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头颈部鳞状细胞癌干细胞中的独特表观遗传学特征。

Distinct epigenetic profiling in head and neck squamous cell carcinoma stem cells.

机构信息

Department of Otolaryngology-Head and Neck Surgery, Hokkaido University Graduate School of Medicine, Sapporo, Japan.

出版信息

Otolaryngol Head Neck Surg. 2011 Jun;144(6):900-9. doi: 10.1177/0194599811398786. Epub 2011 Feb 18.

DOI:10.1177/0194599811398786
PMID:21493336
Abstract

OBJECTIVE

To identify unique epigenetic signature in cancer stem cells (CSCs) in head and neck squamous cell carcinoma (HNSCC).

STUDY DESIGN

Molecular and microarray studies.

SETTING

Tertiary referral center.

SUBJECTS AND METHODS

Head and neck CSCs were isolated in HNSCC cells by CD44 staining and flow cytometry sorting. CSCs with highest CD44 expression (CD44(hi)) and non-stem cells (non-SCs) with lowest CD44 expression (CD44(low)) were then characterized for stemness gene expression and their responses to chemotherapeutic agents, followed by high-throughput epigenetic profiling using the Illumina BeadChip Array, targeting 28,544 CpG sites covering more than 14,956 genes.

RESULTS

CD44(hi) CSCs expressed higher levels of stem cell markers and were more resistant to chemotherapeutic agents as compared to CD44(low) non-SCs. By DNA methylation microarray analysis, 17 hypomethylated and 9 hypermethylated genes were identified in CD44(hi) CSCs as compared to non-SCs in most HNSCC cell lines. Cluster analysis using these 26 genes showed that CD44(hi) CSCs were epigenetically distinct from the CD44(low) non-SCs in all 5 HNSCC cell lines.

CONCLUSION

A unique epigenetic profile consisting of 17 hypomethylated and 9 hypermethylated genes was seen in HNSCC CSCs. These genes may be critically required in maintaining the stemness or pluripotency of CSCs and may represent novel molecular targets for anticancer therapies aimed at eradicating CSCs in HNSCC.

摘要

目的

鉴定头颈部鳞状细胞癌(HNSCC)中癌症干细胞(CSC)的独特表观遗传特征。

研究设计

分子和微阵列研究。

设置

三级转诊中心。

受试者和方法

通过 CD44 染色和流式细胞术分选从 HNSCC 细胞中分离头颈部 CSC。然后对 CD44 表达最高的 CSCs(CD44(hi))和 CD44 表达最低的非干细胞(CD44(low))进行干性基因表达及其对化疗药物的反应特征分析,然后使用 Illumina BeadChip Array 进行高通量表观遗传分析,靶向 28544 个 CpG 位点,覆盖超过 14956 个基因。

结果

与 CD44(low)非干细胞相比,CD44(hi)CSC 表达更高水平的干细胞标志物,对化疗药物更具抵抗力。通过 DNA 甲基化微阵列分析,在大多数 HNSCC 细胞系中,与 CD44(low)非干细胞相比,CD44(hi)CSC 中有 17 个低甲基化和 9 个高甲基化基因。使用这 26 个基因的聚类分析显示,在所有 5 种 HNSCC 细胞系中,CD44(hi)CSC 的表观遗传特征与 CD44(low)非干细胞明显不同。

结论

在 HNSCC CSC 中观察到由 17 个低甲基化和 9 个高甲基化基因组成的独特表观遗传谱。这些基因可能在维持 CSC 的干性或多能性方面至关重要,并且可能代表针对旨在根除 HNSCC 中 CSC 的抗癌治疗的新的分子靶标。

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