Ring finger protein 138 inhibits transcription factor C/EBPα protein turnover leading to differentiation arrest in acute myeloid leukemia.

IF 4.4 3区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochemical Journal Pub Date : 2024-05-22 DOI:10.1042/BCJ20240027

Anil Kumar Singh, Vishal Upadhyay, Arppita Sethi, Sangita Chowdhury, Shivkant Mishra, Shailendra Prasad Verma, Madan Lal Brahma Bhatt, Arun Kumar Trivedi

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引用次数: 0

Abstract

E3 ubiquitin ligase, ring finger protein 138 (RNF138) is involved in several biological processes; however, its role in myeloid differentiation or tumorigenesis remains unclear. RNAseq data from TNMplot showed that RNF138 mRNA levels are highly elevated in acute myeloid leukemia (AML) bone marrow samples as compared with bone marrow of normal volunteers. Here, we show that RNF138 serves as an E3 ligase for the tumor suppressor CCAAT/enhancer binding protein (C/EBPα) and promotes its degradation leading to myeloid differentiation arrest in AML. Wild-type RNF138 physically interacts with C/EBPα and promotes its ubiquitin-dependent proteasome degradation while a mutant RNF-138 deficient in ligase activity though interacts with C/EBPα, fails to down-regulate it. We show that RNF138 depletion enhances endogenous C/EBPα levels in peripheral blood mononuclear cells (PBMCs) isolated from healthy volunteers. Our data further shows that RNF138-mediated degradation of C/EBPα negatively affects its transactivation potential on its target genes. Furthermore, RNF138 overexpression inhibits all-trans-retinoic acid-induced differentiation of HL-60 cells whereas RNF138 RNAi enhances. In line with RNF138 inhibiting C/EBPα protein turnover, we also observed that RNF138 overexpression inhibited β-estradiol (E2)-induced C/EBPα driven granulocytic differentiation in C/EBPα inducible K562-p42C/EBPα-estrogen receptor cells. Furthermore, we also recapitulated these findings in PBMCs isolated from AML patients where depletion of RNF138 increased the expression of myeloid differentiation marker CD11b. These results suggest that RNF138 inhibits myeloid differentiation by targeting C/EBPα for proteasomal degradation and may provide a plausible mechanism for loss of C/EBPα expression often observed in myeloid leukemia. Also, targeting RNF138 may resolve differentiation arrest by restoring C/EBPα expression in AML.

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RNF138 可抑制转录因子 C/EBPα 蛋白的周转，导致急性髓细胞性白血病的分化停滞。

E3泛素连接酶环指蛋白138（RNF138）参与多种生物过程，但它在髓细胞分化或肿瘤发生中的作用仍不清楚。TNMplot 的 RNAseq 数据显示，与正常志愿者的骨髓相比，急性髓性白血病（AML）骨髓样本中的 RNF138 mRNA 水平高度升高。在这里，我们发现RNF138是肿瘤抑制因子CCAAT/增强子结合蛋白（C/EBPα）的E3连接酶，可促进其降解，从而导致急性髓细胞白血病患者的髓细胞分化停滞。野生型RNF138与C/EBPα发生物理作用，促进其泛素依赖性蛋白酶体降解，而缺乏连接酶活性的突变体RNF-138虽然与C/EBPα发生作用，但却不能下调C/EBPα。我们的研究表明，在从健康志愿者体内分离出的 PBMCs 中，RNF138 的缺失会提高内源性 C/EBPα 的水平。我们的数据进一步表明，RNF138 介导的 C/EBPα 降解会对其靶基因的转录潜能产生负面影响。此外，RNF138 的过表达抑制了 ATRA 诱导的 HL-60 细胞分化，而 RNF138 RNAi 则增强了分化。与RNF138抑制C/EBPα蛋白周转相一致，我们还观察到，在C/EBPα诱导的K562-p42C/EBPα-雌激素受体（ER）细胞中，RNF138过表达抑制了β-雌二醇（E2）诱导的C/EBPα驱动的粒细胞分化。此外，我们还在分离自 AML 患者的 PBMCs 中重现了这些发现，其中 RNF138 的耗竭会增加髓系分化标记 CD11b 的表达。这些结果表明，RNF138 通过靶向蛋白酶体降解 C/EBPα 来抑制髓系分化，这可能为髓性白血病中经常观察到的 C/EBPα 表达缺失提供了一种合理的机制。此外，靶向 RNF138 可通过恢复 C/EBPα 在急性髓细胞白血病中的表达来解决分化停滞问题。

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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来源期刊

Biochemical Journal 生物-生化与分子生物学

CiteScore

8.00

自引率

0.00%

发文量

255

审稿时长

1 months

期刊介绍： Exploring the molecular mechanisms that underpin key biological processes, the Biochemical Journal is a leading bioscience journal publishing high-impact scientific research papers and reviews on the latest advances and new mechanistic concepts in the fields of biochemistry, cellular biosciences and molecular biology. The Journal and its Editorial Board are committed to publishing work that provides a significant advance to current understanding or mechanistic insights; studies that go beyond observational work using in vitro and/or in vivo approaches are welcomed. Painless publishing: All papers undergo a rigorous peer review process; however, the Editorial Board is committed to ensuring that, if revisions are recommended, extra experiments not necessary to the paper will not be asked for. Areas covered in the journal include: Cell biology Chemical biology Energy processes Gene expression and regulation Mechanisms of disease Metabolism Molecular structure and function Plant biology Signalling