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以及其他候选基因作为B-ALL治疗耐药性的潜在生物标志物:来自染色体微阵列分析和机器学习的见解

and Other Candidate Genes as Potential Biomarkers of Therapy Resistance in B-ALL: Insights from Chromosomal Microarray Analysis and Machine Learning.

作者信息

Surimova Valeriya, Risinskaya Natalya, Kotova Ekaterina, Abdulpatakhov Abdulpatakh, Vasileva Anastasia, Chabaeva Yulia, Starchenko Sofia, Aleshina Olga, Kapranov Nikolay, Galtseva Irina, Ponomareva Alina, Kanivets Ilya, Korostelev Sergey, Kulikov Sergey, Sudarikov Andrey, Parovichnikova Elena

机构信息

National Medical Research Center for Hematology, 125167 Moscow, Russia.

Intelligent Systems in Management and Automation Department, Moscow Technical University of Communications and Informatics, 111024 Moscow, Russia.

出版信息

Int J Mol Sci. 2025 Aug 1;26(15):7437. doi: 10.3390/ijms26157437.

DOI:10.3390/ijms26157437
PMID:40806565
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12347871/
Abstract

Chromosomal microarray analysis (CMA) was performed for 40 patients with B-ALL undergoing treatment according to the ALL-2016 protocol to investigate the copy number alterations (CNAs) and copy neutral loss of heterozygosity (cnLOH) associated with minimal residual disease (MRD)-positive remission. Aberrations involving over 20,000 genes were identified, and a random forest approach was applied to isolate a subset of genes whose CNAs and cnLOH are significantly associated with poor therapeutic response. We have assembled the triple matched healthy population data and used that data as a reference, but not as a matched control. We identified a recurrent cluster of cnLOH in the 19q13.2-19q13.31 region, significantly enriched in MRD-positive patients (70% vs. 47% in the reference group vs. 16% in MRD-negative patients). This region includes the pregnancy-specific glycoprotein () gene family and the oncogene , suggesting a potential role in leukemic persistence and treatment resistance. Additionally, we observed significant deletions involving 7p22.3 and 16q13, often as part of large-scale losses affecting almost the entire chromosomes 7 and 16, indicative of global chromosomal instability. These findings highlight specific genomic regions potentially involved in therapy resistance and may contribute to improved risk stratification in B-ALL. Our findings emphasize the value of high-resolution CMA in diagnostics and risk stratification and suggest that genes and other candidate genes could serve as biomarkers for predicting treatment outcomes.

摘要

对40例按照ALL-2016方案接受治疗的B-ALL患者进行了染色体微阵列分析(CMA),以研究与微小残留病(MRD)阳性缓解相关的拷贝数改变(CNA)和杂合性拷贝中性缺失(cnLOH)。鉴定出涉及超过20,000个基因的畸变,并应用随机森林方法分离出一组基因,其CNA和cnLOH与不良治疗反应显著相关。我们收集了三重匹配的健康人群数据,并将该数据用作参考,但不作为匹配对照。我们在19q13.2-19q13.31区域鉴定出一个反复出现的cnLOH簇,在MRD阳性患者中显著富集(参考组为47%,MRD阴性患者为16%,该组为70%)。该区域包括妊娠特异性糖蛋白()基因家族和癌基因,提示其在白血病持续存在和治疗耐药中可能发挥作用。此外,我们观察到涉及7p22.3和16q13的显著缺失,通常是影响几乎整个7号和16号染色体的大规模缺失的一部分,表明存在整体染色体不稳定。这些发现突出了可能参与治疗耐药的特定基因组区域,并可能有助于改善B-ALL的风险分层。我们的发现强调了高分辨率CMA在诊断和风险分层中的价值,并表明基因和其他候选基因可作为预测治疗结果的生物标志物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/837c/12347871/a330926fa1ef/ijms-26-07437-g009a.jpg
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2
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Cancer Genet. 2024 Nov;288-289:54-58. doi: 10.1016/j.cancergen.2024.09.003. Epub 2024 Sep 16.
3
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4
Optical Genome Mapping for Comprehensive Assessment of Chromosomal Aberrations and Discovery of New Fusion Genes in Pediatric B-Acute Lymphoblastic Leukemia.光学基因组图谱用于全面评估儿童B系急性淋巴细胞白血病的染色体畸变及发现新的融合基因
Cancers (Basel). 2022 Dec 21;15(1):35. doi: 10.3390/cancers15010035.
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