Molecular Pathogenesis and Treatment Strategies of Chronic Myeloid Leukemia (CML)

Sudan journal of medical sciences Pub Date : 2023-12-29 DOI:10.18502/sjms.v18i4.14741

Rabia Khalid, Sana Riasat

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Abstract

Chronic Myeloid Leukemia (CML) is a myeloproliferative disease diagnosed in bone marrow, arising from a chromosomal translocation between chromosomes 9 and 22, resulting in the formation of fusion oncogene BCR–ABL. The product of this fusion oncogene is a new oncoprotein bcr–abl which possesses abnormal tyrosine kinase activity. In response to this, abnormal signaling pathway activation occurs, leading to cell transformation. BCR–ABL oncogene could be targeted by tyrosine kinase inhibitors (TKIs) to delay or inhibit the disease progression. Imatinib is the first drug designed against CML but resistance to this has led to the development of the second- and third generations of inhibitors that are active against many types of BCR–ABL gene mutations. However, somehow, due to disease progression, TKIs do not remain as effective. There are three well-characterized phases of CML: The chronic phase (CP), the accelerated phase, and the terminal stage which is the blast crisis (BC) stage. In the CP of CML, mature granulocytes and myeloid precursors become aggregated majorly in the bone marrow and peripheral blood. The accelerated phase is marked by increased disease severity and an increase in progenitor/precursor cell number. In the BC stage, undifferentiated blast cells grow in number. Many patients with CML are diagnosed during the CP of the disease, so the survival rate of CML is high. However, 20% of CML patients proceed to advanced stages that result in drug resistance, intolerance, and mortality. So, for proper CML treatment, drugs are needed to target multiple BCR– ABL mutations, delay or stop disease progression, and overcome resistance caused by BCR–ABL independent mechanisms, especially during advanced phases of CML. Moreover, drugs could be developed to eradicate the stem cells of CML. These targets could be achieved by understanding mechanisms of disease progression, disease relapse, and drug resistance by utilizing high throughput molecular genetics, cell biology and immunology techniques.

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慢性髓性白血病（CML）的分子发病机制和治疗策略

慢性髓性白血病（CML）是一种骨髓增生性疾病，可在骨髓中确诊，由第 9 号染色体和第 22 号染色体之间的染色体易位引起，导致融合癌基因 BCR-ABL 的形成。这种融合癌基因的产物是一种新的癌蛋白 bcr-abl，它具有异常的酪氨酸激酶活性。与此相对应，信号通路发生异常激活，导致细胞转化。酪氨酸激酶抑制剂（TKIs）可针对BCR-ABL癌基因，延缓或抑制疾病的进展。伊马替尼是第一种针对慢性骨髓性白血病（CML）设计的药物，但由于其耐药性，第二代和第三代抑制剂应运而生，这些抑制剂对多种类型的 BCR-ABL 基因突变都有活性。然而，由于疾病的进展，TKIs 的疗效并不尽如人意。慢性骨髓性白血病有三个特征明显的阶段：慢性期（CP）、加速期和终末期，即爆破危象（BC）阶段。在 CML 的慢性期，成熟的粒细胞和骨髓前体主要聚集在骨髓和外周血中。加速期的特点是疾病严重程度增加，祖细胞/前体细胞数量增加。在 BC 阶段，未分化的爆炸细胞数量增加。许多 CML 患者是在疾病的 CP 期被诊断出来的，因此 CML 的存活率很高。然而，20% 的 CML 患者会进入晚期，导致耐药、不耐受和死亡。因此，为了正确治疗 CML，需要针对多种 BCR- ABL 突变的药物，延缓或阻止疾病进展，克服 BCR-ABL 独立机制导致的耐药性，尤其是在 CML 晚期。此外，还可以开发根除 CML 干细胞的药物。利用高通量分子遗传学、细胞生物学和免疫学技术，了解疾病进展、复发和耐药性的机制，就能实现这些目标。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Sudan journal of medical sciences

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