Wojiski S, Guibal F C, Kindler T, Lee B H, Jesneck J L, Fabian A, Tenen D G, Gilliland D G
Division of Hematology, Brigham and Women's Hospital, Boston, MA 02115, USA.
Leukemia. 2009 Aug;23(8):1462-71. doi: 10.1038/leu.2009.63. Epub 2009 Mar 26.
Acute promyelocytic leukemia (APL) is characterized by hyperproliferation of promyelocytes, progenitors that are committed to terminal differentiation into granulocytes, making it an ideal disease in which to study the transforming potential of less primitive cell types. We utilized a murine model of APL in which the PML-RARalpha oncogene is expressed from the endogenous cathepsin G promoter to test the hypothesis that leukemia stem cell (LSC) activity resides within the differentiated promyelocyte compartment. We prospectively purified promyelocytes from transgenic mice at various stages of disease and observed that PML-RARalpha-expressing promyelocytes from young preleukemic mice had acquired properties of self-renewal both in vitro and in vivo. Progression to acute leukemia was associated with an expansion of the promyelocyte compartment at the expense of other stem, progenitor and terminally differentiated populations. Leukemic promyelocytes exhibited properties of self-renewal, and were capable of engendering leukemia in secondary recipient mice. These data indicate that PML-RARalpha alone can confer properties of self-renewal to committed hematopoietic progenitors before the onset of disease. These findings are consistent with the hypothesis that cancer stem cells may arise from committed progenitors that lack stem cell properties, provided that the initiating mutation in cancer progression activates programs that confer properties of self-renewal.
急性早幼粒细胞白血病(APL)的特征是早幼粒细胞过度增殖,早幼粒细胞是致力于终末分化为粒细胞的祖细胞,这使其成为研究较不原始细胞类型转化潜能的理想疾病。我们利用一种APL小鼠模型,其中PML-RARα癌基因从内源性组织蛋白酶G启动子表达,以检验白血病干细胞(LSC)活性存在于分化的早幼粒细胞区室这一假说。我们前瞻性地从处于疾病不同阶段的转基因小鼠中纯化早幼粒细胞,并观察到来自年轻白血病前期小鼠的表达PML-RARα的早幼粒细胞在体外和体内都获得了自我更新特性。进展为急性白血病与早幼粒细胞区室的扩增有关,这是以其他干细胞、祖细胞和终末分化群体为代价的。白血病早幼粒细胞表现出自我更新特性,并且能够在二次受体小鼠中引发白血病。这些数据表明,单独的PML-RARα在疾病发作前就能赋予定向造血祖细胞自我更新特性。这些发现与癌症干细胞可能源自缺乏干细胞特性的定向祖细胞这一假说一致,前提是癌症进展中的起始突变激活了赋予自我更新特性的程序。