miR-203 drives breast cancer cell differentiation.

Nuria G Martínez-Illescas, Silvia Leal, Patricia González, Osvaldo Graña-Castro, Juan José Muñoz-Oliveira, Alfonso Cortés-Peña, María Gómez-Gil, Zaira Vega, Verónica Neva, Andrea Romero, Miguel Quintela-Fandino, Eva Ciruelos, Consuelo Sanz, Sofía Aragón, Leisy Sotolongo, Sara Jiménez, Eduardo Caleiras, Francisca Mulero, Cristina Sánchez, Marcos Malumbres, María Salazar-Roa
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Abstract

A hallmark of many malignant tumors is dedifferentiated (immature) cells bearing slight or no resemblance to the normal cells from which the cancer originated. Tumor dedifferentiated cells exhibit a higher capacity to survive to chemo and radiotherapies and have the ability to incite tumor relapse. Inducing cancer cell differentiation would abolish their self-renewal and invasive capacity and could be combined with the current standard of care, especially in poorly differentiated and aggressive tumors (with worst prognosis). However, differentiation therapy is still in its early stages and the intrinsic complexity of solid tumor heterogeneity demands innovative approaches in order to be efficiently translated into the clinic. We demonstrate here that microRNA 203, a potent driver of differentiation in pluripotent stem cells (ESCs and iPSCs), promotes the differentiation of mammary gland tumor cells. Combining mouse in vivo approaches and both mouse and human-derived tridimensional organoid cultures, we report that miR-203 influences the self-renewal capacity, plasticity and differentiation potential of breast cancer cells and prevents tumor cell growth in vivo. Our work sheds light on differentiation-based antitumor therapies and offers miR-203 as a promising tool for directly confronting the tumor-maintaining and regeneration capability of cancer cells.

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miR-203驱动乳腺癌细胞分化
许多恶性肿瘤的一个特征是去分化(未成熟)细胞与癌变起源的正常细胞有轻微相似或没有相似之处。肿瘤去分化细胞在化疗和放疗中表现出更高的生存能力,并有能力引发肿瘤复发。诱导癌细胞分化将破坏其自我更新和侵袭能力,可以与目前的护理标准相结合,特别是在低分化和侵袭性肿瘤(预后最差)中。然而,分化治疗仍处于早期阶段,实体瘤异质性的内在复杂性需要创新的方法才能有效地转化为临床。我们在此证明,microRNA 203是多能干细胞(ESCs和iPSCs)分化的有效驱动因子,可促进乳腺肿瘤细胞的分化。结合小鼠体内方法以及小鼠和人源三维类器官培养,我们报道了miR-203影响乳腺癌细胞的自我更新能力、可塑性和分化潜力,并阻止肿瘤细胞在体内生长。我们的工作揭示了基于分化的抗肿瘤治疗,并提供了miR-203作为直接对抗癌细胞维持肿瘤和再生能力的有前途的工具。
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