mTORC1依赖性的AMD1调节维持前列腺癌中的多胺代谢。

mTORC1-dependent AMD1 regulation sustains polyamine metabolism in prostate cancer.

作者信息

Zabala-Letona Amaia, Arruabarrena-Aristorena Amaia, Martín-Martín Natalia, Fernandez-Ruiz Sonia, Sutherland James D, Clasquin Michelle, Tomas-Cortazar Julen, Jimenez Jose, Torres Ines, Quang Phong, Ximenez-Embun Pilar, Bago Ruzica, Ugalde-Olano Aitziber, Loizaga-Iriarte Ana, Lacasa-Viscasillas Isabel, Unda Miguel, Torrano Verónica, Cabrera Diana, van Liempd Sebastiaan M, Cendon Ylenia, Castro Elena, Murray Stuart, Revandkar Ajinkya, Alimonti Andrea, Zhang Yinan, Barnett Amelia, Lein Gina, Pirman David, Cortazar Ana R, Arreal Leire, Prudkin Ludmila, Astobiza Ianire, Valcarcel-Jimenez Lorea, Zuñiga-García Patricia, Fernandez-Dominguez Itziar, Piva Marco, Caro-Maldonado Alfredo, Sánchez-Mosquera Pilar, Castillo-Martín Mireia, Serra Violeta, Beraza Naiara, Gentilella Antonio, Thomas George, Azkargorta Mikel, Elortza Felix, Farràs Rosa, Olmos David, Efeyan Alejo, Anguita Juan, Muñoz Javier, Falcón-Pérez Juan M, Barrio Rosa, Macarulla Teresa, Mato Jose M, Martinez-Chantar Maria L, Cordon-Cardo Carlos, Aransay Ana M, Marks Kevin, Baselga José, Tabernero Josep, Nuciforo Paolo, Manning Brendan D, Marjon Katya, Carracedo Arkaitz

机构信息

CIC bioGUNE, Bizkaia Technology Park, 801 building, 48160, Derio, Spain.

CIBERONC.

出版信息

Nature. 2017 Jul 6;547(7661):109-113. doi: 10.1038/nature22964. Epub 2017 Jun 28.

DOI:10.1038/nature22964

PMID:28658205

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5505479/

Abstract

Activation of the PTEN-PI3K-mTORC1 pathway consolidates metabolic programs that sustain cancer cell growth and proliferation. Here we show that mechanistic target of rapamycin complex 1 (mTORC1) regulates polyamine dynamics, a metabolic route that is essential for oncogenicity. By using integrative metabolomics in a mouse model and human biopsies of prostate cancer, we identify alterations in tumours affecting the production of decarboxylated S-adenosylmethionine (dcSAM) and polyamine synthesis. Mechanistically, this metabolic rewiring stems from mTORC1-dependent regulation of S-adenosylmethionine decarboxylase 1 (AMD1) stability. This novel molecular regulation is validated in mouse and human cancer specimens. AMD1 is upregulated in human prostate cancer with activated mTORC1. Conversely, samples from a clinical trial with the mTORC1 inhibitor everolimus exhibit a predominant decrease in AMD1 immunoreactivity that is associated with a decrease in proliferation, in line with the requirement of dcSAM production for oncogenicity. These findings provide fundamental information about the complex regulatory landscape controlled by mTORC1 to integrate and translate growth signals into an oncogenic metabolic program.

摘要

PTEN-PI3K-mTORC1通路的激活巩固了维持癌细胞生长和增殖的代谢程序。在此，我们表明雷帕霉素复合物1（mTORC1）的机制靶点调节多胺动态，这是一条对致癌性至关重要的代谢途径。通过在小鼠模型和前列腺癌人类活检样本中使用综合代谢组学，我们确定了肿瘤中影响脱羧S-腺苷甲硫氨酸（dcSAM）产生和多胺合成的改变。从机制上讲，这种代谢重排源于mTORC1对S-腺苷甲硫氨酸脱羧酶1（AMD1）稳定性的依赖性调节。这种新的分子调节在小鼠和人类癌症标本中得到验证。在mTORC1激活的人类前列腺癌中，AMD1上调。相反，来自使用mTORC1抑制剂依维莫司的临床试验样本显示，AMD1免疫反应性显著降低，这与增殖减少相关，这与dcSAM产生对致癌性的需求一致。这些发现提供了关于mTORC1控制的复杂调节格局的基本信息，以将生长信号整合并转化为致癌性代谢程序。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/150a/5505479/4a22dbe7f408/emss-72672-f005.jpg

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mTORC1依赖性的AMD1调节维持前列腺癌中的多胺代谢。

mTORC1-dependent AMD1 regulation sustains polyamine metabolism in prostate cancer.

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