The transcription factor LHX2 mediates and enhances oncogenic BMP signaling in medulloblastoma

IF 13.7 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Cell Death and Differentiation Pub Date : 2025-03-28 DOI:10.1038/s41418-025-01488-6

Yae Ohata, Mohamad M. Ali, Yutaro Tsubakihara, Yuka Itoh, Gabriela Rosén, Tobias Bergström, Anita Morén, Irene Golán-Cancela, Ayana Nakada, Oleksandr Voytyuk, Maiko Tsuchiya, Rei Fukui, Kouhei Yamamoto, Paula Martín-Rubio, Patricia Sancho, Carina Strell, Patrick Micke, Robert J. Wechsler-Reya, Yoshinobu Hashizume, Kohei Miyazono, Laia Caja, Carl-Henrik Heldin, Fredrik J. Swartling, Aristidis Moustakas

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Abstract

Oncogenic events perturb cerebellar development leading to medulloblastoma, a common childhood brain malignancy. Molecular analyses classify medulloblastoma into the WNT, SHH, Group 3 and Group 4 subgroups. Bone morphogenetic protein (BMP) pathways control cerebellar development and have been linked to the progression of medulloblastoma disease, with major remaining gaps in their mechanistic and clinically-relevant roles. We therefore aimed at exploring BMP mechanisms of action in medulloblastoma. Patient-derived tumors from different subgroups were analyzed in mouse xenografts, complemented by independent tumor immunohistochemical analysis. Cell-based assays analyzed signaling mechanisms. Medulloblastoma cell orthotopic xenografts analyzed tumor growth and metastasis in vivo. Active BMP signaling, detected as nuclear and phosphorylated SMAD1/5, characterized several medulloblastoma subgroups, with enrichment in Group 4, SHH and Group 3 tumors. Spatial transcriptomics in tumor areas, complemented by transcriptomic analysis of multiple cell models, identified BMP-dependent transcriptional induction of the LIM-homeobox gene 2 (LHX2). BMP signaling via SMADs induced LHX2 expression and LHX2 transcriptionally induced BMP type I receptor (ACVR1) expression by association with the proximal promoter region of the ACVR1 gene. BMP signaling and LHX2 gain-of-function expression led to enriched stemness and associated chemoresistance in medulloblastoma cultures. In-mouse orthotopic transplantation of paired primary/recurrent Group 4 medulloblastoma cell populations, correspondingly expressing LHX2-low/BMP-low signaling and LHX2-high/BMP-high signaling, ascribed to the latter (high) group more efficient tumor propagation and spinal cord metastatic potential. Depletion of LHX2 in these recurrent tumor cells suppressed both BMP signaling and tumor propagation in vivo. Thus, LHX2 cooperates with, and enhances, oncogenic BMP signaling in medulloblastoma tumors. The molecular pathway that couples LHX2 function to BMP signaling in medulloblastoma deepens our understanding this malignancy.

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转录因子LHX2介导并增强成神经管细胞瘤的BMP信号传导

致瘤事件干扰小脑发育导致成神经管细胞瘤，一种常见的儿童脑恶性肿瘤。分子分析将成神经管细胞瘤分为WNT、SHH、第3组和第4组。骨形态发生蛋白（BMP）通路控制小脑发育，并与成神经管细胞瘤疾病的进展有关，但其机制和临床相关作用仍存在重大空白。因此，我们旨在探索BMP在成神经管细胞瘤中的作用机制。在小鼠异种移植物中分析来自不同亚组的患者来源的肿瘤，并辅以独立的肿瘤免疫组织化学分析。基于细胞的检测分析了信号机制。髓母细胞瘤原位异种移植物体内肿瘤生长和转移情况分析。活跃的BMP信号被检测为核磷酸化的SMAD1/5，具有多个髓母细胞瘤亚群的特征，在4组、SHH和3组肿瘤中富集。肿瘤区域的空间转录组学，加上对多个细胞模型的转录组学分析，确定了bmp依赖性的lim同源盒基因2 （LHX2）的转录诱导。BMP信号通过SMADs诱导LHX2表达，LHX2通过与ACVR1基因近端启动子区相关转录诱导BMP I型受体（ACVR1）表达。在髓母细胞瘤培养中，BMP信号和LHX2的功能获得表达导致了干细胞的丰富和相关的化疗耐药。小鼠原位移植配对原发/复发的第4组髓母细胞瘤细胞群，相应表达lhx2 -低/ bmp -低信号和lhx2 -高/ bmp -高信号，归因于后者（高）组更有效的肿瘤增殖和脊髓转移潜力。在这些复发肿瘤细胞中，LHX2的缺失抑制了BMP信号传导和肿瘤在体内的增殖。因此，LHX2在成神经管细胞瘤肿瘤中协同并增强致癌BMP信号。在髓母细胞瘤中，LHX2功能与BMP信号耦合的分子通路加深了我们对这种恶性肿瘤的理解。

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来源期刊

Cell Death and Differentiation 生物-生化与分子生物学

CiteScore

24.70

自引率

1.60%

发文量

181

审稿时长

3 months

期刊介绍： Mission, vision and values of Cell Death & Differentiation: To devote itself to scientific excellence in the field of cell biology, molecular biology, and biochemistry of cell death and disease. To provide a unified forum for scientists and clinical researchers It is committed to the rapid publication of high quality original papers relating to these subjects, together with topical, usually solicited, reviews, meeting reports, editorial correspondence and occasional commentaries on controversial and scientifically informative issues.