Heterogeneity in the gene regulatory landscape of leiomyosarcoma.

NAR Cancer Pub Date : 2023-07-24 eCollection Date: 2023-09-01 DOI:10.1093/narcan/zcad037
Tatiana Belova, Nicola Biondi, Ping-Han Hsieh, Pavlo Lutsik, Priya Chudasama, Marieke L Kuijjer
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Abstract

Characterizing inter-tumor heterogeneity is crucial for selecting suitable cancer therapy, as the presence of diverse molecular subgroups of patients can be associated with disease outcome or response to treatment. While cancer subtypes are often characterized by differences in gene expression, the mechanisms driving these differences are generally unknown. We set out to model the regulatory mechanisms driving sarcoma heterogeneity based on patient-specific, genome-wide gene regulatory networks. We developed a new computational framework, PORCUPINE, which combines knowledge on biological pathways with permutation-based network analysis to identify pathways that exhibit significant regulatory heterogeneity across a patient population. We applied PORCUPINE to patient-specific leiomyosarcoma networks modeled on data from The Cancer Genome Atlas and validated our results in an independent dataset from the German Cancer Research Center. PORCUPINE identified 37 heterogeneously regulated pathways, including pathways representing potential targets for treatment of subgroups of leiomyosarcoma patients, such as FGFR and CTLA4 inhibitory signaling. We validated the detected regulatory heterogeneity through analysis of networks and chromatin states in leiomyosarcoma cell lines. We showed that the heterogeneity identified with PORCUPINE is not associated with methylation profiles or clinical features, thereby suggesting an independent mechanism of patient heterogeneity driven by the complex landscape of gene regulatory interactions.

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白肌瘤基因调控格局的异质性。
表征肿瘤间的异质性对于选择合适的癌症疗法至关重要,因为患者中存在的不同分子亚群可能与疾病预后或对治疗的反应有关。虽然癌症亚型通常以基因表达的差异为特征,但这些差异的驱动机制通常是未知的。我们着手根据患者特异性的全基因组基因调控网络来模拟驱动肉瘤异质性的调控机制。我们开发了一个新的计算框架--PORCUPINE,它将生物通路知识与基于置换的网络分析相结合,以确定在患者群体中表现出显著调控异质性的通路。我们将 PORCUPINE 应用于以癌症基因组图谱数据为模型的患者特异性白肌瘤网络,并在德国癌症研究中心的一个独立数据集中验证了我们的结果。PORCUPINE 发现了 37 条异质性调控通路,其中包括代表潜在治疗目标的通路,如表皮生长因子受体(FGFR)和 CTLA4 抑制信号。我们通过分析子宫肌瘤细胞系的网络和染色质状态验证了检测到的调控异质性。我们发现,PORCUPINE 发现的异质性与甲基化图谱或临床特征无关,从而表明患者异质性的独立机制是由复杂的基因调控相互作用驱动的。
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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