PRPS2突变通过影响PRPS1/2六聚体稳定性驱动急性淋巴细胞白血病复发。

IF 1.5 Q3 HEMATOLOGY
Lili Song, Peifeng Li, Huiying Sun, Lixia Ding, Jing Wang, Benshang Li, Bin-Bing S Zhou, Haizhong Feng, Yanxin Li
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引用次数: 1

摘要

肿瘤复发是儿童急性淋巴细胞白血病(ALL)治疗失败的主要原因,但其潜在机制尚不清楚。在这里,我们证明了磷酸核糖基焦磷酸合成酶2 (PRPS2)突变通过影响PRPS1/2六聚体的稳定性来驱动ALL复发。超深度测序鉴定所有样本中的PRPS2突变。评估PRPS2突变对细胞存活、细胞凋亡和耐药的影响。评估体外PRPS2酶活性和ADP/GDP反馈抑制PRPS酶活性。嘌呤代谢产物采用超高效液相色谱-串联质谱(UPLC-MS/MS)分析。结合测序数据和临床信息,我们发现PRPS2突变仅发生在接受硫嘌呤治疗的复发性儿童ALL中。功能性PRPS2突变通过影响PRPS1/2六聚体的稳定性介导嘌呤代谢,从而降低了PRPS活性的核苷酸反馈抑制,增强了硫嘌呤耐药性。PRPS1与PRPS2的关键区别——3-氨基酸V103-G104-E105在PRPS2中的插入导致PRPS六聚体界面发生严重的空间碰撞,导致其酶活性降低。此外,我们证明了PRPS2 P173R在异种移植模型中增加了硫嘌呤耐药性。我们的工作描述了PRPS2突变体驱动儿童ALL复发的新机制,并强调PRPS2突变是儿童ALL复发的生物标志物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

PRPS2 mutations drive acute lymphoblastic leukemia relapse through influencing PRPS1/2 hexamer stability.

PRPS2 mutations drive acute lymphoblastic leukemia relapse through influencing PRPS1/2 hexamer stability.

PRPS2 mutations drive acute lymphoblastic leukemia relapse through influencing PRPS1/2 hexamer stability.

PRPS2 mutations drive acute lymphoblastic leukemia relapse through influencing PRPS1/2 hexamer stability.

Tumor relapse is the major cause of treatment failure in childhood acute lymphoblastic leukemia (ALL), yet the underlying mechanisms are still elusive. Here, we demonstrate that phosphoribosyl pyrophosphate synthetase 2 (PRPS2) mutations drive ALL relapse through influencing PRPS1/2 hexamer stability. Ultra-deep sequencing was performed to identify PRPS2 mutations in ALL samples. The effects of PRPS2 mutations on cell survival, cell apoptosis, and drug resistance were evaluated. In vitro PRPS2 enzyme activity and ADP/GDP feedback inhibition of PRPS enzyme activity were assessed. Purine metabolites were analyzed by ultra-performance liquid-chromatography tandem mass spectrometry (UPLC-MS/MS). Integrating sequencing data with clinical information, we identified PRPS2 mutations only in relapsed childhood ALL with thiopurine therapy. Functional PRPS2 mutations mediated purine metabolism specifically on thiopurine treatment by influencing PRPS1/2 hexamer stability, leading to reduced nucleotide feedback inhibition of PRPS activity and enhanced thiopurine resistance. The 3-amino acid V103-G104-E105, the key difference between PRPS1 and PRPS2, insertion in PRPS2 caused severe steric clash to the interface of PRPS hexamer, leading to its low enzyme activity. In addition, we demonstrated that PRPS2 P173R increased thiopurine resistance in xenograft models. Our work describes a novel mechanism by which PRPS2 mutants drive childhood ALL relapse and highlights PRPS2 mutations as biomarkers for relapsed childhood ALL.

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CiteScore
1.70
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0.00%
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