Kramer Marco, Ribeiro Diogo, Arsenian-Henriksson Marie, Deller Thomas, Rohrer Hermann
Max-Planck-Institute for Brain Research, Developmental Neurobiology, 60438 Frankfurt/Main, Germany, Institute of Clinical Neuroanatomy, Goethe University Frankfurt/Main, 60590 Frankfurt/Main, Germany, Ernst-Strüngmann-Institute, 60528 Frankfurt/Main, Germany, and.
Department of Microbiology, Tumor and Cell Biology, Karolinska Institutet, SE-17177 Stockholm, Sweden.
J Neurosci. 2016 Oct 5;36(40):10425-10439. doi: 10.1523/JNEUROSCI.0183-16.2016.
Neuroblastoma (NB) is a childhood tumor that arises from the sympathoadrenal lineage. MYCN amplification is the most reliable marker for poor prognosis and MYCN overexpression in embryonic mouse sympathetic ganglia results in NB-like tumors. MYCN cooperates with mutational activation of anaplastic lymphoma kinase (ALK), which promotes progression to NB, but the role of MYCN and ALK in tumorigenesis is still poorly understood. Here, we use chick sympathetic neuroblasts to examine the normal function of MYCN and MYC in the control of neuroblast proliferation, as well as effects of overexpression of MYCN, MYC, and activated ALK, alone and in combination. We demonstrate that MYC is more strongly expressed than MYCN during neurogenesis and is important for in vitro neuroblast proliferation. MYC and MYCN overexpression elicits increased proliferation but does not sustain neuroblast survival. Unexpectedly, long-term expression of activated ALK leads to cell-cycle arrest and promotes differentiation and survival of postmitotic neurons. ALK induces NEFM, RET, and VACHT and results in decreased expression of proapototic (BMF, BIM), adrenergic (TH), and cell-cycle genes (e.g., CDC25A, CDK1). In contrast, neuroblast proliferation is maintained when MYCN and ALK are coexpressed. Proliferating MYCN/ALK neuroblasts display a differentiated phenotype but differ from ALK-expressing neurons by the upregulation of SKP2, CCNA2, E2F8, and DKC1 Inhibition of the ubiquitin ligase SKP2 (S-phase kinase-associated protein 2), which targets the CDK inhibitor p27 for degradation, reduces neuroblast proliferation, implicating SKP2 in the maintained proliferation of MYCN/ALK neuroblasts. Together, our results characterize MYCN/ALK cooperation leading to neuroblast proliferation and survival that may represent initial steps toward NB development.
MYCN overexpression combined with activated anaplastic lymphoma kinase (ALK) is sufficient to induce neuroblastoma (NB) in mouse sympathoadrenal cells. To address cellular and molecular effects elicited by MYCN/ALK cooperation, we used cultures of chick sympathetic neuroblasts. We demonstrate that MYCN increases proliferation but not survival, whereas long-term expression of ALK elicits cell-cycle exit, differentiation, and survival of postmitotic neurons. Combined MYCN/ALK expression allows long-term proliferation and survival of neuroblasts with differentiated characteristics. In the presence of ALK signaling, MYCN induces the expression of the ubiquitin ligase SKP2 (S-phase kinase-associated protein 2), which targets p27 for degradation and is also upregulated in high-risk NB. SKP2 inhibition supports a function for SKP2 in the maintained neuroblast proliferation downstream of MYCN/ALK, which may represent an early step toward tumorigenesis.
神经母细胞瘤(NB)是一种起源于交感肾上腺谱系的儿童肿瘤。MYCN扩增是预后不良最可靠的标志物,胚胎小鼠交感神经节中MYCN过表达会导致类似NB的肿瘤。MYCN与间变性淋巴瘤激酶(ALK)的突变激活协同作用,促进NB进展,但MYCN和ALK在肿瘤发生中的作用仍知之甚少。在这里,我们使用鸡交感神经母细胞来研究MYCN和MYC在控制神经母细胞增殖中的正常功能,以及MYCN、MYC和激活的ALK单独或联合过表达的影响。我们证明,在神经发生过程中MYC的表达比MYCN更强,并且对体外神经母细胞增殖很重要。MYC和MYCN过表达会引起增殖增加,但不能维持神经母细胞存活。出乎意料的是,激活的ALK的长期表达会导致细胞周期停滞,并促进有丝分裂后神经元的分化和存活。ALK诱导NEFM、RET和VACHT,并导致促凋亡基因(BMF、BIM)、肾上腺素能基因(TH)和细胞周期基因(如CDC25A、CDK1)表达降低。相比之下,当MYCN和ALK共表达时,神经母细胞增殖得以维持。增殖的MYCN/ALK神经母细胞表现出分化的表型,但与表达ALK的神经元不同,其SKP2、CCNA2、E2F8和DKC1上调。泛素连接酶SKP2(S期激酶相关蛋白2)靶向细胞周期蛋白依赖性激酶抑制剂p27进行降解,抑制SKP2可降低神经母细胞增殖,这表明SKP2参与了MYCN/ALK神经母细胞的持续增殖。总之,我们的结果描述了MYCN/ALK协同作用导致神经母细胞增殖和存活,这可能代表了NB发展的初始步骤。
MYCN过表达与激活的间变性淋巴瘤激酶(ALK)相结合足以在小鼠交感肾上腺细胞中诱导神经母细胞瘤(NB)。为了研究MYCN/ALK协同作用引起的细胞和分子效应,我们使用了鸡交感神经母细胞培养物。我们证明,MYCN增加增殖但不增加存活,而ALK的长期表达会引起有丝分裂后神经元的细胞周期退出、分化和存活。MYCN/ALK联合表达允许具有分化特征的神经母细胞长期增殖和存活。在存在ALK信号的情况下,MYCN诱导泛素连接酶SKP2(S期激酶相关蛋白2)的表达,SKP2靶向p27进行降解,并且在高危NB中也上调。SKP2抑制支持SKP2在MYCN/ALK下游维持神经母细胞增殖中的作用,这可能代表肿瘤发生的早期步骤。