BMAL1的一种非经典功能在代谢上限制肥胖促进的三阴性乳腺癌。

A Non-canonical Function of BMAL1 Metabolically Limits Obesity-Promoted Triple-Negative Breast Cancer.

作者信息

Ramos Cassandra A, Ouyang Ching, Qi Yue, Chung Yiyin, Cheng Chun-Ting, LaBarge Mark A, Seewaldt Victoria L, Ann David K

机构信息

Department of Diabetes Complications and Metabolism, Beckman Research Institute, City of Hope, Duarte, CA 91010, USA; Irell & Manella Graduate School of Biological Sciences, City of Hope, Duarte, CA 91010, USA.

Center for Informatics, City of Hope National Medical Center, Duarte, CA 91010, USA; Department of Computational and Quantitative Medicine, Beckman Research Institute, City of Hope, Duarte, CA 91010, USA.

出版信息

iScience. 2020 Feb 21;23(2):100839. doi: 10.1016/j.isci.2020.100839. Epub 2020 Jan 14.

DOI:10.1016/j.isci.2020.100839

PMID:32058954

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6997869/

Abstract

The epidemiological association between disrupted circadian rhythms and metabolic diseases is implicated in increased risk of human breast cancer and poor therapeutic outcomes. To define a metabolic phenotype and the underlying molecular mechanism, we applied chronic insulin treatment (CIT) to an in vitro model of triple-negative breast cancer to directly address how BMAL1, a key circadian transcription factor, regulates cancer cell respiration and governs tumor progression. At the cellular level, BMAL1 suppresses the flexibility of mitochondrial substrate usage and the pyruvate-dependent mitochondrial respiration induced by CIT. We established an animal model of diet-induced obesity/hyperinsulinemia and observed that BMAL1 functions as a tumor suppressor in obese, but not lean, mice. Downregulation of BMAL1 is associated with higher risk of metastasis in human breast tumors. In summary, loss of BMAL1 in tumors confers advantages to cancer cells in both intrinsic mitochondrial metabolism and extrinsic inflammatory tumor microenvironment during pre-diabetic obesity/hyperinsulinemia.

摘要

昼夜节律紊乱与代谢性疾病之间的流行病学关联涉及人类乳腺癌风险增加和治疗效果不佳。为了确定一种代谢表型及其潜在的分子机制，我们将慢性胰岛素治疗（CIT）应用于三阴性乳腺癌的体外模型，以直接研究关键的昼夜节律转录因子BMAL1如何调节癌细胞呼吸并控制肿瘤进展。在细胞水平上，BMAL1抑制线粒体底物利用的灵活性以及CIT诱导的丙酮酸依赖性线粒体呼吸。我们建立了饮食诱导的肥胖/高胰岛素血症动物模型，并观察到BMAL1在肥胖小鼠而非瘦小鼠中发挥肿瘤抑制作用。BMAL1的下调与人类乳腺肿瘤转移的较高风险相关。总之，在糖尿病前期肥胖/高胰岛素血症期间，肿瘤中BMAL1的缺失在内在线粒体代谢和外在炎症性肿瘤微环境方面均赋予癌细胞优势。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0c53/6997869/657c8f2f8cd0/fx1.jpg

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BMAL1的一种非经典功能在代谢上限制肥胖促进的三阴性乳腺癌。

A Non-canonical Function of BMAL1 Metabolically Limits Obesity-Promoted Triple-Negative Breast Cancer.

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