次黄嘌呤磷酸核糖基转移酶1（HPRT1）活性丧失与急性淋巴细胞白血病（ALL）对硫唑嘌呤耐药相关。

HPRT1 activity loss is associated with resistance to thiopurine in ALL.

作者信息

Yang Fan, Fang Houshun, Wang Dan, Chen Yao, Zhai Yonggong, Zhou Bin-Bing S, Li Hui

机构信息

Beijing Key Laboratory of Gene Resource and Molecular Development, College of Life Sciences, Beijing Normal University, Beijing, China.

Key Laboratory of Pediatric Hematology and Oncology Ministry of Health, Department of Hematology and Oncology, Shanghai Children's Medical Center, Shanghai Jiao Tong University School of Medicine, Shanghai, China.

出版信息

Oncotarget. 2017 Dec 19;9(2):2268-2278. doi: 10.18632/oncotarget.23405. eCollection 2018 Jan 5.

DOI:10.18632/oncotarget.23405

PMID:29416770

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5788638/

Abstract

Acute lymphoblastic leukemia (ALL) is an aggressive hematological tumor resulting from the malignant transformation of lymphoid progenitors. Thiopurine is a widely used drug in the maintaining treatment of ALL. After a period of chemotherapy, 20% of pediatric patients and over 50% of adult patients will relapse. To investigate the mechanisms of drug resistance , we established the thiopurine resistant cell lines Reh-6MPR (6-MP Resistant cell) and Reh-6TGR (6-TG Resistant cell) by stepwise selection of the ALL cell line Reh. Cell viability assay revealed that 6MPR and 6TGR cells were almost 1000-fold more resistant to thiopurine comparing with the control Reh cells, and thiopurine conversion was significantly impaired in the resistant cells. Mechanistically, a same novel hypoxanthine phosphoribosyl transferase 1 (HPRT1) mutation c.495_496insA (p.V165fs) was found by whole exome sequencing in both resistant cells. The HPRT1 mutation dramaticly decreased the production of [C,N]-IMP from [C,N]-hypoxanthine (HX), showed a loss-of-funciton mechanism. Notably, re-expression the wildtype HPRT1 in Reh-6MPR cell can reverse the drug resistance and thiopurine conversion in Reh-6MPR cells. These results highlight the importance of HPRT1's activity in thiopurine resistance.

摘要

急性淋巴细胞白血病（ALL）是一种由淋巴祖细胞恶性转化引起的侵袭性血液肿瘤。硫嘌呤是ALL维持治疗中广泛使用的药物。经过一段时间的化疗，20%的儿科患者和超过50%的成年患者会复发。为了研究耐药机制，我们通过对ALL细胞系Reh进行逐步筛选，建立了硫嘌呤耐药细胞系Reh-6MPR（6-巯基嘌呤耐药细胞）和Reh-6TGR（6-硫鸟嘌呤耐药细胞）。细胞活力测定显示，与对照Reh细胞相比，6MPR和6TGR细胞对硫嘌呤的耐药性几乎高1000倍，且耐药细胞中的硫嘌呤转化明显受损。从机制上讲，通过全外显子组测序在两种耐药细胞中发现了相同的新型次黄嘌呤磷酸核糖基转移酶1（HPRT1）突变c.495_496insA（p.V165fs）。HPRT1突变显著降低了[C,N]-次黄嘌呤（HX）生成[C,N]-肌苷酸（IMP）的能力，显示出一种功能丧失机制。值得注意的是，在Reh-6MPR细胞中重新表达野生型HPRT1可以逆转Reh-6MPR细胞的耐药性和硫嘌呤转化。这些结果突出了HPRT1活性在硫嘌呤耐药中的重要性。

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HPRT1 activity loss is associated with resistance to thiopurine in ALL.次黄嘌呤磷酸核糖基转移酶1（HPRT1）活性丧失与急性淋巴细胞白血病（ALL）对硫唑嘌呤耐药相关。

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次黄嘌呤磷酸核糖基转移酶1（HPRT1）活性丧失与急性淋巴细胞白血病（ALL）对硫唑嘌呤耐药相关。

HPRT1 activity loss is associated with resistance to thiopurine in ALL.

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