Cancer progression by reprogrammed BCAA metabolism in myeloid leukaemia

Hattori Ayuna; Tsunoda Makoto; Konuma Takaaki; Kobayashi Masayuki; Nagy Tamas; Glushka John; Tayyari Fariba; Cskimming Daniel M.; Kannan Natarajan; Tojo Arinobu; Edison Arthur S.; Ito Takahiro

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Cancer progression by reprogrammed BCAA metabolism in myeloid leukaemia

机译：髓样白血病中重编程的BCAA代谢导致癌症进展

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Reprogrammed cellular metabolism is a common characteristic observed in various cancers(1,2). However, whether metabolic changes directly regulate cancer development and progression remains poorly understood. Here we show that BCAT1, a cytosolic aminotransferase for branched-chain amino acids (BCAAs), is aberrantly activated and functionally required for chronic myeloid leukaemia (CML) in humans and in mouse models of CML. BCAT1 is upregulated during progression of CML and promotes BCAA production in leukaemia cells by aminating the branched-chain keto acids. Blocking BCAT1 gene expression or enzymatic activity induces cellular differentiation and impairs the propagation of blast crisis CML both in vitro and in vivo. Stable-isotope tracer experiments combined with nuclear magnetic resonance-based metabolic analysis demonstrate the intracellular production of BCAAs by BCAT1. Direct supplementation with BCAAs ameliorates the defects caused by BCAT1 knockdown, indicating that BCAT1 exerts its oncogenic function through BCAA production in blast crisis CML cells. Importantly, BCAT1 expression not only is activated in human blast crisis CML and de novo acute myeloid leukaemia, but also predicts disease outcome in patients. As an upstream regulator of BCAT1 expression, we identified Musashi2 (MSI2), an oncogenic RNA binding protein that is required for blast crisis CML. MSI2 is physically associated with the BCAT1 transcript and positively regulates its protein expression in leukaemia. Taken together, this work reveals that altered BCAA metabolism activated through the MSI2-BCAT1 axis drives cancer progression in myeloid leukaemia.

机译：重编程的细胞代谢是在各种癌症中观察到的共同特征（1,2）。但是，代谢变化是否直接调节癌症的发展和进展仍然知之甚少。在这里，我们显示BCAT1，一种支链氨基酸（BCAAs）的胞质氨基转移酶，在人类和CML小鼠模型中被异常激活并成为慢性粒细胞白血病（CML）所需的功能。 BCAT1在CML进展过程中被上调，并通过胺化支链酮酸来促进白血病细胞中BCAA的产生。阻断BCAT1基因的表达或酶活性可诱导细胞分化，并在体外和体内损害爆炸性危机CML的繁殖。稳定同位素示踪剂实验与基于核磁共振的代谢分析相结合，证明了BCAT1在细胞内产生的BCAA。直接添加BCAAs可以改善BCAT1敲低引起的缺陷，表明BCAT1通过blast危机CML细胞中BCAA的产生发挥其致癌功能。重要的是，BCAT1表达不仅在人类胚细胞危机CML和从头急性髓性白血病中被激活，而且可以预测患者的疾病预后。作为BCAT1表达的上游调节剂，我们鉴定了Musashi2（MSI2），这是爆炸危机CML所需的致癌RNA结合蛋白。 MSI2在身体上与BCAT1转录物相关，并在白血病中积极调节其蛋白表达。综上所述，这项工作揭示了通过MSI2-BCAT1轴激活的改变的BCAA代谢驱动了髓样白血病中的癌症进展。

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《Nature 》 |2017年第7655期| 500-504| 共5页
作者
Hattori Ayuna; Tsunoda Makoto; Konuma Takaaki; Kobayashi Masayuki; Nagy Tamas; Glushka John; Tayyari Fariba; Cskimming Daniel M.; Kannan Natarajan; Tojo Arinobu; Edison Arthur S.; Ito Takahiro;
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作者单位

Univ Georgia, Dept Biochem & Mol Biol, Franklin Coll Arts & Sci, Athens, GA 30602 USA|Univ Georgia, Ctr Canc, Athens, GA 30602 USA;

Univ Tokyo, Grad Sch Pharmaceut Sci, Bunkyo Ku, Tokyo 1130033, Japan;

Univ Tokyo, Inst Med Sci, Dept Hematol & Oncol, Minato Ku, Tokyo 1088639, Japan;

Univ Tokyo, Inst Med Sci, Dept Hematol & Oncol, Minato Ku, Tokyo 1088639, Japan;

Univ Georgia, Coll Vet Med, Dept Pathol, Athens, GA 30602 USA;

Univ Georgia, Complex Carbohydrate Res Ctr, 220 Riverbend Rd, Athens, GA 30602 USA;

Univ Georgia, Dept Biochem & Mol Biol, Franklin Coll Arts & Sci, Athens, GA 30602 USA|Univ Georgia, Complex Carbohydrate Res Ctr, 220 Riverbend Rd, Athens, GA 30602 USA;

Univ Georgia, Dept Biochem & Mol Biol, Franklin Coll Arts & Sci, Athens, GA 30602 USA|Univ Georgia, Inst Bioinformat, Athens, GA 30602 USA;

Univ Georgia, Dept Biochem & Mol Biol, Franklin Coll Arts & Sci, Athens, GA 30602 USA|Univ Georgia, Ctr Canc, Athens, GA 30602 USA|Univ Georgia, Inst Bioinformat, Athens, GA 30602 USA;

Univ Tokyo, Inst Med Sci, Dept Hematol & Oncol, Minato Ku, Tokyo 1088639, Japan;

Univ Georgia, Dept Biochem & Mol Biol, Franklin Coll Arts & Sci, Athens, GA 30602 USA|Univ Georgia, Complex Carbohydrate Res Ctr, 220 Riverbend Rd, Athens, GA 30602 USA|Univ Georgia, Inst Bioinformat, Athens, GA 30602 USA|Univ Georgia, Dept Genet, Franklin Coll Arts & Sci, Athens, GA 30602 USA;

Univ Georgia, Dept Biochem & Mol Biol, Franklin Coll Arts & Sci, Athens, GA 30602 USA|Univ Georgia, Ctr Canc, Athens, GA 30602 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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1. Disease progression by reprogrammed bcaa metabolism in myeloid leukemia [J] . Takahiro Ito, Ayuna Hattori Experimental Hematology: Official Publication of the International Society for Experimental Hematology . 2017 ,第期

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2. Epigenetic Reprogramming of Cancer-Associated Fibroblasts Deregulates Glucose Metabolism and Facilitates Progression of Breast Cancer [J] . Lisa M. Becker, Joyce T. O’Connell, Annie P. Vo, Cell Reports . 2020 ,第9期

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3. Cancer-Induced Reprogramming of Host Glucose Metabolism: “Vicious Cycle” Supporting Cancer Progression [J] . Polina Schwartsburd Frontiers in Oncology . 2019 ,第1期

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4. WGAN Latent Space Embeddings for Blast Identification in Childhood Acute Myeloid Leukaemia [C] . Roxane Licandro, Thomas Schlegl, Michael Reiter, International Conference on Pattern Recognition . 2018

机译：WGAN潜在空间嵌入在儿童急性髓性白血病中的爆炸鉴定。
5. The Innate Immune Receptor Nod1 in Reprogramming the Myeloid Compartment: Implications for Colorectal Cancer [D] . Maisonneuve, Charles . 2019

机译：重编程髓室内的先天免疫受体NOD1：对结直肠癌的影响
6. Cancer progression by reprogrammed BCAA metabolism in myeloid leukemia [O] . Ayuna Hattori, Makoto Tsunoda, Takaaki Konuma, -1

机译：髓样白血病中重编程的BCAA代谢导致癌症进展
7. Cancer progression by reprogrammed BCAA metabolism in myeloid leukaemia [O] . Ayuna Hattori, Makoto Tsunoda, Takaaki Konuma, 2017

机译：通过重新编程的BCAA代谢在髓性白血病中进行癌症进展

Cancer progression by reprogrammed BCAA metabolism in myeloid leukaemia

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