横纹肌肉瘤融合肿瘤蛋白最初在体内开创了一种神经特征

bioRxiv Pub Date : 2024-07-16 DOI:10.1101/2024.07.12.603270
Jack Kucinski, Alexi Tallan, C. Taslim, Meng Wang, Matthew V. Cannon, Katherine M. Silvius, Benjamin Z. Stanton, Genevieve C. Kendall
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引用次数: 0

摘要

融合阳性横纹肌肉瘤是一种侵袭性儿童癌症,其分子特征是肌生成受阻。其决定性遗传驱动因子 PAX3::FOXO1 是一种嵌合功能增益转录因子。对 PAX3::FOXO1 体内表观遗传机制的不完全了解阻碍了治疗方法的开发。在这里,我们建立了 PAX3::FOXO1 斑马鱼注射模型和半自动化 ChIP-seq 归一化策略,以评估 PAX3::FOXO1 在发育过程中最初是如何与染色质相互作用的。我们研究了 PAX3::FOXO1 对染色质的识别以及随后的转录结果。我们发现,PAX3::FOXO1 通过与先驱活动一致的部分/homeobox 基序识别,与无法访问的染色质相互作用。然而,PAX3::FOXO1-基因组结合通过一个复合配对盒/homeobox基序改变了染色质的可及性,并重新分配了H3K27ac,从而激活了神经转录程序。我们发现的神经特征高度代表了化疗后富集的临床横纹肌肉瘤基因表达程序。总之,我们发现部分/homeobox基因识别是PAX3::FOXO1先锋功能的一种新模式,并发现神经特征是PAX3::FOXO1肿瘤启动的潜在关键事件。
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Rhabdomyosarcoma fusion oncoprotein initially pioneers a neural signature in vivo
Fusion-positive rhabdomyosarcoma is an aggressive pediatric cancer molecularly characterized by arrested myogenesis. The defining genetic driver, PAX3::FOXO1, functions as a chimeric gain-of-function transcription factor. An incomplete understanding of PAX3::FOXO1’s in vivo epigenetic mechanisms has hindered therapeutic development. Here, we establish a PAX3::FOXO1 zebrafish injection model and semi-automated ChIP-seq normalization strategy to evaluate how PAX3::FOXO1 initially interfaces with chromatin in a developmental context. We investigated PAX3::FOXO1’s recognition of chromatin and subsequent transcriptional consequences. We find that PAX3::FOXO1 interacts with inaccessible chromatin through partial/homeobox motif recognition consistent with pioneering activity. However, PAX3::FOXO1-genome binding through a composite paired-box/homeobox motif alters chromatin accessibility and redistributes H3K27ac to activate neural transcriptional programs. We uncover neural signatures that are highly representative of clinical rhabdomyosarcoma gene expression programs that are enriched following chemotherapy. Overall, we identify partial/homeobox motif recognition as a new mode for PAX3::FOXO1 pioneer function and identify neural signatures as a potentially critical PAX3::FOXO1 tumor initiation event.
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