Neuroscience Research Group, Medical Research Institute, Faculty of Medicine, University of Antioquia (UdeA), Calle 70 No. 52-21, and Calle 62 # 52-59, Building 1, Room 412, SIU, Medellin, Colombia.
Hospital Pablo Tobon Uribe, Pediatric Oncology Unit, Calle 78b #69-240, Medellin, Colombia.
Biometals. 2022 Aug;35(4):741-758. doi: 10.1007/s10534-022-00397-2. Epub 2022 May 30.
B-cell acute lymphoblastic leukemia (B-ALL) is a hematologic disorder characterized by the abnormal proliferation and accumulation of immature B-lymphoblasts arrested at various stages of differentiation. Despite advances in treatment, a significant percentage of pediatric patients with precursor B-ALL still relapse. Therefore, alternative therapies are needed to improve the cure rates for pediatric patients. TPEN (N, N, N', N'-tetrakis(2-pyridylmethyl)-ethylenediamine) is a pro-oxidant agent capable of selectively inducing apoptosis in leukemia cell lines. Consequently, it has been suggested that TPEN could be a potential agent for oxidative therapy. However, it is not yet known whether TPEN can selectively destroy leukemia cells in a more disease-like model, for example, the bloodstream and bone marrow (BM), ex vivo. This investigation is an extension of a previous study that dealt with the effect of TPEN on ex vivo isolated/purified refractory B-ALL cells. Here, we evaluated the effect of TPEN on whole BM from nonleukemic patients (control) or pediatric patients diagnosed with de novo B-ALL or refractory B-ALL cells by analyzing the hematopoietic cell lineage marker CD34/CD19. Although TPEN was innocuous to nonleukemic BM (n = 3), we found that TPEN significantly induced apoptosis in de novo (n = 5) and refractory B-ALL (n = 6) leukemic cell populations. Moreover, TPEN significantly increased the counts of cells positive for the oxidation of the stress sensor protein DJ-1, a sign of the formation of HO, and significantly increased the counts of cells positive for the pro-apoptotic proteins TP53, PUMA, and CASPASE-3 (CASP-3), indicative of apoptosis, in B-ALL cells. We demonstrate that TPEN selectively eliminates B-ALL cells (CD34 + /CD19 +) but no other cell populations in BM (CD34 + /CD19-; CD34-/CD19 + ; CD34-/CD19-) independent of age, diagnosis status (de novo or refractory), sex, karyotype, or immunophenotype. Understanding TPEN-induced cell death in leukemia cells provides insight into more effective therapeutic oxidation-inducing anticancer agents.
B 细胞急性淋巴细胞白血病 (B-ALL) 是一种血液系统疾病,其特征是不成熟的 B 淋巴母细胞异常增殖和积累,停滞在分化的各个阶段。尽管治疗取得了进展,但仍有相当一部分小儿 B-ALL 患者复发。因此,需要替代疗法来提高小儿患者的治愈率。TPEN(N,N,N',N'-四(2-吡啶基甲基)乙二胺)是一种能够选择性诱导白血病细胞系凋亡的促氧化剂。因此,有人认为 TPEN 可能是一种潜在的氧化治疗药物。然而,目前尚不清楚 TPEN 是否能够在更类似疾病的模型中选择性地破坏白血病细胞,例如血液和骨髓(BM),体外。这项研究是对之前研究的扩展,该研究涉及 TPEN 对体外分离/纯化的难治性 B-ALL 细胞的影响。在这里,我们通过分析造血细胞谱系标记物 CD34/CD19,评估了 TPEN 对非白血病患者(对照)或初诊为新发 B-ALL 或难治性 B-ALL 患者的整个 BM 的影响。尽管 TPEN 对非白血病 BM(n=3)没有毒性,但我们发现 TPEN 显著诱导了新发(n=5)和难治性 B-ALL(n=6)白血病细胞群的凋亡。此外,TPEN 显著增加了应激传感器蛋白 DJ-1 氧化的细胞计数,这是 HO 形成的标志,并且显著增加了促凋亡蛋白 TP53、PUMA 和 CASPASE-3(CASP-3)阳性细胞的计数,表明细胞凋亡,在 B-ALL 细胞中。我们证明 TPEN 选择性地消除 BM 中的 B-ALL 细胞(CD34+/CD19+),而不消除其他细胞群体(CD34+/CD19-;CD34-/CD19+;CD34-/CD19-),与年龄、诊断状态(新发或难治性)、性别、核型或免疫表型无关。了解 TPEN 诱导白血病细胞死亡的机制为开发更有效的治疗性氧化诱导抗癌药物提供了思路。
