Molecular pathophysiology of chronic myelogenous leukemia.

Hematology and cell therapy Pub Date : 1998-10-01

A G Turhan, E Solary, W Vainchenker, I Dusanter-Fourt

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Abstract

It is currently well established that chronic myelogeneous leukemia (CML) results from the activation of multiple signalling pathways by the Philadelphia chromosome (Ph1) and its molecular counterpart, the BCR-ABL oncogene. Deletion and site-directed mutagenesis experiments have determined the critical regions of the oncogene for its interaction with major signalling pathways but the roles of the latter in the resulting leukemic phenotypes are not well understood. Several major signalling pathways shown to be activated by BCR-ABL, including RAS, MYC, JUN, STAT, PI-3K and NF-KB are briefly discussed in this paper. Other signalling molecules are also clearly involved, including p62-DOK, p95-VAV, CRK-L, p12O-CBL and focal adhesion proteins. Recent experimental evidence also indicates that negative regulatory proteins could be activated in cells expressing BCR-ABL and their inhibition during the course of the disease could play a role in the progression towards the acute phase. We finally discuss the evidence indicating that at least in experimental systems BCR-ABL has a clear anti-apoptotic activity and that BCR-ABL achieves this effect by acting upstream of the procaspase-3.

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慢性骨髓性白血病的分子病理生理学。

目前已经确定，慢性骨髓性白血病(CML)是由费城染色体(Ph1)及其分子对应物BCR-ABL癌基因激活的多种信号通路引起的。缺失和定点诱变实验已经确定了致癌基因与主要信号通路相互作用的关键区域，但后者在导致白血病表型中的作用尚未得到很好的理解。本文简要讨论了BCR-ABL激活的几种主要信号通路，包括RAS、MYC、JUN、STAT、PI-3K和NF-KB。其他信号分子也明显参与其中，包括p62-DOK、p95-VAV、CRK-L、p120 - cbl和局灶黏附蛋白。最近的实验证据也表明，负调节蛋白可以在表达BCR-ABL的细胞中被激活，并且在疾病过程中它们的抑制可能在向急性期的进展中发挥作用。我们最后讨论的证据表明，至少在实验系统中，BCR-ABL具有明显的抗凋亡活性，并且BCR-ABL通过作用于procaspase-3上游来实现这种效果。

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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Hematology and cell therapy

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