慢性髓性白血病:起源、发展、治疗反应和复发

David Dingli , Arne Traulsen , Jorge M. Pacheco
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引用次数: 33

摘要

伊马替尼是abl激酶抑制剂家族中的第一个,它的引入开启了慢性髓性白血病(CML)治疗的新时代。大多数接受治疗的患者获得完全的细胞遗传学应答,尽管这种疾病通常可以通过分子技术检测到。材料和方法利用造血和疾病进展的数学模型以及临床数据,我们开发了一个统一的框架来模拟CML的起源和克隆扩增,对abl激酶抑制剂的反应以及停止治疗后的复发。结果该模型预测,一小部分突变干细胞足以驱动CML。抑制abl激酶降低了CML祖细胞的自我更新能力,与正常祖细胞相比,改变了它们的适应性。然而,CML祖细胞的持续存在是在停止治疗后观察到的快速复发的原因。我们展示了造血系统的结构如何在CML克隆的生长及其对治疗的反应中发挥重要作用。结论少量干细胞足以驱动慢性粒细胞白血病的慢性期。伊马替尼逆转CML细胞的适应性优势,允许大多数患者恢复正常的造血功能。CML祖细胞的持续存在似乎是观察到的复发动力学的原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chronic Myeloid Leukemia: Origin, Development, Response to Therapy, and Relapse

Background

The introduction of imatinib, the first of a family of abl kinase inhibitors, opened a new era in the therapy of chronic myeloid leukemia (CML). The majority of treated patients achieve complete cytogenetic response, although the disease is often detectable by molecular techniques.

Materials and Methods

Using a mathematical model for the architecture of hematopoiesis and progression of disease as well as clinical data, we develop a unified framework that models the origin and clonal expansion of CML, the response to abl kinase inhibitors, and relapse upon cessation of therapy.

Results

The model predicts that a small pool of mutated stem cells is enough to drive CML. Inhibition of the abl kinase decreases the self-renewal capability of CML progenitors, altering their fitness compared with normal progenitors. Persistence of CML progenitors, however, is responsible for the rapid relapses observed upon cessation of therapy. We demonstrate how the architecture of hematopoiesis plays an instrumental role in growth of the CML clone and its response to treatment.

Conclusion

A small pool of stem cells is enough to drive the chronic phase of CML. Imatinib reverses the fitness advantage of CML cells, allowing return of normal hematopoiesis in most patients. Persistence of CML progenitor cells seems to be responsible for the observed relapse kinetics.

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