Active repression of cell fate plasticity by PROX1 safeguards hepatocyte identity and prevents liver tumourigenesis

Bryce Lim, Aryan Kamal, Borja Gomez Ramos, Juan Adrian Segarra, Ignacio Ibarra, Lennart Dignas, Tim Kindinger, Kai Volz, Mohammad Rahbari, Nuh Rahbari, Eric Poisel, Kanela Kafetzopoulou, Lio Bose, Marco Breinig, Danijela Heide, Suchira Gallage, Jose Barragan Avila, Hendrik Wiethoff, Ivan Berest, Sarah Schnabellehner, Martin Schneider, Jonas Becker, Dominic Helm, Dirk Grimm, Taija Makinen, Darjus Tschaharganeh, Mathias Heikenwalder, Judith B Zaugg, Moritz Mall
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Abstract

Cell fate plasticity enables development, yet unlocked plasticity is a cancer hallmark. Regulating cell identity requires gene activation and repression. While master regulators induce lineage-specific genes to restrict plasticity, it remains unclear whether unwanted plasticity is actively suppressed by lineage-specific repressors. Here, we computationally predict so-called safeguard repressors for 18 cell types that block phenotypic plasticity lifelong. We validated hepatocyte-specific candidates using reprogramming, revealing that Prospero homeobox protein 1 (PROX1) enhanced hepatocyte identity by direct repression of alternate fate master regulators. In mice, Prox1 was required for efficient hepatocyte regeneration after injury and acted as a tumour suppressor in multiple liver cancer models. In line with patient data, Prox1 depletion caused hepatocyte fate loss in vivo, and promoted transition of hepatocellular carcinoma to cholangiocarcinoma, conversely, overexpression promoted cholangiocarcinoma to hepatocellular carcinoma transdifferentiation. Our findings provide mechanistic evidence for PROX1 as a hepatocyte-specific safeguard and support a model where individual cell type-specific repressors actively suppress plasticity throughout life to safeguard lineage choice and prevent disease.
PROX1 对细胞命运可塑性的主动抑制可保护肝细胞特性并防止肝脏肿瘤发生
细胞命运的可塑性是发育的基础,而可塑性的释放则是癌症的标志。调节细胞特性需要基因的激活和抑制。虽然主调节因子会诱导细胞系特异性基因来限制可塑性,但目前还不清楚细胞系特异性抑制因子是否会主动抑制不需要的可塑性。在这里,我们通过计算预测了 18 种细胞类型的所谓保障抑制因子,它们能阻止表型可塑性的终身发展。我们利用重编程验证了肝细胞特异性候选者,发现Prospero同源框蛋白1(PROX1)通过直接抑制交替命运主调节因子增强了肝细胞特性。在小鼠中,Prox1 是损伤后肝细胞有效再生的必要条件,并在多种肝癌模型中起到肿瘤抑制作用。与患者数据一致的是,Prox1缺失会导致体内肝细胞命运丧失,并促进肝细胞癌向胆管癌转变,相反,过表达则会促进胆管癌向肝细胞癌的转分化。我们的研究结果为PROX1作为肝细胞特异性保护因子提供了机理证据,并支持这样一个模型:单个细胞类型特异性抑制因子在整个生命过程中积极抑制可塑性,以保障血统选择和预防疾病。
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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