Nemo-like激酶通过靶向AML中的肿瘤抑制因子C/EBPα阻断髓系分化。

Anil Kumar Singh, Gatha Thacker, Vishal Upadhyay, Mukul Mishra, Akshay Sharma, Arppita Sethi, Sangita Chowdhury, Shumaila Siddiqui, Shailendra Prasad Verma, Amita Pandey, Madan L. B. Bhatt, Arun Kumar Trivedi
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摘要

CCAAT/增强子结合蛋白α(C/EBPα)是一种关键的髓系转录因子,它通过调节粒细胞集落刺激因子受体和C/EBPε的表达来推动粒细胞分化。在这里,我们发现丝氨酸/苏氨酸蛋白激酶NLK(又称尼莫样激酶)与C/EBPα发生物理结合,并在多个位点(包括Ser21、Thr226、Thr230和S234)对其进行磷酸化,从而导致其泛素介导的降解。C/EBPα的单个磷酸化点突变体可被NLK磷酸化,但所有可磷酸化残基均被丙氨酸取代的突变体与单点突变体一样,可抵抗NLK的磷酸化和降解。此外,虽然异位表达 NLK 能提高 C/EBPα 的磷酸化水平,但却明显抑制了 C/EBPα 蛋白的总水平。相反,在几种急性髓性白血病(AML)细胞系和从一些 AML 患者样本中分离出的外周血单核细胞中,NLK 的耗竭抑制了内源性 C/EBPα 磷酸化,但却提高了其总蛋白水平。重要的是,在原发性急性髓性白血病患者的外周血单核细胞中消耗NLK不仅能恢复C/EBPα蛋白水平,还能诱导髓系分化,这表明NLK可以作为治疗靶点来恢复C/EBPα,从而解决急性髓性白血病的分化停滞问题。
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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Nemo-like kinase blocks myeloid differentiation by targeting tumor suppressor C/EBPα in AML

CCAAT/enhancer-binding protein α (C/EBPα), a key myeloid transcription factor, drives myeloid differentiation from blast cells by regulating the expression of granulocyte colony stimulating factor receptor and C/EBPε as required for promoting granulocyte differentiation. Here, we show that serine/threonine-protein kinase NLK, also known as Nemo-like kinase, physically associates with C/EBPα and phosphorylates it at multiple sites, including Ser21, Thr226, Thr230 and S234, leading to its ubiquitin-mediated degradation. Individual phospho-point mutants of C/EBPα could be phosphorylated by NLK, but a mutant with all phosphorylatable residues replaced by alanine resisted phosphorylation and degradation by NLK, as did the single point mutants. Furthermore, although ectopic expression of NLK enhanced phosphorylation of C/EBPα levels, it markedly inhibited total C/EBPα protein levels. Conversely, NLK depletion inhibited endogenous C/EBPα phosphorylation but enhanced its total protein levels in several acute myeloid leukemia (AML) cell lines and in peripheral blood mononuclear cells isolated from number of AML patient samples. Importantly, NLK depletion in peripheral blood mononuclear cells from primary AML patients not only restored C/EBPα protein levels, but also induced myeloid differentiation, suggesting that NLK could be therapeutically targeted to restore C/EBPα to resolve differentiation arrest in AML.

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