骨髓增生异常综合征中地西他滨耐药的机制。

Mechanisms of resistance to decitabine in the myelodysplastic syndrome.

机构信息

Department of Leukemia, The University of Texas MD Anderson Cancer Center, Houston, Texas, United States of America.

出版信息

PLoS One. 2011;6(8):e23372. doi: 10.1371/journal.pone.0023372. Epub 2011 Aug 17.

DOI:10.1371/journal.pone.0023372

PMID:21858090

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3157379/

Abstract

PURPOSE

The DNA methylation inhibitor 5-aza-2'-deoxycytidine (DAC) is approved for the treatment of myelodysplastic syndromes (MDS), but resistance to DAC develops during treatment and mechanisms of resistance remain unknown. Therefore, we investigated mechanisms of primary and secondary resistance to DAC in MDS.

PATIENTS AND METHODS

We performed Quantitative Real-Time PCR to examine expression of genes related to DAC metabolism prior to therapy in 32 responders and non-responders with MDS as well as 14 patients who achieved a complete remission and subsequently relapsed while on therapy (secondary resistance). We then performed quantitative methylation analyses by bisulfite pyrosequencing of 10 genes as well as Methylated CpG Island Amplification Microarray (MCAM) analysis of global methylation in secondary resistance.

RESULTS

Most genes showed no differences by response, but the CDA/DCK ratio was 3 fold higher in non-responders than responders (P<.05), suggesting that this could be a mechanism of primary resistance. There were no significant differences at relapse in DAC metabolism genes, and no DCK mutations were detected. Global methylation measured by the LINE1 assay was lower at relapse than at diagnosis (P<.05). On average, the methylation of 10 genes was lower at relapse (16.1%) compared to diagnosis (18.1%) (P<.05). MCAM analysis showed decreased methylation of an average of 4.5% (range 0.6%-9.7%) of the genes at relapse. By contrast, new cytogenetic changes were found in 20% of patients.

CONCLUSION

Pharmacological mechanisms are involved in primary resistance to DAC, whereas hypomethylation does not prevent a relapse for patients with DAC treatment.

摘要

目的

DNA 甲基化抑制剂 5-氮杂-2'-脱氧胞苷（DAC）已被批准用于治疗骨髓增生异常综合征（MDS），但在治疗过程中会产生对 DAC 的耐药性，其耐药机制仍不清楚。因此，我们研究了 MDS 患者对 DAC 的原发性和继发性耐药的机制。

方法

我们对 32 例 MDS 患者的应答者和无应答者以及 14 例在治疗过程中获得完全缓解但随后复发的患者（继发性耐药）在治疗前进行了定量实时 PCR，以检测与 DAC 代谢相关的基因表达。然后，我们通过亚硫酸氢盐焦磷酸测序对 10 个基因进行了定量甲基化分析，并对继发性耐药进行了全球甲基化的甲基化 CpG 岛扩增微阵列（MCAM）分析。

结果

大多数基因在应答者和无应答者之间没有差异，但无应答者的 CDA/DCK 比值比应答者高 3 倍（P<.05），提示这可能是原发性耐药的机制。在复发时，DAC 代谢基因没有显著差异，也没有检测到 DCK 突变。与诊断时相比，LINE1 检测到的全局甲基化在复发时较低（P<.05）。平均而言，与诊断时（18.1%）相比，复发时 10 个基因的甲基化水平较低（16.1%）（P<.05）。MCAM 分析显示，在复发时平均有 4.5%（范围 0.6%-9.7%）的基因甲基化降低。相比之下，20%的患者发现了新的细胞遗传学变化。

结论

药理学机制参与了 DAC 对原发性耐药，而在 DAC 治疗的患者中，低甲基化并不能防止复发。

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骨髓增生异常综合征中地西他滨耐药的机制。

Mechanisms of resistance to decitabine in the myelodysplastic syndrome.

机构信息

出版信息

PURPOSE

PATIENTS AND METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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