家族性胰腺癌前驱病变的基因表达网络分析。

Journal of Pancreatic Cancer Pub Date : 2020-08-05 eCollection Date: 2020-01-01 DOI:10.1089/pancan.2020.0007
Ming Tan, Ove B Schaffalitzky de Muckadell, Maiken Thyregod Jøergensen
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引用次数: 0

摘要

目的:高级别胰腺上皮内瘤变(PanIN)是侵袭性癌前病变,与进展为胰腺导管腺癌(PDAC)的风险相关。高级别家族性胰腺癌(FPC)相关PanIN病变中共失调基因活性的描述可能表征从家族性PanIN到PDAC进展过程中的分子事件。材料和方法:我们采用加权基因共表达网络分析(WGCNA),在13例FPC易感个体的PanIN-2/3样本、6例散发性胰腺癌(SPC)患者的PDAC样本和4例正常供体胰腺组织样本中,鉴定与FPC相关的PanIN病变相关的共表达基因群。结果:WGCNA鉴定出FPC和SPC中基因本体(GO)项显著富集的7个差异表达基因(DEG)模块和2个共同表达基因(CEG)模块,包括3个上调基因(p p p ALOX12-AS1、BCL2L11、EHD4、C4B、BTN3A3、NDUFA11、RBM4B、MYOC、ZBTB47、TTTY15、NAPRT、LOC102606465、LOC100505711和PTK2)。下调的模块包括170个基因(p p COL10A1、SAMD9、PLPP4、COMP、POSTN、IGHV4-31、THBS2、MMP9、FNDC1、HOPX、TMEM200A、INHBA和SULF1)。DEG模块丰富了与线粒体结构和三磷酸腺苷代谢过程、细胞外结构和结合特性、体液和补体介导的免疫反应、配体门控离子通道活性和跨膜受体活性相关的氧化石墨烯术语。在CEG模块中,IL22RA1、DPEP1和BCAT1被发现是与FPC和SPC相关的高度结缔组织基因。结论:fpc相关PanIN病变与SPC具有共同的分子基础,这可以通过基因网络活动和共同表达的高连通性枢纽基因来证明。FPC和SPC的不同分子病理学涉及多个共表达的基因簇,这些基因簇富集于氧化石墨烯的细胞外活性和线粒体功能。
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Gene Expression Network Analysis of Precursor Lesions in Familial Pancreatic Cancer.

Purpose: High-grade pancreatic intraepithelial neoplasia (PanIN) are aggressive premalignant lesions, associated with risk of progression to pancreatic ductal adenocarcinoma (PDAC). A depiction of co-dysregulated gene activity in high-grade familial pancreatic cancer (FPC)-related PanIN lesions may characterize the molecular events during the progression from familial PanIN to PDAC. Materials and Methods: We performed weighted gene coexpression network analysis (WGCNA) to identify clusters of coexpressed genes associated with FPC-related PanIN lesions in 13 samples with PanIN-2/3 from FPC predisposed individuals, 6 samples with PDAC from sporadic pancreatic cancer (SPC) patients, and 4 samples of normal donor pancreatic tissue. Results: WGCNA identified seven differentially expressed gene (DEG) modules and two commonly expressed gene (CEG) modules with significant enrichment for Gene Ontology (GO) terms in FPC and SPC, including three upregulated (p < 5e-05) and four downregulated (p < 6e-04) gene modules in FPC compared to SPC. Among the DEG modules, the upregulated modules include 14 significant genes (p < 1e-06): ALOX12-AS1, BCL2L11, EHD4, C4B, BTN3A3, NDUFA11, RBM4B, MYOC, ZBTB47, TTTY15, NAPRT, LOC102606465, LOC100505711, and PTK2. The downregulated modules include 170 genes (p < 1e-06), among them 13 highly significant genes (p < 1e-10): COL10A1, SAMD9, PLPP4, COMP, POSTN, IGHV4-31, THBS2, MMP9, FNDC1, HOPX, TMEM200A, INHBA, and SULF1. The DEG modules are enriched for GO terms related to mitochondrial structure and adenosine triphosphate metabolic processes, extracellular structure and binding properties, humoral and complement mediated immune response, ligand-gated ion channel activity, and transmembrane receptor activity. Among the CEG modules, IL22RA1, DPEP1, and BCAT1 were found as highly connective hub genes associated with both FPC and SPC. Conclusion: FPC-related PanIN lesions exhibit a common molecular basis with SPC as shown by gene network activities and commonly expressed high-connectivity hub genes. The differential molecular pathology of FPC and SPC involves multiple coexpressed gene clusters enriched for GO terms including extracellular activities and mitochondrion function.

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