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首页> 外文期刊>Cell >Direct Promoter Repression by BCL11A Controls the Fetal to Adult Hemoglobin Switch
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Direct Promoter Repression by BCL11A Controls the Fetal to Adult Hemoglobin Switch

机译:BCL11A的直接启动子抑制将胎儿控制成成人血红蛋白开关

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摘要

Fetal hemoglobin (HbF, alpha(2)gamma(2)) level is genetically controlled and modifies severity of adult hemoglobin (HbA, alpha(2)gamma(2)) disorders, sickle cell disease, and beta-thalassemia. Common genetic variation affects expression of BCL11A, a regulator of HbF silencing. To uncover how BCL11A supports the developmental switch from gamma- to beta-globin, we use a functional assay and protein binding microarray to establish a requirement for a zinc-finger cluster in BCL11A in repression and identify a preferred DNA recognition sequence. This motif appears in embryonic and fetal-expressed globin promoters and is duplicated in gamma-globin promoters. The more distal of the duplicated motifs is mutated in individuals with hereditary persistence of HbF. Using the CUT&RUN approach to map protein binding sites in erythroid cells, we demonstrate BCL11A occupancy preferentially at the distal motif, which can be disrupted by editing the promoter. Our findings reveal that direct gamma-globin gene promoter repression by BCL11A underlies hemoglobin switching.
机译:胎儿血红蛋白(HBF,α(2)γ(2))水平是遗传控制和修饰成人血红蛋白(HBA,α(2)γ(2))疾病,镰状细胞病和β-地中海贫血的严重程度。常见的遗传变异影响Bcl11a的表达,HBF沉默的调节剂。为了揭示BCL11A如何支持从γ-至β-珠蛋白的发育开关,我们使用功能测定和蛋白质结合微阵列来确定BCL11A中的锌指聚物的抑制和鉴定优选的DNA识别序列。该基序在胚胎和胎儿表达的球蛋白启动子中出现,并在γ-珠蛋白启动子中复制。重复的主题的远端在具有HBF遗传持续存在的个体中突变。使用切割和运行方法来映射红霉细胞中的蛋白质结合位点,我们在远端基序中优先证明Bcl11a占用,这可以通过编辑启动子来破坏。我们的研究结果表明,BCL11A的直接γ-珠蛋白基因启动子抑制是血红蛋白切换。

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  • 来源
    《Cell》 |2018年第2期|共30页
  • 作者

    Liu Nan; Hargreaves Victoria V.; Zhu Qian; Kurland Jesse V.; Hong Jiyoung; Kim Woojin; Sher Falak; Macias-Trevino Claudio; Rogers Julia M.; Kurita Ryo; Nakamura Yukio; Yuan Guo-Cheng; Bauer Daniel E.; Xu Jian; Bulyk Martha L.; Orkin Stuart H.;

  • 作者单位

    Harvard Med Sch Canc &

    Blood Disorders Ctr Dana Farber Canc Inst Boston MA 02115 USA;

    Harvard Med Sch Canc &

    Blood Disorders Ctr Dana Farber Canc Inst Boston MA 02115 USA;

    Dana Farber Canc Inst Dept Biostat &

    Computat Biol Boston MA 02115 USA;

    Harvard Med Sch Brigham &

    Womens Hosp Dept Med Div Genet Boston MA USA;

    Harvard Med Sch Canc &

    Blood Disorders Ctr Dana Farber Canc Inst Boston MA 02115 USA;

    Harvard Med Sch Canc &

    Blood Disorders Ctr Dana Farber Canc Inst Boston MA 02115 USA;

    Harvard Med Sch Canc &

    Blood Disorders Ctr Dana Farber Canc Inst Boston MA 02115 USA;

    Harvard Med Sch Canc &

    Blood Disorders Ctr Dana Farber Canc Inst Boston MA 02115 USA;

    Harvard Med Sch Brigham &

    Womens Hosp Dept Med Div Genet Boston MA USA;

    RIKEN Bioresource Ctr Cell Engn Div Tsukuba Ibaraki Japan;

    RIKEN Bioresource Ctr Cell Engn Div Tsukuba Ibaraki Japan;

    Dana Farber Canc Inst Dept Biostat &

    Computat Biol Boston MA 02115 USA;

    Harvard Med Sch Canc &

    Blood Disorders Ctr Dana Farber Canc Inst Boston MA 02115 USA;

    Univ Texas Southwestern Med Ctr Dallas Dept Pediat Childrens Med Ctr Res Inst Dallas TX USA;

    Harvard Med Sch Brigham &

    Womens Hosp Dept Med Div Genet Boston MA USA;

    Harvard Med Sch Canc &

    Blood Disorders Ctr Dana Farber Canc Inst Boston MA 02115 USA;

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  • 正文语种 eng
  • 中图分类 细胞生物学;
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