杂合子Dnmt3a突变诱导小鼠造血干细胞库扩增

T. Higo, J. Koya, Yoshiki Sumitomo, Takako Tsuruta, K. Kataoka, T. Satou, M. Kurokawa
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However, the consequenses of DNMT3A R882 mutant with endogenous expression have been largely unknown. To elucidate this, we generated a novel mouse model for Cre-mediated conditional expression of Dnmt3a R878C mutant (homologous to human R882C) from the endogenous locus of Dnmt3a. For hematopoietic cell-specific mutation in vivo, we crossed these mice with Vav-Cre mice. By analyzing genotypes of offspring derived from the pair of Dnmt3aR878C/wt; Vav-Crewt/wt mice and Dnmt3aR882C/wt; Vav-Cretg/wt mice, it is revealed that mice harboring homozygous mutation of Dnmt3a in hematopoietic cells (DNMT3AR882C/R882C; Vav-Cretg/wt) were not born for now. In contrast, Dnmt3aR882C/wt; Vav-Cretg/wt (hereafter Dnmt3a R878C) mice were normally born and they did not show any hematological or other disorders at least until 40 weeks after birth. Additionally, frequencies of peripheral blood mature cells in each lineage are not altered in Dnmt3a R878C mice compared to Dnmt3awt/wt Vav-Cretg/wt (hereafter control mice). To further investigate the effect of DNMT3A R882 mutation, we sacrificed Dnmt3a R878C and control mice at 8-12 weeks after birth and compared the distribution of hematopoietic cells by using flow cytometry. Although there was no obvious difference in the number of mononuclear cells in the whole bone marrow, we found a significant increase of the frequency of long-term hematopoietic stem cells (defined by CD150+ CD48- Lineage- c-Kit+ Sca-1+) in Dnmt3a R878C mice compared to control mice (0.040% and 0.019%, p = 0.022). The frequencies of other progenitors including short-term hematopoietic stem cells, multipotent progenitors, or Lineage- c-Kit+ Sca-1+ (LSK) cells were not changed between Dnmt3a R878C mice and control mice. Moreover, in order to determine whether DNMT3A mutation leads to a qualitative difference in HSCs, we performed colony forming assay. While control LSK cells could not form colonies at fifth round of replating, Dnmt3a R878C LSK cells could be serially replated up to five passages. Additionally, the numbers of colonies in each round were much higher in Dnmt3a R878C cells compared to control cells, suggesting HSCs with heterozygous Dnmt3a R878C mutation have aberrantly enhanced self-renewal capacity. Currently, we are performing competitive bone marrow transplantation assay to evaluate the functional role of DNMT3A mutation in vivo. We transplanted 500,000 bone marrow cells from Dnmt3a R878C or control mice, which are Ly5.2 background, together with the same number of Ly5.1-horboring competitor cells into Ly5.1-harboring lethally-irradiated recipient mice. Thus far, Peripheral blood chimerisms of donor cells have tended to be higher in recipients of Dnmt3a R878C mutant cells compared to control mice, suggesting that heterozygous Dnmt3a R878C mutation contribute to expansion of hematopoietic stem cell pool. Collectively, heterozygous Dnmt3a R878C mutant enhanced self-renewal capacity of HSCs and resulted in accumulation of HSCs in vivo, similar to mice models with overexpression of DNMT3A R882 mutants. Our results revealed that endogenous expression of DNMT3A mutant is sufficient for expansion of HSCs, revealing functional contribution of DNMT3A mutation in forming the backbone of premalignant status of HSCs. 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引用次数: 0

摘要

DNA甲基转移酶家族成员DNMT3A的体细胞突变已在多种血液系统恶性肿瘤中被发现,包括急性髓性白血病(AML)、急性淋巴细胞白血病、骨髓增生性肿瘤和再生障碍性贫血。特别是,在细胞遗传学正常的AML中,15-20%的病例中检测到DNMT3A突变,并伴有不良预后。约40% - 60%的DNMT3A突变位于Arg882 (R882),形成热点突变位点,表明该突变在白血病的发展中具有功能获得性。到目前为止,通过在小鼠造血细胞中过表达DNMT3A R882突变体或敲除DNMT3A突变体,研究了DNMT3A突变在白血病发生中的功能作用。然而,内源性表达的DNMT3A R882突变体的后果在很大程度上是未知的。为了阐明这一点,我们建立了一种新的小鼠模型,用于cre介导的Dnmt3a R878C突变体(与人类R882C同源)的条件表达,该突变体来自Dnmt3a内源性位点。对于体内造血细胞特异性突变,我们将这些小鼠与Vav-Cre小鼠杂交。通过分析Dnmt3aR878C/wt对后代的基因型;Vav-Crewt/wt小鼠和Dnmt3aR882C/wt;Vav-Cretg/wt小鼠,发现造血细胞中携带Dnmt3a纯合突变的小鼠(DNMT3AR882C/R882C;Vav-Cretg/wt)目前还没有诞生。Dnmt3aR882C/wt;Vav-Cretg/wt(以下简称Dnmt3a R878C)小鼠正常出生,至少在出生后40周未出现任何血液学或其他疾病。此外,与Dnmt3awt/wt Vav-Cretg/wt(以下为对照小鼠)相比,Dnmt3a R878C小鼠中每个谱系的外周血成熟细胞频率没有改变。为了进一步研究DNMT3A R882突变的影响,我们在出生后8-12周处死DNMT3A R878C和对照小鼠,用流式细胞术比较造血细胞的分布。虽然整个骨髓中单个核细胞的数量没有明显差异,但我们发现Dnmt3a R878C小鼠的长期造血干细胞(定义为CD150+ CD48- Lineage- c-Kit+ Sca-1+)的频率与对照小鼠相比显著增加(0.040%和0.019%,p = 0.022)。其他祖细胞包括短期造血干细胞、多能祖细胞或Lineage- c-Kit+ Sca-1+ (LSK)细胞的频率在Dnmt3a R878C小鼠和对照小鼠之间没有变化。此外,为了确定DNMT3A突变是否导致hsc的质量差异,我们进行了集落形成实验。对照LSK细胞在第5轮复制时不能形成菌落,而Dnmt3a R878C LSK细胞可以连续复制5代。此外,与对照细胞相比,每轮Dnmt3a R878C细胞的菌落数量要高得多,这表明带有杂合Dnmt3a R878C突变的造血干细胞具有异常增强的自我更新能力。目前,我们正在进行竞争性骨髓移植试验,以评估DNMT3A突变在体内的功能作用。我们将来自Dnmt3a R878C或对照小鼠的50万个具有Ly5.2背景的骨髓细胞与相同数量的携带ly5.1的竞争细胞一起移植到携带ly5.1的致命辐照受体小鼠中。到目前为止,Dnmt3a R878C突变细胞受体的供体细胞的外周血嵌合性往往高于对照小鼠,这表明Dnmt3a R878C突变的杂合性有助于造血干细胞库的扩大。总的来说,杂合的Dnmt3a R878C突变体增强了造血干细胞的自我更新能力,导致造血干细胞在体内的积累,类似于Dnmt3a R882突变体过表达的小鼠模型。我们的研究结果显示,内源性DNMT3A突变体的表达足以使hsc扩增,揭示了DNMT3A突变在形成hsc癌前状态的骨干中的功能贡献。无相关利益冲突需要申报。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Heterozygous Dnmt3a mutation induces expansion of hematopoietic stem cell pool in a murine model
Somatic mutations in DNMT3A, a member of the DNA methyltransferase family, have been identified in various kinds of hematologic malignancies including acute myeloid leukemia (AML), acute lymphoblastic leukemia, myeloproliferative neoplasms, and aplastic anemia. Especially, in cytogenetically normal AML, DNMT3A mutations are detected in 15-20% of cases and associated with poor prognosis. Approximately 40 to 60% of DNMT3A mutations reside at Arg882 (R882), forming hot spot mutation site, implying gain-of-functional property of the mutation in development of leukemia. So far, a functional role of DNMT3A mutation in leukemogenesis has been investigated by overexpressing DNMT3A R882 mutant or Dnmt3a knockout in murine hematopoietic cells. However, the consequenses of DNMT3A R882 mutant with endogenous expression have been largely unknown. To elucidate this, we generated a novel mouse model for Cre-mediated conditional expression of Dnmt3a R878C mutant (homologous to human R882C) from the endogenous locus of Dnmt3a. For hematopoietic cell-specific mutation in vivo, we crossed these mice with Vav-Cre mice. By analyzing genotypes of offspring derived from the pair of Dnmt3aR878C/wt; Vav-Crewt/wt mice and Dnmt3aR882C/wt; Vav-Cretg/wt mice, it is revealed that mice harboring homozygous mutation of Dnmt3a in hematopoietic cells (DNMT3AR882C/R882C; Vav-Cretg/wt) were not born for now. In contrast, Dnmt3aR882C/wt; Vav-Cretg/wt (hereafter Dnmt3a R878C) mice were normally born and they did not show any hematological or other disorders at least until 40 weeks after birth. Additionally, frequencies of peripheral blood mature cells in each lineage are not altered in Dnmt3a R878C mice compared to Dnmt3awt/wt Vav-Cretg/wt (hereafter control mice). To further investigate the effect of DNMT3A R882 mutation, we sacrificed Dnmt3a R878C and control mice at 8-12 weeks after birth and compared the distribution of hematopoietic cells by using flow cytometry. Although there was no obvious difference in the number of mononuclear cells in the whole bone marrow, we found a significant increase of the frequency of long-term hematopoietic stem cells (defined by CD150+ CD48- Lineage- c-Kit+ Sca-1+) in Dnmt3a R878C mice compared to control mice (0.040% and 0.019%, p = 0.022). The frequencies of other progenitors including short-term hematopoietic stem cells, multipotent progenitors, or Lineage- c-Kit+ Sca-1+ (LSK) cells were not changed between Dnmt3a R878C mice and control mice. Moreover, in order to determine whether DNMT3A mutation leads to a qualitative difference in HSCs, we performed colony forming assay. While control LSK cells could not form colonies at fifth round of replating, Dnmt3a R878C LSK cells could be serially replated up to five passages. Additionally, the numbers of colonies in each round were much higher in Dnmt3a R878C cells compared to control cells, suggesting HSCs with heterozygous Dnmt3a R878C mutation have aberrantly enhanced self-renewal capacity. Currently, we are performing competitive bone marrow transplantation assay to evaluate the functional role of DNMT3A mutation in vivo. We transplanted 500,000 bone marrow cells from Dnmt3a R878C or control mice, which are Ly5.2 background, together with the same number of Ly5.1-horboring competitor cells into Ly5.1-harboring lethally-irradiated recipient mice. Thus far, Peripheral blood chimerisms of donor cells have tended to be higher in recipients of Dnmt3a R878C mutant cells compared to control mice, suggesting that heterozygous Dnmt3a R878C mutation contribute to expansion of hematopoietic stem cell pool. Collectively, heterozygous Dnmt3a R878C mutant enhanced self-renewal capacity of HSCs and resulted in accumulation of HSCs in vivo, similar to mice models with overexpression of DNMT3A R882 mutants. Our results revealed that endogenous expression of DNMT3A mutant is sufficient for expansion of HSCs, revealing functional contribution of DNMT3A mutation in forming the backbone of premalignant status of HSCs. Disclosures No relevant conflicts of interest to declare.
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