Differentiation of Acute Leukemia Cells Including Cells with MLL-AF4 Rearrangements Induced by Jiyuan Oridonin A.

Xueming Li, Fenglian Zhang, Yu Ke, Hongmin Liu, Zhenbo Hu, Liuya Wei
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Abstract

Background: Chromosomal rearrangements involving the Mixed lineage leukemia (MLL) gene are observed in acute leukemia (AL) patients, which have poor prognosis, especially in infants. Hence, there is still a challenge to develop other effective agents to treat AL with MLL rearrangements (MLLr). MLL has been shown to rearrange with partner genes, of which the most frequently observed are AF4 and AF9. Moreover, AL is characterized by a differentiation blockage resulting in the accumulation of immature cells. An ent-kaurene diterpenoid compound, Jiyuan Oridonin A (JOA), has been shown to reduce the viability of AML cells by differentiation.

Methods: We aimed to evaluate the effect of JOA on the growth and differentiation of AL cells (SEM, JURKAT and MV4-11) including cells with MLLr-AF4 by cell proliferation assay, colony formation assay, cell cycle analysis, cell apoptosis analysis, measurement of cell surface antigens, cell morphology, mRNA-sequencing analysis, quantitative Real-time PCR and Western blotting analysis.

Results: Our findings demonstrated that the proliferation of AL cells including cells with MLLr-AF4 was significantly suppressed by JOA, which induced cell differentiation followed by G0/G1 cell cycle withdrawal. Moreover, JOA-mediated cell differentiation was likely due to activation of G-CSFR in MV4-11 cells.

Conclusion: Our results suggest that JOA may be considered a promising anti-leukemia compound to develop to surmount the differentiation block in AL patients.

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济源奥利多宁 A 诱导急性白血病细胞(包括 MLL-AF4 重排细胞)分化
背景:急性白血病(AL)患者的预后较差,尤其是婴儿。因此,开发其他有效药物来治疗伴有 MLL 基因重排的急性白血病(MLLr)仍是一项挑战。已证实 MLL 可与伙伴基因重排,其中最常见的是 AF4 和 AF9。此外,AL 的特点是分化受阻,导致未成熟细胞堆积。一种名为济源桔梗素 A(JOA)的ent-kaurene 二萜化合物已被证明能通过分化降低 AML 细胞的活力:我们旨在通过细胞增殖试验、集落形成试验、细胞周期分析、细胞凋亡分析、细胞表面抗原测量、细胞形态学、mRNA 序列分析、定量实时 PCR 和 Western 印迹分析,评估 JOA 对 AL 细胞(SEM、JURKAT 和 MV4-11)(包括 MLLr-AF4 细胞)生长和分化的影响:结果:我们的研究结果表明,JOA 能显著抑制 AL 细胞(包括 MLLr-AF4 细胞)的增殖,并诱导细胞分化和 G0/G1 细胞周期的退出。此外,JOA 介导的细胞分化可能是由于 MV4-11 细胞中的 G-CSFR 被激活所致:我们的研究结果表明,JOA可能是一种有前途的抗白血病化合物,可用于开发以克服AL患者的分化障碍。
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