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一名日本患者中卡培他滨诱导毒性相关的二氢嘧啶酶基因多态性

Genetic polymorphisms of dihydropyrimidinase in a Japanese patient with capecitabine-induced toxicity.

作者信息

Hiratsuka Masahiro, Yamashita Hiroshi, Akai Fumika, Hosono Hiroki, Hishinuma Eiji, Hirasawa Noriyasu, Mori Takahiro

机构信息

Laboratory of Pharmacotherapy of Life-Style Related Diseases, Graduate School of Pharmaceutical Sciences, Tohoku University, Sendai, Japan.

Department of Surgery, Iwate Prefectural Chubu Hospital, Kitakami, Japan.

出版信息

PLoS One. 2015 Apr 27;10(4):e0124818. doi: 10.1371/journal.pone.0124818. eCollection 2015.

DOI:10.1371/journal.pone.0124818
PMID:25915935
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4411063/
Abstract

Dihydropyrimidinase (DHP) is the second enzyme in the catabolic pathway of uracil, thymine, and chemotherapeutic fluoropyrimidine agents such as 5-fluorouracil (5-FU). Thus, DHP deficiency might be associated with 5-FU toxicity during fluoropyrimidine chemotherapy. We performed genetic analyses of the family of a patient with advanced colon cancer who underwent radical colectomy followed by treatment with 5-FU prodrug capecitabine and developed severe toxicity attributable to a lack of DHP. We measured urinary uracil and dihydrouracil, and genotyped DPYS in the patient and her family. We also measured the allele frequency of DPYS polymorphisms in 391 unrelated Japanese subjects. The patient had compound heterozygous missense and nonsense polymorphisms comprising c.1001A>G (p.Gln334Arg) in exon 6 and c.1393C>T (p.Arg465Ter) in exon 8, which are known to result in a DHP enzyme with little or no activity. The urinary dihydrouracil/uracil ratio in the patient was 17.08, while the mean ± SD urinary dihydrouracil/uracil ratio in family members who were heterozygous or homozygous for wild-type DPYS was 0.25 ± 0.06. In unrelated subjects, 8 of 391 individuals were heterozygous for the c.1001A>G mutation, while the c.1393C>T mutation was not identified. This is the first report of a DHP-deficient patient with DPYS compound heterozygous polymorphisms who was treated with a fluoropyrimidine, and our findings suggest that polymorphisms in the DPYS gene are pharmacogenomic markers associated with severe 5-FU toxicity in Japanese patients.

摘要

二氢嘧啶酶(DHP)是尿嘧啶、胸腺嘧啶以及化疗用氟嘧啶类药物(如5-氟尿嘧啶(5-FU))分解代谢途径中的第二种酶。因此,二氢嘧啶酶缺乏可能与氟嘧啶化疗期间的5-FU毒性有关。我们对一名晚期结肠癌患者的家族进行了基因分析,该患者接受了根治性结肠切除术,随后使用5-FU前体药物卡培他滨治疗,并因缺乏二氢嘧啶酶而出现严重毒性反应。我们测量了患者及其家族成员尿液中的尿嘧啶和二氢尿嘧啶,并对二氢嘧啶酶基因(DPYS)进行了基因分型。我们还测量了391名无血缘关系的日本受试者中DPYS多态性的等位基因频率。该患者在第6外显子存在复合杂合错义及无义多态性,即c.1001A>G(p.Gln334Arg),在第8外显子存在c.1393C>T(p.Arg465Ter),已知这些多态性会导致产生几乎没有或完全没有活性的二氢嘧啶酶。该患者尿液中二氢尿嘧啶/尿嘧啶比值为17.08,而野生型DPYS杂合或纯合的家族成员尿液中二氢尿嘧啶/尿嘧啶比值的平均值±标准差为0.25±0.06。在无血缘关系的受试者中,391人中有8人是c.1001A>G突变的杂合子,而未发现c.1393C>T突变。这是首例关于用氟嘧啶治疗的二氢嘧啶酶缺乏且存在DPYS复合杂合多态性患者的报告,我们的研究结果表明,DPYS基因多态性是日本患者中与严重5-FU毒性相关的药物基因组学标志物。

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本文引用的文献

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Pharmacogenetic variants in the DPYD, TYMS, CDA and MTHFR genes are clinically significant predictors of fluoropyrimidine toxicity.DPYD、TYMS、CDA 和 MTHFR 基因中的药物遗传学变异是氟嘧啶类毒性的临床显著预测因子。
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Dihydropyrimidinase deficiency: Phenotype, genotype and structural consequences in 17 patients.
罕见基因多态性对日本人群5-氟尿嘧啶治疗的重要性
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Pharmacogenetics of hepatocellular carcinoma and cholangiocarcinoma.肝细胞癌和胆管癌的药物遗传学
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In Vitro Assessment of Fluoropyrimidine-Metabolizing Enzymes: Dihydropyrimidine Dehydrogenase, Dihydropyrimidinase, and β-Ureidopropionase.氟嘧啶代谢酶的体外评估:二氢嘧啶脱氢酶、二氢嘧啶酶和β-脲基丙酸酶
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