BCL11A 的四聚体对于稳定的蛋白质产生和胎儿血红蛋白沉默是必需的。
A tetramer of BCL11A is required for stable protein production and fetal hemoglobin silencing.
机构信息
Dana-Farber/Boston Children's Hospital Cancer and Blood Disorder Center, Department of Pediatrics, Harvard Medical School, Boston, MA, USA.
Lester Sue Smith Breast Center, Department of Human Molecular Genetics, Baylor College of Medicine, Houston, TX, USA.
出版信息
Science. 2024 Nov 29;386(6725):1010-1018. doi: 10.1126/science.adp3025. Epub 2024 Nov 28.
Down-regulation of BCL11A protein reverses the fetal (HbF, αγ) to adult (HbA, αβ) hemoglobin switch and is exploited in gene-based therapy for hemoglobin disorders. Because of reliance on ex vivo cell manipulation and marrow transplant, such therapies cannot lessen disease burden. To develop new small-molecule approaches, we investigated the state of BCL11A protein in erythroid cells. We report that tetramer formation mediated by a single zinc finger (ZnF0) is required for production of steady-state protein. Beyond its role in protein stability, the tetramer state is necessary for γ-globin gene repression, because an engineered monomer fails to engage a critical co-repressor complex. These aspects of BCL11A protein production identify tetramer formation as a vulnerability for HbF silencing and provide opportunities for drug discovery.
BCL11A 蛋白下调可逆转胎儿(HbF,αγ)向成人(HbA,αβ)血红蛋白的转变,该蛋白在血红蛋白疾病的基因治疗中被广泛应用。但由于依赖于体外细胞操作和骨髓移植,这些治疗方法并不能减轻疾病负担。为了开发新的小分子方法,我们研究了红细胞中 BCL11A 蛋白的状态。我们报告称,单个锌指(ZnF0)介导的四聚体形成对于稳定状态蛋白的产生是必需的。四聚体状态除了在蛋白稳定性方面发挥作用外,对于γ-珠蛋白基因的抑制也是必需的,因为工程化的单体不能与关键的共抑制复合物结合。BCL11A 蛋白产生的这些方面确定了四聚体形成是 HbF 沉默的脆弱性,并为药物发现提供了机会。
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