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BACH2 介导的 FOS 通过改变小儿 ALL 中的基质微环境赋予阿糖胞苷耐药性。

BACH2-mediated FOS confers cytarabine resistance via stromal microenvironment alterations in pediatric ALL.

机构信息

Institute of Medical Biology, Chinese Academy of Medical Sciences and Peking Union Medical College, Kunming, China.

Beijing Key Laboratory of Pediatric Hematology Oncology, National Key Discipline of Pediatrics (Capital Medical University), Key Laboratory of Major Diseases in Children, Ministry of Education, Hematology Oncology Center, Beijing Children's Hospital, National Center for Children's Health, Capital Medical University, Beijing, China.

出版信息

Cancer Sci. 2021 Mar;112(3):1235-1250. doi: 10.1111/cas.14792. Epub 2021 Jan 22.

DOI:10.1111/cas.14792
PMID:33393145
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7935781/
Abstract

Acute lymphoblastic leukemia (ALL) is an aggressive hematological cancer that mainly affects children. Relapse and chemoresistance result in treatment failure, underlining the need for improved therapies. BTB and CNC homology 2 (BACH2) is a lymphoid-specific transcription repressor recognized as a tumor suppressor in lymphomas, but little is known about its function and regulatory network in pediatric ALL (p-ALL). Herein, we found aberrant BACH2 expression at new diagnosis not only facilitated risk stratification of p-ALL but also served as a sensitive predictor of early treatment response and clinical outcome. Silencing BACH2 in ALL cells increased cell proliferation and accelerated cell cycle progression. BACH2 blockade also promoted cell adhesion to bone marrow stromal cells and conferred cytarabine (Ara-C)-resistant properties to leukemia cells by altering stromal microenvironment. Strikingly, we identified FOS, a transcriptional activator competing with BACH2, as a novel downstream target repressed by BACH2. Blocking FOS by chemical compounds enhanced the effect of Ara-C treatment in both primary p-ALL cells and pre-B-ALL-driven leukemia xenografts and prolonged the survival of tumor-bearing mice. These data highlight an interconnected network of BACH2-FOS, disruption of which could render current chemotherapies more effective and offer a promising therapeutic strategy to overcome Ara-C resistance in p-ALL.

摘要

急性淋巴细胞白血病(ALL)是一种侵袭性血液系统癌症,主要影响儿童。复发和化疗耐药导致治疗失败,这凸显了需要改进治疗方法。BTB 和 CNC 同源 2(BACH2)是一种淋巴样特异性转录抑制因子,在淋巴瘤中被认为是一种肿瘤抑制因子,但关于其在小儿 ALL(p-ALL)中的功能和调控网络知之甚少。在此,我们发现新诊断时异常表达的 BACH2 不仅有助于 p-ALL 的风险分层,而且还可以作为早期治疗反应和临床结果的敏感预测指标。沉默 ALL 细胞中的 BACH2 会增加细胞增殖并加速细胞周期进程。BACH2 阻断还通过改变骨髓基质细胞的微环境,促进细胞与骨髓基质细胞的黏附,并赋予白血病细胞阿糖胞苷(Ara-C)耐药性。值得注意的是,我们确定了 FOS,一种与 BACH2 竞争的转录激活因子,是 BACH2 抑制的新型下游靶标。通过化学化合物阻断 FOS,可增强原发性 p-ALL 细胞和 Pre-B-ALL 驱动的白血病异种移植中 Ara-C 治疗的效果,并延长荷瘤小鼠的存活时间。这些数据突出了 BACH2-FOS 的相互关联网络,破坏这种网络可能会使目前的化疗更有效,并为克服 p-ALL 中的 Ara-C 耐药性提供一种有前途的治疗策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/179b/7935781/5b3562c769d2/CAS-112-1235-g007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/179b/7935781/5b3562c769d2/CAS-112-1235-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/179b/7935781/d904736fd59f/CAS-112-1235-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/179b/7935781/54bb06e2776b/CAS-112-1235-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/179b/7935781/48426168014f/CAS-112-1235-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/179b/7935781/eaefc903ef2f/CAS-112-1235-g004.jpg
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