己糖激酶-2 介导的有氧糖酵解是小脑神经发生和髓母细胞瘤发病机制的重要组成部分。

Hexokinase-2-mediated aerobic glycolysis is integral to cerebellar neurogenesis and pathogenesis of medulloblastoma.

机构信息

Department of Neurology, University of North Carolina, Chapel Hill, NC, 27599, USA.

出版信息

Cancer Metab. 2013 Jan 23;1(1):2. doi: 10.1186/2049-3002-1-2.

DOI:10.1186/2049-3002-1-2

PMID:24280485

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3782751/

Abstract

BACKGROUND

While aerobic glycolysis is linked to unconstrained proliferation in cancer, less is known about its physiological role. Why this metabolic program that promotes tumor growth is preserved in the genome has thus been unresolved. We tested the hypothesis that aerobic glycolysis derives from developmental processes that regulate rapid proliferation.

METHODS

We performed an integrated analysis of metabolism and gene expression in cerebellar granule neuron progenitors (CGNPs) with and without Sonic Hedgehog (Shh), their endogenous mitogen. Because our analysis highlighted Hexokinase-2 (Hk2) as a key metabolic regulator induced by Shh, we studied the effect of conditional genetic Hk2 deletion in CGNP development. We then crossed Hk2 conditional knockout mice with transgenic SmoM2 mice that develop spontaneous medulloblastoma and determined changes in SmoM2-driven tumorigenesis.

RESULTS

We show that Shh and phosphoinositide 3-kinase (PI3K) signaling combine to induce an Hk2-dependent glycolytic phenotype in CGNPs. This phenotype is recapitulated in medulloblastoma, a malignant tumor of CGNP origin. Importantly, cre-mediated ablation of Hk2 abrogated aerobic glycolysis, disrupting CGNP development and Smoothened-induced tumorigenesis. Comparing tumorigenesis in medulloblastoma-prone SmoM2 mice with and without functional Hk2, we demonstrate that loss of aerobic glycolysis reduces the aggressiveness of medulloblastoma, causing tumors to grow as indolent lesions and allowing long-term survival of tumor bearing mice.

CONCLUSIONS

Our investigations demonstrate that aerobic glycolysis in cancer derives from developmental mechanisms that persist in tumorigenesis. Moreover, we demonstrate in a primary tumor model the anti-cancer potential of blocking aerobic glycolysis by targeting Hk2.See commentary article:http://www.biomedcentral.com/1741-7007/11/3.

摘要

背景

虽然有氧糖酵解与癌症的无约束增殖有关，但对其生理作用知之甚少。为什么促进肿瘤生长的这种代谢程序在基因组中得以保留，因此仍未得到解决。我们检验了这样一种假设，即有氧糖酵解源自调节快速增殖的发育过程。

方法

我们对有和没有 Sonic Hedgehog（Shh）的小脑颗粒神经元前体细胞（CGNPs）进行了代谢和基因表达的综合分析，Shh 是它们的内源性有丝分裂原。由于我们的分析突出了己糖激酶 2（Hk2）作为 Shh 诱导的关键代谢调节剂，因此我们研究了 CGNP 发育过程中条件性遗传 Hk2 缺失的影响。然后，我们将 Hk2 条件性敲除小鼠与自发形成髓母细胞瘤的 SmoM2 转基因小鼠杂交，并确定 SmoM2 驱动的肿瘤发生的变化。

结果

我们表明，Shh 和磷脂酰肌醇 3-激酶（PI3K）信号共同诱导 CGNPs 中 Hk2 依赖性糖酵解表型。这种表型在髓母细胞瘤中得到了重现，髓母细胞瘤是 CGNP 起源的恶性肿瘤。重要的是，cre 介导的 Hk2 消融消除了有氧糖酵解，破坏了 CGNP 的发育和 Smoothened 诱导的肿瘤发生。在有和没有功能性 Hk2 的易发生髓母细胞瘤的 SmoM2 小鼠中比较肿瘤发生，我们证明有氧糖酵解的丧失降低了髓母细胞瘤的侵袭性，使肿瘤生长为惰性病变，并使携带肿瘤的小鼠长期存活。

结论

我们的研究表明，癌症中的有氧糖酵解源自在肿瘤发生中持续存在的发育机制。此外，我们在原发性肿瘤模型中证明，通过靶向 Hk2 阻断有氧糖酵解具有抗癌潜力。参见评论文章：http://www.biomedcentral.com/1741-7007/11/3。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/babb/3834491/0ae3d465a226/2049-3002-1-2-1.jpg

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己糖激酶-2 介导的有氧糖酵解是小脑神经发生和髓母细胞瘤发病机制的重要组成部分。

Hexokinase-2-mediated aerobic glycolysis is integral to cerebellar neurogenesis and pathogenesis of medulloblastoma.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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