Tony G Kleijn,Baptiste Ameline,Willem H Schreuder,Wierd Kooistra,Jan J Doff,Max Witjes,Sarina E C Pichardo,Tereza Lausová,Sjors A Koppes,Mari F C M van den Hout,Ilse C H van Engen-van Grunsven,Uta E Flucke,Jan de Lange,Karoly Szuhai,Inge H Briaire-de Bruijn,Dilara C Savci-Heijink,Albert J H Suurmeijer,Judith V M G Bovée,Andreas von Deimling,Daniel Baumhoer,Arjen H G Cleven
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We collected a cohort of 16 odontogenic myxomas from 2006 to 2021 located in the mandible (n = 10) and maxilla (n = 6) with available formalin-fixed paraffin-embedded or fresh frozen tumor tissue from a biopsy or resection material. Genome-wide DNA methylation and copy number variation data were generated from 12 odontogenic myxomas using the Illumina Infinium Methylation EPIC array, interrogating >850,000 CpG sites. Unsupervised clustering and dimensionality reduction (Uniform Manifold Approximation and Projection) revealed that odontogenic myxomas formed a distinct DNA methylation class. Copy number profiling showed recurrent whole-chromosome gains (trisomies) of chromosomes 5, 8, and 20 in all cases, and of chromosomes 10, 12, and 17 in all except one case. In conclusion, odontogenic myxomas harbor recurrent copy number patterns and a distinct DNA methylation profile, which can be used as an additional diagnostic tool in the appropriate clinical and radiologic context. 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引用次数: 0
摘要
牙源性肌瘤是一种罕见的良性局部侵袭性肿瘤,发生在颌骨的生牙区。牙源性肌瘤的分子机制尚不清楚,至今也没有诊断标志物。本研究的目的是分析牙源性肌瘤的DNA甲基化和拷贝数变异,以确定用于诊断决策的新分子特征。我们从 2006 年到 2021 年收集了 16 例牙源性肌瘤,分别位于下颌骨(10 例)和上颌骨(6 例),肿瘤组织为福尔马林固定石蜡包埋或新鲜冷冻的活检或切除材料。利用Illumina Infinium Methylation EPIC阵列从12个牙源性肌瘤中生成了全基因组DNA甲基化和拷贝数变异数据,询问了>850,000个CpG位点。无监督聚类和降维(Uniform Manifold Approximation and Projection)显示,牙源性肌瘤形成了一个独特的DNA甲基化类别。拷贝数分析表明,在所有病例中,5、8和20号染色体反复出现全染色体增殖(三体),除一例外,所有病例中的10、12和17号染色体也反复出现全染色体增殖(三体)。总之,牙源性肌瘤具有反复出现的拷贝数模式和独特的 DNA 甲基化特征,在适当的临床和放射学背景下,可将其作为一种额外的诊断工具。还需要进一步的研究来解释这些改变所导致的遗传机制,这些改变是这些局部侵袭性肿瘤的驱动因素。
Odontogenic Myxomas Harbor Recurrent Copy Number Alterations and a Distinct Methylation Signature.
Odontogenic myxoma is a rare, benign, and locally aggressive tumor that develops in the tooth-bearing areas of the jaw. The molecular mechanisms underlying odontogenic myxomas are unknown and no diagnostic markers are available to date. The aim of this study was to analyze DNA methylation and copy number variations in odontogenic myxomas to identify new molecular signatures for diagnostic decision-making. We collected a cohort of 16 odontogenic myxomas from 2006 to 2021 located in the mandible (n = 10) and maxilla (n = 6) with available formalin-fixed paraffin-embedded or fresh frozen tumor tissue from a biopsy or resection material. Genome-wide DNA methylation and copy number variation data were generated from 12 odontogenic myxomas using the Illumina Infinium Methylation EPIC array, interrogating >850,000 CpG sites. Unsupervised clustering and dimensionality reduction (Uniform Manifold Approximation and Projection) revealed that odontogenic myxomas formed a distinct DNA methylation class. Copy number profiling showed recurrent whole-chromosome gains (trisomies) of chromosomes 5, 8, and 20 in all cases, and of chromosomes 10, 12, and 17 in all except one case. In conclusion, odontogenic myxomas harbor recurrent copy number patterns and a distinct DNA methylation profile, which can be used as an additional diagnostic tool in the appropriate clinical and radiologic context. Further research is needed to explain the genetic mechanisms caused by these alterations that drive these locally aggressive neoplasms.
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