑制作用的体内效应,并通过大量和单细胞 RNA 测序分析进行了证实。通过体内全基因组CRISPR筛选,TPST2功能缺失成为抗PD1疗效的潜在增强因子。TPST2通过硫酸化IFNγ受体1的Y397残基抑制IFNγ信号传导,而下调TPST2则促进IFNγ介导的信号传导和抗原递呈。通过增强肿瘤浸润淋巴细胞,消耗癌细胞中的TPST2可提高抗PD1抗体在合成小鼠肿瘤模型中的疗效。RNA 测序数据揭示了 TPST2 与抗原递呈的反相关性,TPST2 表达的增加与预后不良和不同癌症类型的癌症免疫改变有关。我们提出了 TPST2 作为癌症免疫抑制因子的新作用,并主张将其作为基于 ICT 的治疗靶点。
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来源期刊
Molecular Cancer
Molecular Cancer 医学-生化与分子生物学
CiteScore
54.90
自引率
2.70%
发文量
224
审稿时长
2 months
期刊介绍: Molecular Cancer is a platform that encourages the exchange of ideas and discoveries in the field of cancer research, particularly focusing on the molecular aspects. Our goal is to facilitate discussions and provide insights into various areas of cancer and related biomedical science. We welcome articles from basic, translational, and clinical research that contribute to the advancement of understanding, prevention, diagnosis, and treatment of cancer. The scope of topics covered in Molecular Cancer is diverse and inclusive. These include, but are not limited to, cell and tumor biology, angiogenesis, utilizing animal models, understanding metastasis, exploring cancer antigens and the immune response, investigating cellular signaling and molecular biology, examining epidemiology, genetic and molecular profiling of cancer, identifying molecular targets, studying cancer stem cells, exploring DNA damage and repair mechanisms, analyzing cell cycle regulation, investigating apoptosis, exploring molecular virology, and evaluating vaccine and antibody-based cancer therapies. Molecular Cancer serves as an important platform for sharing exciting discoveries in cancer-related research. It offers an unparalleled opportunity to communicate information to both specialists and the general public. The online presence of Molecular Cancer enables immediate publication of accepted articles and facilitates the presentation of large datasets and supplementary information. This ensures that new research is efficiently and rapidly disseminated to the scientific community.
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