Srustidhar Das, S. Martina Parigi, Xinxin Luo, Jennifer Fransson, Bianca C. Kern, Ali Okhovat, Oscar E. Diaz, Chiara Sorini, Paulo Czarnewski, Anna T. Webb, Rodrigo A. Morales, Sacha Lebon, Gustavo Monasterio, Francisca Castillo, Kumar P. Tripathi, Ning He, Penelope Pelczar, Nicola Schaltenberg, Marjorie De la Fuente, Francisco López-Köstner, Susanne Nylén, Hjalte List Larsen, Raoul Kuiper, Per Antonson, Marcela A. Hermoso, Samuel Huber, Moshe Biton, Sandra Scharaw, Jan-Åke Gustafsson, Pekka Katajisto, Eduardo J. Villablanca
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引用次数: 0
摘要
不受控制的再生会导致肿瘤转化1,2,3。肠上皮细胞需要在持续的平衡和损伤诱导的组织更新过程中进行精确调控,以防止肿瘤转化,这表明一定存在将肿瘤生长与再生过程联系起来的途径。在这里,通过挖掘两个肠道损伤模型4,5 的 RNA 序列数据集,并使用药理学、转录组学和遗传学工具,我们发现肝脏 X 受体(LXR)通路激活是组织对损伤的一种适应,它能相互调节肠道再生和肿瘤发生。利用单细胞 RNA 测序、肠器官组织以及功能增益和功能缺失实验,我们证明了肠上皮细胞中的 LXR 激活会诱导两性胰岛素(Areg),从而增强再生反应。这种反应由 LXR 配体产生酶 CYP27A1 协调,该酶在受损的肠隐窝中上调。Cyp27a1的缺失会影响肠道再生,而外源性LXR激动剂可以挽救肠道再生。值得注意的是,在肿瘤模型中,Cyp27a1的缺失会导致肿瘤生长加快,而LXR的激活则会引起依赖于适应性免疫的抗肿瘤反应。与此一致,人类结直肠癌标本显示出 CYP27A1、LXR 靶基因以及 B 和 CD8 T 细胞基因特征水平的降低。因此,我们发现了一种上皮细胞对损伤的适应机制,LXR 在其中发挥着流变调节器的作用,在促进组织修复的同时限制肿瘤发生。
Liver X receptor unlinks intestinal regeneration and tumorigenesis
Uncontrolled regeneration leads to neoplastic transformation1,2,3. The intestinal epithelium requires precise regulation during continuous homeostatic and damage-induced tissue renewal to prevent neoplastic transformation, suggesting that pathways unlinking tumour growth from regenerative processes must exist. Here, by mining RNA-sequencing datasets from two intestinal damage models4,5 and using pharmacological, transcriptomics and genetic tools, we identified liver X receptor (LXR) pathway activation as a tissue adaptation to damage that reciprocally regulates intestinal regeneration and tumorigenesis. Using single-cell RNA sequencing, intestinal organoids, and gain- and loss-of-function experiments, we demonstrate that LXR activation in intestinal epithelial cells induces amphiregulin (Areg), enhancing regenerative responses. This response is coordinated by the LXR-ligand-producing enzyme CYP27A1, which was upregulated in damaged intestinal crypt niches. Deletion of Cyp27a1 impaired intestinal regeneration, which was rescued by exogenous LXR agonists. Notably, in tumour models, Cyp27a1 deficiency led to increased tumour growth, whereas LXR activation elicited anti-tumour responses dependent on adaptive immunity. Consistently, human colorectal cancer specimens exhibited reduced levels of CYP27A1, LXR target genes, and B and CD8 T cell gene signatures. We therefore identify an epithelial adaptation mechanism to damage, whereby LXR functions as a rheostat, promoting tissue repair while limiting tumorigenesis.
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Nature is a prestigious international journal that publishes peer-reviewed research in various scientific and technological fields. The selection of articles is based on criteria such as originality, importance, interdisciplinary relevance, timeliness, accessibility, elegance, and surprising conclusions. In addition to showcasing significant scientific advances, Nature delivers rapid, authoritative, insightful news, and interpretation of current and upcoming trends impacting science, scientists, and the broader public. The journal serves a dual purpose: firstly, to promptly share noteworthy scientific advances and foster discussions among scientists, and secondly, to ensure the swift dissemination of scientific results globally, emphasizing their significance for knowledge, culture, and daily life.
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